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  • Nature Inspires a New Wave of Biotechnology

    Nature Inspires a New Wave of Biotechnology

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    The Science

    Newswise — Biological molecules called peptides play a key role in many biological activities, including the transport of oxygen and electrons. Peptides consist of short chains of amino acids, the building blocks of proteins. They are also the inspiration for new kinds of biotechnology. Researchers are developing a synthetic form of a peptide that self-assembles into nanoscale fibers that conduct electricity when combined with heme. Heme is a substance that helps proteins in nature move electrons from one place to another. The researchers determined how electrical conductivity of their peptide nanofibers was affected by the length of the sequence of amino acids in the peptide and their identity

    The Impact

    Structural parameters of  peptides in nature determine their function and their promise for biotechnology. These parameters include sequence length—the length of the peptide segments that make up complete peptide chains. They also include how some amino acids are arranged in a peptide. This study’s results help researchers design peptide assemblies that form nanoscale fibers and transport electrons over long distances, which could make these fibers useful in medical devices, biosensors for a wide range of applications, and robotics. They also have promise in the development of new enzymes, which companies use to make and improve things such as medical-grade and household cleaning products.

    Summary

    Fields in materials and biochemistry research explore protein and peptide nanostructures found in nature. These nanostructures show great promise as bioelectronic materials. The development of a synthetic analog capable of forming one-dimensional (1D) nanostructures would greatly improve scientists’ understanding of the natural system and provide a platform for developing new materials. Researchers in the Center for Nanoscale Materials at Argonne National Laboratory investigated a series of peptides that self-assemble into 1D layered nanostructures. The peptides PA-(Kx)n are denoted simply as PA-Kxn, where PA is c16-AH with c16-A being modified alanine (A) and H is histidine, K is lysine, n is the sequence repeat length (1-4), and x is the amino acid leucine (L), isoleucine (I), or phenylalanine (F).

    The team determined how the length of the peptide sequence (n) and the identity of the hydrophobic amino acid affect key factors: the binding affinity of heme to pre-assembled peptides, the heme density, and the electronic properties. With a sequence length of 2, the peptide assembly yielded the greatest binding affinity. The resulting nanoscale assemblies produced ordered arrays of the electroactive molecule heme. All the peptides, with the exception of PA-KL1, had nanofibers with a long aspect ratio regardless of repeat unit length and sequence. Such structures have potential utility as supramolecular bioelectronic materials useful in biomedical sensing and the development of enzymatic materials.

    Funding

    Research at the Center for Nanoscale Materials, a Department of Energy (DOE) Office of Science user facility, was supported by DOE Office of Science, Office of Basic Energy Sciences.


    Journal Link: Nanoscale, Jun-2022

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    Department of Energy, Office of Science

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  • 1 in 8 older adults use cannabis products, suggesting need to screen for risks

    1 in 8 older adults use cannabis products, suggesting need to screen for risks

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    Newswise — More older Americans use cannabis now than before the pandemic, with 12% saying they’ve consumed a THC-containing substance in the past year and 4% saying they do so multiple times a week, according to a new study of people aged 50 to 80. Those who drink alcohol at risky levels have a much higher rate of cannabis use.

    The new findings, published in the journal Cannabis and Cannabinoids Research by a team from the University of Michigan’s Institute for Healthcare Policy and Innovation, suggest a need for more education and screening of older adults for cannabis-related risks.

    “As the stress of the pandemic and the increased legalization of cannabis by states converged, our findings suggest cannabis use increased among older adults nationally. Older adults represent a vulnerable age group for cannabis use due to interactions with medications, risky driving, cannabis-related mental health impacts and increased possibility of falls and memory issues,” said Anne Fernandez, Ph.D., an addiction psychologist in the U-M Addiction Center and Department of Psychiatry who led the study.

    The data in the study come from the National Poll on Healthy Aging, which IHPI runs with funding from AARP and Michigan Medicine, U-M’s academic medical center. The national poll of 2,023 older adults was taken in January 2021, nine months into the official pandemic declaration and just as the first COVID-19 vaccines were being made available to the groups at the highest risk.

    The 12% overall past-year use of cannabis seen in the new study is higher than the 9.5% seen in 2019 by other researchers pre-pandemic, and far higher than the 3% seen in another study in 2006, when only 12 states had passed medical cannabis laws. The NPHA in 2017 found that 6% of older adults had used cannabis for medical purposes.

    In the new study, in addition to the 4% who said they use cannabis products four or more times a week, another 5% said they use cannabis once a month or less. The poll question asked about use of any product containing THC, the main psychoactive component of cannabis — including edibles – and used multiple common names for cannabis. It did not differentiate between medical and recreational use of cannabis.

    Older adults who said they were unemployed, those who said they were unmarried and had no partner, and those who said they drank alcohol were more likely to say they used cannabis.

    Fernandez notes an especially concerning finding: those whose alcohol use was high enough to cause physical and psychological harms were nearly eight times as likely to say they had used cannabis in the past year. But even those with low-risk alcohol drinking patterns were more than twice as likely to say they had used cannabis in the past year.

    This group of dual-substance users is one that doctors and public health officials should pay special attention to, she said.

    “Other research has shown that using both alcohol and cannabis increases the chance that a person will drive while impaired,” she explained. “They are also more likely to have physical and mental health issues, including substance use disorders. Screening for alcohol use, cannabis use, and other drug use could help more people get counseling and reduce their risk and risk to others.”

    While there were no statistical differences among older adults by age, health or mental health status, income or education, those who said they had Hispanic backgrounds were less likely than non-Hispanic older adults to say they used cannabis. Fernandez says this is consistent with other research showing lower cannabis use in the Latino community.

    She advises any older adult who chooses to use cannabis products for any reason to be open with their health care provider about it, especially if they also drink alcohol or take certain medications. Physicians, nurse practitioners and pharmacists can advise if any medications a person is taking might interact with cannabis, including ones for insomnia, depression and anxiety, opioid-containing pain medications, seizure medications, and blood thinners.

    For more about the poll methodology, see https://www.healthyagingpoll.org/survey-methods

    In addition to Fernandez, the study’s authors are U-M addiction psychologist Lara Coughlin, Ph.D., poll deputy director Erica S. Solway, Ph.D., poll manager Dianne C. Singer, poll director Jeffrey T. Kullgren, M.D., M.S., M.P.H., poll data lead Matthias Kirch, M.S. and Preeti N. Malani, M.D., former poll director and current poll senior advisor.

     

    In addition to the poll funding, Fernandez has research funding from the National Institute of Alcohol Abuse and Alcoholism (AA023869).

    Prevalence and Frequency of Cannabis Use Among Adults Ages 50–80 in the United States, Cannabis and Cannabinoid Research, DOI: 10.1089/can.2023.0056 https://doi-org.proxy.lib.umich.edu/10.1089/can.2023.0056

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    Michigan Medicine – University of Michigan

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  • December 2023 Issue of Neurosurgical Focus: “Enhanced Recovery After Cranial Surgery”

    December 2023 Issue of Neurosurgical Focus: “Enhanced Recovery After Cranial Surgery”

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    Newswise — Rolling Meadows, IL (December 1, 2023). The October issue of Neurosurgical Focus (Vol. 55, No. 6 [https://thejns.org/focus/view/journals/neurosurg-focus/55/6/neurosurg-focus.55.issue-6.xml]) presents twelve articles and one editorial on enhanced recovery after cranial surgery. 

    Topic Editors: Walavan Sivakumar, Neil Martin, Sarah T. Menacho, Randy S. D’Amico, and Luca Regli 

    Following on earlier attention to enhanced recovery in spine surgery, the December issue of Neurosurgical Focus focuses on enhance recovery after cranial surgery. The issue’s editors present “a contemporary and global selection of evidence-based studies encompassing the range of cranial surgery” with the “hope that this issue will serve as a valuable reference for the readership in their own protocol development efforts.” 

    Contents of the December issue: 

    • “Introduction. Developing the foundation for enhanced recovery after cranial surgery” by Walavan Sivakumar et al.
    • “Theory-based implementation of an enhanced recovery protocol for cranial surgery” by Aimun A. B. Jamjoom et al.
    • “Editorial. Overcoming implementation barriers in enhanced recovery using theory-based approaches” by Walavan Sivakumar
    • “Development and implementation of an Enhanced Recovery After Cranial Surgery pathway following supratentorial tumor resection at a tertiary care center” by Hammad A. Khan et al.
    • “Enhanced recovery after brain tumor surgery: pilot protocol implementation in a large healthcare system” by Walavan Sivakumar et al.
    • “Enhanced recovery and same-day discharge after brain tumor surgery under general anesthesia: initial experience with Hospital-at-Home–based postoperative follow-up” by Cristina A. Pelaez-Sanchez et al.
    • “Effect of the enhanced recovery protocol in patients with brain tumors undergoing elective craniotomies: a systematic review and meta-analysis” by Suchada Supbumrung et al.
    • “Same-day discharge after craniotomy for brain tumor resection: enhancing patient selection through a prognostic scoring system” by Adam S. Levy et al.
    • “The Enhanced Recovery After Surgery protocol for the perioperative management of pituitary neuroendocrine tumors/pituitary adenomas” by Giulia Cossu et al.
    • “An institutional experience in applying quality improvement measures to pituitary surgery: clinical and resource implications” by Panayiotis E. Pelargos et al.
    • “Early versus delayed mobilization after aneurysmal subarachnoid hemorrhage: a systematic review and meta-analysis of efficacy and safety” by Alberto Morello et al.
    • “Applications of enhanced recovery after surgery protocolsfor unruptured anterior circulation aneurysms in tertiary-level healthcare institutions: a national study” by Fatih Yakar et al.
    • “Effects of a sphenopalatine ganglion block on postcraniotomy pain management: a randomized, double-blind, clinical trial” by Giorgio Mantovani et al.
    • “The Enhanced Recovery After Surgery protocol for the surgical management of craniosynostosis: Lausanne experience” by Amani Belouaer et al.

     Please join us in reading this month’s issue of Neurosurgical Focus.

     ***

     Embargoed Article Access and Author/Expert Interviews: Contact JNSPG Director of Publications Gillian Shasby at [email protected] for advance access and to arrange interviews with the authors and external experts who can provide context for this research.

    ###

     The global leader for cutting-edge neurosurgery research since 1944, the Journal of Neurosurgery (www.thejns.org) is the official journal of the American Association of Neurological Surgeons (AANS) representing over 12,000 members worldwide (www.AANS.org).

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    Journal of Neurosurgery

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  • Bacteria, stay out!

    Bacteria, stay out!

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    Hospital germs and pathogens are not always transmitted directly from person to person. They can also spread via germ-contaminated surfaces and objects.

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    Empa, Swiss Federal Laboratories for Materials Science and Technology

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  • Dr. Carolyn Wong Simpkins named president of zynx, a hearst health company

    Dr. Carolyn Wong Simpkins named president of zynx, a hearst health company

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    NEW YORKNov. 27, 2023 /PRNewswire/ — Hearst announced today that Carolyn Wong Simpkins, M.D., Ph.D., has been named president of its Zynx Health business unit, effective immediately. The announcement was made by Steven R. Swartz, president and chief executive officer of Hearst; Gregory Dorn, M.D., president of Hearst Health; and Charles Tuchinda, M.D., executive vice president of Hearst Health.

    “With all the demands on clinicians today, supporting care delivery with smart and efficient clinical solutions is more important than ever,” said Dorn. “Carolyn brings the right expertise to lead the Zynx business forward in its mission.”

    Simpkins joined Zynx in April 2023 as vice president of product, drawing upon her strong background in solution development, healthcare workflow integration, go-to-market strategy and commercial relationship building. As president, she will oversee all strategic and operational aspects of the business. She succeeds Tuchinda, who has served as president of Zynx since 2019 in addition to his Hearst Health group leadership responsibilities.

    “The steadiness of the Zynx business, combined with its balanced approach to meeting the needs of customers while pursuing new opportunities, makes the timing of this leadership transition as seamless as possible,” said Tuchinda. “I have known Carolyn for many years and have tremendous professional respect for her expertise. I could not be more pleased to have someone of her professional caliber lead Zynx.” 

    Some of the notable roles Simpkins has held include Chief Medical Informatics Officer at the healthcare data and analytics company Health Catalyst, and General Manager and Clinical Director for the British Medical Journal (BMJ), North America division. During her nine-year tenure at BMJ, she led the launch of an order set product, mobile product and outcomes measurement initiative. She has served as a medical director at Greenville Health System, focusing on an interdisciplinary cardiovascular risk reduction program and women’s health.

    “Zynx has been a leader in giving clinicians tools to help with their electronic workflow challenges for nearly three decades,” said Simpkins. “I am excited to work with the incredibly talented and dedicated people here to accelerate our development of new strategic applications of technology, which will help healthcare professionals deliver excellent care more easily.”

    Simpkins received her undergraduate degree in biological sciences from Stanford University and completed her medical degree and doctorate in pharmacology and molecular cancer biology at Duke University. She trained in internal medicine at Johns Hopkins.

    About Zynx
    Founded in 1996, Zynx Health is a pioneer and market leader in evidence- and experience-based clinical solutions that help health systems improve patient outcomes, financial outcomes, clinical engagement and technology performance. Part of the Hearst Health network, Zynx Health helps healthcare organizations exceed industry demands for delivering high-quality, standardized care at lower costs under value-based reimbursement models. To learn more, visit ZynxHealth.com or call 888-996-9435. Follow Zynx Health on LinkedIn @Zynx-Health.

    About Hearst Health
    The mission of Hearst Health is to help guide the most important care moments by delivering vital information into the hands of everyone who touches a person’s health journey. Care guidance from Hearst Health reaches the majority of people in the U.S. The Hearst Health network includes FDB (First Databank), Zynx Health, MCG, Homecare Homebase and MHK. Hearst also holds a minority interest in the precision medicine and oncology analytics company Aster Insights. Follow Hearst Health on LinkedIn @Hearst-Health.

    About Hearst
    Hearst is a leading global, diversified information, services and media company with operations in 40 countries. Its major interests include global financial services leader Fitch Group; Hearst Health, a group of medical information and services businesses; Hearst Transportation, which includes CAMP Systems International, a major provider of software-as-a-service solutions for managing maintenance of jets and helicopters; ownership in cable television networks such as A&E, HISTORY, Lifetime and ESPN; 35 television stations; 24 daily and 52 weekly newspapers; digital services businesses; and nearly 260 magazines around the world. Follow us on Twitter @Hearst. To learn more about Hearst, visit Hearst.com.

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    Hearst Health

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  • Benefits of running in the cold outweigh warm weather running

    Benefits of running in the cold outweigh warm weather running

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    Newswise — Chicago, IL, November 27, 2023 – Some year-round runners dread plunging temperatures, but according to recent research, the benefits of running in the cold weather outweigh warm weather running — and could help you burn bad fat, lose more weight, and make you feel better overall.

    “Cold weather doesn’t have to force runners indoors and I encourage my patients to continue safely running outdoors,” explains Dr. Joshua Blomgren, Midwest Orthopaedics at RUSH, and Aid Station Medical Captain for the Chicago Marathon. “Exercise is medicine, even in the winter.”

    Benefits of chilly weather running 

    • Produces less heat stress. Recent research explains why running in the heat is more difficult. Higher body temps are associated with increased exertion, cardiovascular, and metabolic strain.
    • Boosts metabolism. Our bodies are programmed to preserve fat, slowing down our metabolisms in response to decreased exercise. Running in the cold ‘tricks’ the body, altering metabolism slowdown, and helping to maintain a healthy weight.
    • Elevates your mood. Seasonal Affective Disorder occurs when days are shorter and there’s less sunlight. It’s estimated that 6% of Americans are affected by SAD, and 14% may suffer from a milder form of winter blues. Exercise releases feel-good chemicals like serotonin and endorphins. 
    • Helps burn more calories. Running burns significant calories and helps us maintain and lose weight in winter. It can help us live longer too. Runners have a 25 – 40% reduced risk of premature mortality and live an estimated three years longer than non-runners, according to Progress in Cardiovascular Diseases.
    • Can turn bad fat into good fat. There are different types of body fat: white, brown, and shades in between. White fat is “unwanted” body fat. Brown fat is metabolic tissue that burns calories. Scientific literature suggests that exercising and exposing your body in cold temps can convert white fat to brown fat.

    Run safely

    Dr. Blomgren cautions winter runners to take certain safety measures to fully enjoy winter running. He recommends they dress in appropriate layers and wear wicking fabrics instead of cotton or wool, wear a head covering, drink plenty of water before and after a run, and watch paths for hidden ice. A nose and mouth covering can warm the cool, crisp air making it less harsh to breathe. A good rule of thumb is to avoid running in sub-zero temperatures and be alert to any signs of frostbite

    About Midwest Orthopaedics at RUSH 

    MOR is an international leader in musculoskeletal health consistently ranked among the top ten in the nation by U.S. News & World Report. It is comprised of renowned orthopedic and spine surgeons pioneering the latest advances in surgical and non-surgical care.  Visit www.rushortho.com

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    Midwest Orthopaedics at RUSH

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  • BIM-based Digital Collaboration Platform, Initiating Construction Digitalization

    BIM-based Digital Collaboration Platform, Initiating Construction Digitalization

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    Newswise — A Korean research team has developed a BIM-based digital collaboration platform that allows construction owners and engineers to collaborate with each other on digital design tasks.

    The importance of digital transformation has been increasingly recognized worldwide. Digital transformation refers to the process of leveraging digital technologies, including the Internet of Things (IoT), Artificial Intelligence (AI), and big data, to innovate conventional operating systems. The Korean government is actively working toward achieving digital transformation in the construction industry by 2030, with a primary focus on Building Information Modeling (BIM), fundamentally changing the ways construction tasks are performed and information management systems work.

    From a conventional perspective, collaboration in the construction sector is often seen as merely sharing an integrated workspace. However, this approach comes with drawbacks associated with space rents, difficulties in properly managing collaborative information, and ambiguity in defining roles and responsibilities. These problems can be addressed by establishing an integrated digital work environment for collaboration.

    Against this backdrop, the BIM Cluster Research Team (led by Dr. Hyounseok Moon) of the Korea Institute of Civil Engineering and Building Technology (KICT, President Kim Byung-suk), developed a cloud-based BIM collaboration platform aimed at digitalization of collaboration in order management and design tasks for the first time in Korea. The developed technology thoroughly complies with the Common Data Environment (CDE) system for BIM information management proposed by the international standard ISO 19650. It also integrates BIM order placement and design collaboration processes into an online environment.

    The developed platform streamlines conventional order placement and design collaboration processes, reducing the time required by more than 30%. This platform integrates more than 20 BIM files to concurrently visualize, review, approve, submit, and manage them. Another key advantage is that it allows for real-time collaboration, regardless of when or where you are, through a digitalized construction work environment, eliminating the need for printed documents.

    The research team established an online environment for digital collaboration while developing its own cloud environment to ensure data security across public facilities. For services using overseas public clouds, in particular, it is possible to build a platform that complies with a customized cloud environment while ensuring data security.

    Predefined unit functions for collaboration are made available as open sources through a collaboration tool development framework. These features allow anyone to develop the online collaboration tools they want, adding scalability to this approach. Additionally, the research team has implemented an integrated web-based visualization viewer, specifically designed to visualize various BIM data for review on a single screen, including various meetings; issue management; schedule management; BIM data review, approval, and management; BIM models; documents; drawings; and images. This viewer facilitates online collaboration among relevant stakeholders, enabling them to work together seamlessly.

    The researchers have recently developed an online collaboration web service in the form of software as a service (SaaS). This open-source-based integrated viewer allows various documents, drawings, and models to be visualized and displayed on a single screen. All these functions empower multiple team members to collaboratively review BIM models and efficiently record and address relevant issues in real time. Furthermore, when linked to commercial software packages and platforms (Autodesk, Bentley, etc.), this system also facilitates the seamless exchange and sharing of any BIM data created by engineers, demonstrating exceptional versatility and interoperability.

    The developed platform can be an attractive, cost-effective option for countries, including Korea, aiming to establish their own BIM collaboration platforms that meet international standards.

    Dr. Hyounseok Moon, who led the project, said, “There will certainly be a transition from traditional work processes reliant on written documents, offline interactions, and manual labor to BIM-based digital collaboration processes. The platform developed by KICT will significantly contribute to this digital transformation across the construction industry.”

     ###

     

    The Korea Institute of Civil Engineering and Building Technology, a government-funded research institute with 40 years of extensive research experience, is at the forefront of solving national issues that are directly related to the quality of the people’s life.

    This research was funded by the “Development of BIM-based Digital Collaboration Platform supporting Order and Design Process for the Infrastructure Projects(2022-2024, jointly conducted by Basissoft, Saman, NHNInjeINC, SangSangJinHwa, Korea Express Corporation)”project implemented by the Ministry of Land, Infrastructure and Transport (Korea Agency for Infrastructure Technology Advancement) as a research project for promoting road construction and traffic technology.

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    National Research Council of Science and Technology

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  • Dissecting molecular mechanisms underlying ferroptosis in human umbilical cord mesenchymal stem cells: Role of cystathionine γ-lyase/hydrogen sulfide pathway

    Dissecting molecular mechanisms underlying ferroptosis in human umbilical cord mesenchymal stem cells: Role of cystathionine γ-lyase/hydrogen sulfide pathway

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    BACKGROUND

    Ferroptosis can induce low retention and engraftment after mesenchymal stem cell (MSC) delivery, which is considered a major challenge to the effectiveness of MSC-based pulmonary arterial hypertension (PAH) therapy. Interestingly, the cystathionine γ-lyase (CSE)/hydrogen sulfide (H2S) pathway may contribute to mediating ferroptosis. However, the influence of the CSE/H2S pathway on ferroptosis in human umbilical cord MSCs (HUCMSCs) remains unclear.

    AIM

    To clarify whether the effect of HUCMSCs on vascular remodelling in PAH mice is affected by CSE/H2S pathway-mediated ferroptosis, and to investigate the functions of the CSE/H2S pathway in ferroptosis in HUCMSCs and the underlying mechanisms.

    METHODS

    Erastin and ferrostatin-1 (Fer-1) were used to induce and inhibit ferroptosis, respectively. HUCMSCs were transfected with a vector to overexpress or inhibit expression of CSE. A PAH mouse model was established using 4-wk-old male BALB/c nude mice under hypoxic conditions, and pulmonary pressure and vascular remodelling were measured. The survival of HUCMSCs after delivery was observed by in vivo bioluminescence imaging. Cell viability, iron accumulation, reactive oxygen species production, cystine uptake, and lipid peroxidation in HUCMSCs were tested. Ferroptosis-related proteins and S-sulfhydrated Kelch-like ECH-associating protein 1 (Keap1) were detected by western blot analysis.

    RESULTS

    In vivo, CSE overexpression improved cell survival after erastin-treated HUCMSC delivery in mice with hypoxia-induced PAH. In vitro, CSE overexpression improved H2S production and ferroptosis-related indexes, such as cell viability, iron level, reactive oxygen species production, cystine uptake, lipid peroxidation, mitochondrial membrane density, and ferroptosis-related protein expression, in erastin-treated HUCMSCs. In contrast, in vivo, CSE inhibition decreased cell survival after Fer-1-treated HUCMSC delivery and aggravated vascular remodelling in PAH mice. In vitro, CSE inhibition decreased H2S levels and restored ferroptosis in Fer-1-treated HUCMSCs. Interestingly, upregulation of the CSE/H2S pathway induced Keap1 S-sulfhydration, which contributed to the inhibition of ferroptosis.

    CONCLUSION

    Regulation of the CSE/H2S pathway in HUCMSCs contributes to the inhibition of ferroptosis and improves the suppressive effect on vascular remodelling in mice with hypoxia-induced PAH. Moreover, the protective effect of the CSE/H2S pathway against ferroptosis in HUCMSCs is mediated via S-sulfhydrated Keap1/nuclear factor erythroid 2-related factor 2 signalling. The present study may provide a novel therapeutic avenue for improving the protective capacity of transplanted MSCs in PAH.

    Key Words: Human umbilical cord mesenchymal stem cells, Cystathionine γ-lyase/hydrogen sulfide pathway, Ferroptosis, Pulmonary arterial hypertension, S-sulfhydration

     

    Core Tip: Regulation of the cystathionine γ-lyase (CSE)/hydrogen sulfide (H2S) pathway in human umbilical cord mesenchymal stem cells (HUCMSCs) contributes to the inhibition of ferroptosis and improves the suppressive effect of HUCMSCs on vascular remodelling in hypoxia-induced pulmonary arterial hypertension (PAH) mice. Moreover, the protective effect of the CSE/H2S pathway against ferroptosis in HUCMSCs was mediated via S-sulfhydrated Kelch-like ECH-associating protein 1/nuclear factor erythroid 2-related factor 2 signalling. The present study may provide a novel therapeutic avenue for improving the protective capacity of transplanted MSCs in PAH.

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    World Journal of Stem Cells

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  • How to enhance the ability of mesenchymal stem cells to alleviate intervertebral disc degeneration

    How to enhance the ability of mesenchymal stem cells to alleviate intervertebral disc degeneration

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    Intervertebral disc (ID) degeneration (IDD) is one of the main causes of chronic low back pain, and degenerative lesions are usually caused by an imbalance between catabolic and anabolic processes in the ID. The environment in which the ID is located is harsh, with almost no vascular distribution within the disc, and the nutrient supply relies mainly on the diffusion of oxygen and nutrients from the blood vessels located under the endplate. The stability of its internal environment also plays an important role in preventing IDD. The main feature of disc degeneration is a decrease in the number of cells. Mesenchymal stem cells have been used in the treatment of disc lesions due to their ability to differentiate into nucleus pulposus cells in a nonspecific anti-inflammatory manner. The main purpose is to promote their regeneration. The current aim of stem cell therapy is to replace the aged and metamorphosed cells in the ID and to increase the content of the extracellular matrix. The treatment of disc degeneration with stem cells has achieved good efficacy, and the current challenge is how to improve this efficacy. Here, we reviewed current treatments for disc degeneration and summarize studies on stem cell vesicles, enhancement of therapeutic effects when stem cells are mixed with related substances, and improvements in the efficacy of stem cell therapy by adjuvants under adverse conditions. We reviewed the new approaches and ideas for stem cell treatment of disc degeneration in order to contribute to the development of new therapeutic approaches to meet current challenges.

    Key Words: Mesenchymal stem cells, Intervertebral disc degeneration, Extracellular vesicles, Nucleus pulposus cells, Tissue regeneration

     

    Core Tip: Mesenchymal stem cells have a strong self-renewal capacity and multidirectional differentiation potential, and their secreted vesicles promote regeneration of myeloid cells, increase extracellular matrix production, and alleviate inflammatory status. We reviewed the current relevant targets of stem cell exosomes for the treatment of intervertebral discs and the adjuvant tools used in conjunction with stem cell therapy. This will help to improve the therapeutic efficacy of stem cells and their exosomes, which will also contribute to development of more efficient treatment strategies and approaches for the restoration of disc degeneration.

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    World Journal of Stem Cells

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  • Hypoxia and inflammatory factor preconditioning enhances the immunosuppressive properties of human umbilical cord mesenchymal stem cells

    Hypoxia and inflammatory factor preconditioning enhances the immunosuppressive properties of human umbilical cord mesenchymal stem cells

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    BACKGROUND

    Mesenchymal stem cells (MSCs) have great potential for the treatment of various immune diseases due to their unique immunomodulatory properties. However, MSCs exposed to the harsh inflammatory environment of damaged tissue after intravenous transplantation cannot exert their biological effects, and therefore, their therapeutic efficacy is reduced. In this challenging context, an in vitro preconditioning method is necessary for the development of MSC-based therapies with increased immunomodulatory capacity and transplantation efficacy.

    AIM

    To determine whether hypoxia and inflammatory factor preconditioning increases the immunosuppressive properties of MSCs without affecting their biological characteristics.

    METHODS

    Umbilical cord MSCs (UC-MSCs) were pretreated with hypoxia (2% O2) exposure and inflammatory factors (interleukin-1β, tumor necrosis factor-α, interferon-γ) for 24 h. Flow cytometry, polymerase chain reaction, enzyme-linked immunosorbent assay and other experimental methods were used to evaluate the biological characteristics of pretreated UC-MSCs and to determine whether pretreatment affected the immunosuppressive ability of UC-MSCs in coculture with immune cells.

    RESULTS

    Pretreatment with hypoxia and inflammatory factors caused UC-MSCs to be elongated but did not affect their viability, proliferation or size. In addition, pretreatment significantly decreased the expression of coagulation-related tissue factors but did not affect the expression of other surface markers. Similarly, mitochondrial function and integrity were retained. Although pretreatment promoted UC-MSC apoptosis and senescence, it increased the expression of genes and proteins related to immune regulation. Pretreatment increased peripheral blood mononuclear cell and natural killer (NK) cell proliferation rates and inhibited NK cell-induced toxicity to varying degrees.

    CONCLUSION

    In summary, hypoxia and inflammatory factor preconditioning led to higher immunosuppressive effects of MSCs without damaging their biological characteristics.

    Key Words: Mesenchymal stem cells, Umbilical cord, Preconditioning, Hypoxia, Inflammatory factors, Immune regulation

     

    Core Tip: Mesenchymal stem cells (MSCs) are potential candidates for treating many immune diseases due to their unique immunomodulatory abilities, but low survival rates and weakened function after venous transplantation reduces their treatment potential. Therefore, our study reveals a combination pretreatment method based on in vitro hypoxia exposure and inflammatory factor treatment that simulates the harsh in vivo environment to protect MSCs from injury after intravenous transfusion and promote high immunosuppressive effects of MSCs.

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    World Journal of Stem Cells

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  • Nutrient found in beef and dairy improves immune response to cancer

    Nutrient found in beef and dairy improves immune response to cancer

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    Newswise — Trans-vaccenic acid (TVA), a long-chain fatty acid found in meat and dairy products from grazing animals such as cows and sheep, improves the ability of CD8+ T cells to infiltrate tumors and kill cancer cells, according to a new study by researchers from the University of Chicago.

    The research, published this week in Nature, also shows that patients with higher levels of TVA circulating in the blood responded better to immunotherapy, suggesting that it could have potential as a nutritional supplement to complement clinical treatments for cancer.

    “There are many studies trying to decipher the link between diet and human health, and it’s very difficult to understand the underlying mechanisms because of the wide variety of foods people eat. But if we focus on just the nutrients and metabolites derived from food, we begin to see how they influence physiology and pathology,” said Jing Chen, PhD, the Janet Davison Rowley Distinguished Service Professor of Medicine at UChicago and one of the senior authors of the new study. “By focusing on nutrients that can activate T cell responses, we found one that actually enhances anti-tumor immunity by activating an important immune pathway.”

    Finding nutrients that activate immune cells

    Chen’s lab focuses on understanding how metabolites, nutrients and other molecules circulating in the blood influence the development of cancer and response to cancer treatments. For the new study, two postdoctoral fellows, Hao Fan, PhD and Siyuan Xia, PhD, both co-first authors, started with a database of around 700 known metabolites that come from food and assembled a “blood nutrient” compound library consisting of 235 bioactive molecules derived from nutrients. They screened the compounds in this new library for their ability to influence anti-tumor immunity by activating CD8+ T cells, a group of immune cells critical for killing cancerous or virally infected cells.

    After the scientists evaluated the top six candidates in both human and mouse cells, they saw that TVA performed the best. TVA is the most abundant trans fatty acid present in human milk, but the body cannot produce it on its own. Only about 20% of TVA is broken down into other byproducts, leaving 80% circulating in the blood. “That means there must be something else it does, so we started working on it more,” Chen said.

    The researchers then conducted a series of experiments with cells and mouse models of diverse tumor types. Feeding mice a diet enriched with TVA significantly reduced the tumor growth potential of melanoma and colon cancer cells compared to mice fed a control diet. The TVA diet also enhanced the ability of CD8+ T cells to infiltrate tumors.

    The team also performed a series of molecular and genetic analyses to understand how TVA was affecting the T cells. These included a new technique for monitoring transcription of single-stranded DNA called kethoxal-assisted single-stranded DNA sequencing, or KAS-seq, developed by Chuan He, PhD, the John T. Wilson Distinguished Service Professor of Chemistry at UChicago and another senior author of the study. These additional assays, done by both the Chen and He labs, showed that TVA inactivates a receptor on the cell surface called GPR43 which is usually activated by short-chain fatty acids often produced by gut microbiota. TVA overpowers these short-chain fatty acids and activates a cellular signaling process known as the CREB pathway, which is involved in a variety of functions including cellular growth, survival, and differentiation. The team also showed that mouse models where the GPR43 receptor was exclusively removed from CD8+ T cells also lacked their improved tumor fighting ability.

    Finally, the team also worked with Justin Kline, MD, Professor of Medicine at UChicago, to analyze blood samples taken from patients undergoing CAR-T cell immunotherapy treatment for lymphoma. They saw that patients with higher levels of TVA tended to respond to treatment better than those with lower levels. They also tested cell lines from leukemia by working with Wendy Stock, MD, the Anjuli Seth Nayak Professor of Medicine, and saw that TVA enhanced the ability of an immunotherapy drug to kill leukemia cells.

    Focus on the nutrients, not the food

    The study suggests that TVA could be used as a dietary supplement to help various T cell-based cancer treatments, although Chen points out that it is important to determine the optimized amount of the nutrient itself, not the food source. There is a growing body of evidence about the detrimental health effects of consuming too much red meat and dairy, so this study shouldn’t be taken as an excuse to eat more cheeseburgers and pizza; rather, it indicates that nutrient supplements such as TVA could be used to promote T cell activity. Chen thinks there may be other nutrients that can do the same.

    “There is early data showing that other fatty acids from plants signal through a similar receptor, so we believe there is a high possibility that nutrients from plants can do the same thing by activating the CREB pathway as well,” he said.

    The new research also highlights the promise of this “metabolomic” approach to understanding how the building blocks of diet affect our health. Chen said his team hopes to build a comprehensive library of nutrients circulating in the blood to understand their impact on immunity and other biological processes like aging.

    “After millions of years of evolution, there are only a couple hundred metabolites derived from food that end up circulating in the blood, so that means they could have some importance in our biology,” Chen said. “To see that a single nutrient like TVA has a very targeted mechanism on a targeted immune cell type, with a very profound physiological response at the whole organism level—I find that really amazing and intriguing.”

    The study, “Trans-vaccenic acid reprograms CD8+ T cells and anti-tumor immunity,” was supported by the National Institutes of Health (grants CA140515, CA174786, CA276568, 1375 HG006827, K99ES034084), a UChicago Biological Sciences Division Pilot Project Award, the Ludwig Center at UChicago, the Sigal Fellowship in Immuno-oncology, the Margaret E. Early Medical Research Trust, the AASLD Foundation a Harborview Foundation Gift Fund, and the Howard Hughes Medical Institute.

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    University of Chicago Medical Center

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  • “Piano principle” helped to understand how fungi synthetize compounds valuable for biotechnology

    “Piano principle” helped to understand how fungi synthetize compounds valuable for biotechnology

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    Newswise — Unexpected model was suggested by the scientist of The Federal Research Centre “Fundamentals of Biotechnology” of the Russian Academy of Sciences (Research Center of Biotechnology RAS). The author of the scientific review compared extracting of sounds by musical instrument with the process of synthesis of biologically active compounds by fungi. The model of regulation of secondary metabolism according to the piano principle simply and clearly explains a mechanism of activation of biosynthetic gene clusters (BGCs), that lead to biosynthesis of corresponding secondary metabolites, and also points to ways of increasing productivity of high-yielding strains. Results of the research were published in International Journal of Molecular Sciences.

    Filamentous fungi, the main morphological form of which, the mycelium, resembles an accumulation of thin intertwined strands, are widely used in biotechnology for the production of drugs such as antibiotics, statins, and immunosuppressants. Certain species of these fungi are capable of synthesizing more than a hundred biologically active compounds called secondary metabolites.

    However, in the concrete period of life only some of these substances are synthetized. It depends not only on a stage of development of microorganism but also on the environment. Synthesis of different secondary metabolites is controlled by “switch-on” and “switch-off” of a corresponding biosynthetic genes, assembled in so-called biosynthetic gene clusters (BGC) as a reaction on inner and outer signals.

    As we know the principles of activation and suppression of these genes, scientists make attempts to manage the ability of fungi to synthetize compounds, important for biotechnology and medicine, thus improving producer strains. In the last decades researchers from all over the world have accumulated an enormous volume of information about synthesis of secondary metabolites in fungi. In this connection there is a necessity in summarizing all data and creating a model that is able to describe it simply and clearly.

    Alexander Zhgun, Candidate of Sciences in Biology, head of the group of genetic engineering of fungi of  The Federal Research Centre “Fundamentals of Biotechnology” of the Russian Academy of Sciences on the base of classification of fungal secondary metabolites, their gene clusters and hierarchical system of regulation offered a model, that summarizes a lot of complex processes, that take place in cells of Filamentous fungi during the synthesis of secondary metabolites. As a synthesis of every of these compounds “is started” as an answer for a certain signal, the scientist compared it with piano principle, that makes a definite sound as an answer for pressing of this or that key.

    “Inside each cell of a fungi there is a kind of musical instrument, a specific piano, that enables by pressure on a definite key – activation of gene cluster – to make a certain sound – produce targeted secondary metabolite”, – tells Alexander Zhgun.

    Thus, according to suggested model, when there are no signals from the environment, genes, that answer for the synthesis of secondary metabolites, are inactive and in position of so-called heterochromatin – tightly packed parts of DNA. RNA polymerase, responsible for reading information from genes (for subsequent synthesis of enzymes for biosynthetic pathway), cannot approach to such parts, and it can be compared with the case when piano lid is closed and music stand is lowered. As a musician cannot make sounds from a closed instrument, fungi’s cell won’t be able to synthetize secondary metabolites.

    To start synthesis, genes are taken to the state available for regulatory proteins and proteins of tool of transcription. In this case, the part of DNA containing the BGC corresponding to the signal ceases to be tightly packed and becomes euchromatin. In the similar way when piano is prepared to work, a musician can press keys and that brings to sound production. By this in the presented model each key corresponds to a separate BGC, the activation of which leads to the synthesis of a specific low-molecular weight compound.

    Interestingly that the author of the scientific review with the help of his model also explains the fact that outer signals, on which Filamentous fungi react, can differ in intensity.

    “As a musician can get different sounds as far as length, loudness and character of sound’s attenuation by pressing one and the same piano key differently, so microorganisms can regulate the amount of synthesized by them compound. Naturally, in living cells this dependence is more complex and not always lineal, that is explained by complex and hierarchical system of regulation, coordinating reactions of metabolism”, – explains the author of the article. 

    In order to make this model clearer and more precise the scientist the scientist proposed comparing the regulation of the synthesis of secondary metabolites with a more complex musical instrument – an organ with several rows of keys or keyboards.

    Such analogy seemed more concrete to the scientist, because Filamentous fungi usually have not one chromosome (as one row of keys on the piano), but several (from two to several tens). Accordingly, the activation of genes responsible for the synthesis of secondary metabolites and located on different chromosomes can be compared to pressing keys on different keyboards of an organ.

    “To illustrate how this model works using an organ example, I examined information about the location of BGSc in the model organism Penicillium chrysogenum. This organism is used in biotechnology to produce one of the most important antibiotics for humans, penicillin G, the use of which made a coup in medicine in the early 1940s. P. сhrysogenum has 4 chromosomes, therefore, its “organ” contains 4 keyboards. I mapped the currently known gene clusters to show the mosaic nature of their location. Nature must be a virtuoso pianist to consistently play such distant keys in response to incoming signals”, -tells Alexander Alexandrovich.

    The piano model also enables to explain how you can “make” fungi to produce a needed compound in enormous amount. Normally microorganisms have special “molecular limiters” that don’t enable them to produce abundant amount of a product. The same way a good piano has restrictions as far as strength and length of a sound, that is made by pressing on this or that key, is concerned. However, if you damage an instrument, you can make the only one needed key left and it will make a sound constantly and very loudly.

    “In the case of Filamentous fungi such distortions can be made with the help of change in system of regulation of secondary metabolism and biosynthetic clusters, responsible for the production of alternative (extrinsic) metabolites. In biotechnology such distortions were found in high-yielding strains, obtained during the last 70-80 years as a result of random mutagenesis and selection. They enable to get antibiotics and other secondary metabolites, used in medicine and industry, in large quantities”, – tells Alexander Zhgun.

    “The suggested by the scientist model offers a fresh look on principles of regulation of secondary metabolite among Filamentous fungi. It enables to understand better, how a human can artificially govern the activity of genes and productivity of microorganisms. Thanks to that fact therein expressed principles are of practical interest to biotechnology.

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    Scientific Project Lomonosov

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  • Separating out signals recorded at the seafloor

    Separating out signals recorded at the seafloor

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    Newswise — Blame it on plate tectonics. The deep ocean is never preserved, but instead is lost to time as the seafloor is subducted. Geologists are mostly left with shallower rocks from closer to the shoreline to inform their studies of Earth history.

    “We have only a good record of the deep ocean for the last ~180 million years,” said David Fike, the Glassberg/Greensfelder Distinguished University Professor of Earth, Environmental, and Planetary Sciences in Arts & Sciences at Washington University in St. Louis. “Everything else is just shallow-water deposits. So it’s really important to understand the bias that might be present when we look at shallow-water deposits.”

    One of the ways that scientists like Fike use deposits from the seafloor is to reconstruct timelines of past ecological and environmental change. Researchers are keenly interested in how and when oxygen began to build up in the oceans and atmosphere, making Earth more hospitable to life as we know it.

    For decades they have relied on pyrite, the iron-sulfide mineral known as “fool’s gold,” as a sensitive recorder of conditions in the marine environment where it is formed. By measuring the bulk isotopic composition of sulfur in pyrite samples — the relative abundance of sulfur atoms with slightly different mass — scientists have tried to better understand ancient microbial activity and interpret global chemical cycles.

    But the outlook for pyrite is not so shiny anymore. In a pair of companion papers published Nov. 24 in the journal Science, Fike and his collaborators show that variations in pyrite sulfur isotopes may not represent the global processes that have made them such popular targets of analysis.

    Instead, Fike’s research demonstrates that pyritte responds predominantly to local processes that should not be taken as representative of the whole ocean. A new microanalysis approach developed at Washington University helped the researchers to separate out signals in pyrite that reveal the relative influence of microbes and that of local climate.

    For the first study, Fike worked with Roger Bryant, who completed his graduate studies at Washington University, to examine the grain-level distribution of pyrite sulfur isotope compositions in a sample of recent glacial-interglacial sediments. They developed and used a cutting-edge analytical technique with the secondary-ion mass spectrometer (SIMS) in Fike’s laboratory.

    “We analyzed every individual pyrite crystal that we could find and got isotopic values for each one,” Fike said. By considering the distribution of results from individual grains, rather than the average (or bulk) results, the scientists showed that it is possible to tease apart the role of the physical properties of the depositional environment, like the sedimentation rate and the porosity of the sediments, from the microbial activity in the seabed.

    “We found that even when bulk pyrite sulfur isotopes changed a lot between glacials and interglacials, the minima of our single grain pyrite distributions remained broadly constant,” Bryant said. “This told us that microbial activity did not drive the changes in bulk pyrite sulfur isotopes and refuted one of our major hypotheses.”

    “Using this framework, we’re able to go in and look at the separate roles of microbes and sediments in driving the signals,” Fike said. “That to me represents a huge step forward in being able to interpret what is recorded in these signals.”

    In the second paper, led by Itay Halevy of the Weizmann Institute of Science and co-authored by Fike and Bryant, the scientists developed and explored a computer model of marine sediments, complete with mathematical representations of the microorganisms that degrade organic matter and turn sulfate into sulfide and the processes that trap that sulfide in pyrite.

    “We found that variations in the isotopic composition of pyrite are mostly a function of the depositional environment in which the pyrite formed,” Halevy said. The new model shows that a range of parameters of the sedimentary environment affect the balance between sulfate and sulfide consumption and resupply, and that this balance is the major determinant of the sulfur isotope composition of pyrite.

    “The rate of sediment deposition on the seafloor, the proportion of organic matter in that sediment, the proportion of reactive iron particles, the density of packing of the sediment as it settles to the seafloor — all of these properties affect the isotopic composition of pyrite in ways that we can now understand,” he said.

    Importantly, none of these properties of the sedimentary environment are strongly linked to the global sulfur cycle, to the oxidation state of the global ocean, or essentially any other property that researchers have traditionally used pyrite sulfur isotopes to reconstruct, the scientists said.

    “The really exciting aspect of this new work is that it gives us a predictive model for how we think other pyrite records should behave,” Fike said. “For example, if we can interpret other records — and better understand that they are driven by things like local changes in sedimentation, rather than global parameters about ocean oxygen state or microbial activity — then we can try to use this data to refine our understanding of sea level change in the past.”

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    Washington University in St. Louis

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  • Telescope Array detects second highest-energy cosmic ray ever

    Telescope Array detects second highest-energy cosmic ray ever

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    Newswise — In 1991, the University of Utah Fly’s Eye experiment detected the highest-energy cosmic ray ever observed. Later dubbed the Oh-My-God particle, the cosmic ray’s energy shocked astrophysicists. Nothing in our galaxy had the power to produce it, and the particle had more energy than was theoretically possible for cosmic rays traveling to Earth from other galaxies. Simply put, the particle should not exist.

    The Telescope Array has since observed more than 30 ultra-high-energy cosmic rays, though none approaching the Oh-My-God-level energy. No observations have yet revealed their origin or how they are able to travel to the Earth.

    On May 27, 2021, the Telescope Array experiment detected the second-highest extreme-energy cosmic ray. At 2.4 x 1020eV, the energy of this single subatomic particle is equivalent to dropping a brick on your toe from waist height. Led by the University of Utah (the U) and the University of Tokyo, the Telescope Array consists of 507 surface detector stations arranged in a square grid that covers 700 km2 (~270 miles2) outside of Delta, Utah in the state’s West Desert. The event triggered 23 detectors at the north-west region of the Telescope Array, splashing across 48 km2 (18.5 mi2). Its arrival direction appeared to be from the Local Void, an empty area of space bordering the Milky Way galaxy.

    “The particles are so high energy, they shouldn’t be affected by galactic and extra-galactic magnetic fields. You should be able to point to where they come from in the sky,” said John Matthews, Telescope Array co-spokesperson at the U and co-author of the study. “But in the case of the Oh-My-God particle and this new particle, you trace its trajectory to its source and there’s nothing high energy enough to have produced it. That’s the mystery of this—what the heck is going on?” 

    In their observation that published on Nov. 24, 2023, in the journal Science, an international collaboration of researchers describe the ultra-high-energy cosmic ray, evaluate its characteristics, and conclude that the rare phenomena might follow particle physics unknown to science. The researchers named it the Amaterasu particle after the sun goddess in Japanese mythology. The Oh-My-God and the Amaterasu particles were detected using different observation techniques, confirming that while rare, these ultra-high energy events are real.

    “These events seem like they’re coming from completely different places in the sky. It’s not like there’s one mysterious source,” said John Belz, professor at the U and co-author of the study. “It could be defects in the structure of spacetime, colliding cosmic strings. I mean, I’m just spit-balling crazy ideas that people are coming up with because there’s not a conventional explanation.”

    Natural particle accelerators

    Cosmic rays are echoes of violent celestial events that have stripped matter to its subatomic structures and hurled it through universe at nearly the speed of light. Essentially cosmic rays are charged particles with a wide range of energies consisting of positive protons, negative electrons, or entire atomic nuclei that travel through space and rain down onto Earth nearly constantly.

    Cosmic rays hit Earth’s upper atmosphere and blasts apart the nucleus of oxygen and nitrogen gas, generating many secondary particles. These travel a short distance in the atmosphere and repeat the process, building a shower of billions of secondary particles that scatter to the surface. The footprint of this secondary shower is massive and requires that detectors cover an area as large as the Telescope Array. The surface detectors utilize a suite of instrumentation that gives researchers information about each cosmic ray; the timing of the signal shows its trajectory and the amount of charged particles hitting each detector reveals the primary particle’s energy.

    Because particles have a charge, their flight path resembles a ball in a pinball machine as they zigzag against the electromagnetic fields through the cosmic microwave background. It’s nearly impossible to trace the trajectory of most cosmic rays, which lie on the low- to middle-end of the energy spectrum. Even high-energy cosmic rays are distorted by the microwave background. Particles with Oh-My-God and Amaterasu energy blast through intergalactic space relatively unbent. Only the most powerful of celestial events can produce them.   

    “Things that people think of as energetic, like supernova, are nowhere near energetic enough for this. You need huge amounts of energy, really high magnetic fields to confine the particle while it gets accelerated,” said Matthews.

    Ultra-high-energy cosmic rays must exceed 5 x 1019 eV. This means that a single subatomic particle carries the same kinetic energy as a major league pitcher’s fast ball and has tens of millions of times more energy than any human-made particle accelerator can achieve. Astrophysicists calculated this theoretical limit, known as the Greisen–Zatsepin–Kuzmin (GZK) cutoff, as the maximum energy a proton can hold traveling over long distances before the effect of interactions of the microwave background radiation take their energy. Known source candidates, such as active galactic nuclei or black holes with accretion disks emitting particle jets, tend to be more than 160 million light years away from Earth. The new particle’s 2.4 x 1020 eV and the Oh-My-God particle’s 3.2 x 1020 eV easily surpass the cutoff.

    Researchers also analyze cosmic ray composition for clues of its origins. A heavier particle, like iron nuclei, are heavier, have more charge and are more susceptible to bending in a magnetic field than a lighter particle made of protons from a hydrogen atom. The new particle is likely a proton. Particle physics dictates that a cosmic ray with energy beyond the GZK cutoff is too powerful for the microwave background to distort its path, but back tracing its trajectory points towards empty space.

    “Maybe magnetic fields are stronger than we thought, but that disagrees with other observations that show they’re not strong enough to produce significant curvature at these ten-to-the-twentieth electron volt energies,” said Belz. “It’s a real mystery.” 

    Expanding the footprint 

    The Telescope Array is uniquely positioned to detect ultra-high-energy cosmic rays. It sits at about 1,200 m (4,000 ft), the elevation sweet-spot that allows secondary particles maximum development, but before they start to decay. Its location in Utah’s West Desert provides ideal atmospheric conditions in two ways: the dry air is crucial because humidity will absorb the ultraviolet light necessary for detection; and the region’s dark skies are essential, as light pollution will create too much noise and obscure the cosmic rays.

    Astrophysicists are still baffled by the mysterious phenomena. The Telescope Array is in the middle of an expansion that that they hope will help crack the case. Once completed, 500 new scintillator detectors will expand the Telescope Array will sample cosmic ray-induced particle showers across 2,900 km2  (1,100 mi2 ), an area nearly the size of Rhode Island. The larger footprint will hopefully capture more events that will shed light on what’s going on.

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    University of Utah

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  • When baby stars fledge

    When baby stars fledge

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    Newswise — A team of astrophysicists led by Núria Miret-Roig from the University of Vienna found that two methods for determining the age of stars measure different things: Isochronous measurement thereby determines the birth date of stars, while dynamical tracking provides information on when stars “leave their nest”, about 5.5 million years later in the star clusters studied. The study, which makes it possible to determine the earliest stages of a star’s life, is currently published in the scientific journal “Nature Astronomy”.

    The age of stars is a fundamental parameter in astrophysics, but it is still relatively difficult to measure. The best approximations to date have been for so-called star clusters, i.e. groups of stars of the same age with a common origin. The age of six relatively close and young star clusters has now been analysed as part of a study at the Institute of Astrophysics at the University of Vienna. It was found that two of the most reliable methods for determining the age of stars – isochronous measurement and dynamic tracing – were systematically and consistently different: The stars were each around 5.5 million years younger according to the dynamic tracing method than with the isochronous measurement.

    When the clock starts ticking

    “This indicates that the two measurement methods measure different things,” explains astrophysicist Núria Miret-Roig from the University of Vienna, first author of the study. According to the new study, the isochronous “clock” starts ticking from the time of star formation, but the “clock” of dynamic backtracking only starts ticking when a star cluster begins to expand after leaving its parent cloud. “This finding has significant implications for our understanding of star formation and stellar evolution, including planet formation and the formation of galaxies, and opens up a new perspective on the chronology of star formation. For example, the length of the so-called “embedded phase”, during which baby stars remain within the parental gas cloud, can be estimated,” explains João Alves, co-author and professor at the University of Vienna.

    Measuring how long baby stars stay in the nest

    “This age difference between the two methods represents a new and much-needed tool to quantify the earliest stages in a star’s life,” says Alves. “Specifically, we can use it to measure how long the baby stars take before they leave their nest.” The measurements were made possible by the high-resolution data from the Gaia special mission in conjunction with ground-based radial velocities (e.g. from the APOGEE catalogue). “This combination allows us to trace the positions of stars back to their birthplace with the accuracy of 3D velocities,” explains Miret-Roig. New and upcoming spectroscopic surveys such as WEAVE, 4MOST and SDSS-V will make this investigation possible for the entire solar neighbourhood.

    Puzzling difference

    “Astronomers have been using isochronous ages for as long as we have known how stars work, but these ages depend on the particular stellar model we use,” says Miret-Roig. “The high-quality data from the Gaia satellite has now allowed us to measure ages dynamically, independently of the stellar models, and we were excited to synchronise the two clocks.” During the calculations, however, a consistent and puzzling difference between the two age determination methods emerged. “And eventually we reached a point where we could no longer blame the discrepancy on observational errors – that’s when we realised that the two clocks were most likely measuring two different things,” says the astrophysicist.

    For the study, the research team analysed six nearby and young star clusters (up to 490 light years away and 50 million years old). The time scale of the embedded phase was found to be around 5.5 million years (plus/minus 1.1 million years) and could depend on the mass of the star cluster and the amount of stellar feedback.

    Applying this new technique to other young and nearby star clusters promises new insights into the star formation process and the drifting apart of stars, Miret-Roig hopes: “Our work paves the way for future research into star formation and provides a clearer picture of how stars and star clusters evolve. This is an important step in our endeavour to understand the formation of the Milky Way and other galaxies.”

    This publication has been co-funded by the European Union (ERC, ISM-FLOW, 101055318, PI: J. Alves). However, the views and opinions expressed are solely those of the author(s) and do not necessarily reflect those of the European Union or the European Research Council. Neither the European Union nor the granting authority can be held responsible for them.

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    University of Vienna

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  • Environment-friendly electrochemical refrigerant compressor contributing to the achievement of carbon neutrality realizes sustainable building of the future with new energy technology

    Environment-friendly electrochemical refrigerant compressor contributing to the achievement of carbon neutrality realizes sustainable building of the future with new energy technology

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    Newswise — In line with the Korean government’s recent efforts to achieve the goal of “going carbon neutral by 2050,” the energy transition from fossil fuels to new and renewable sources of energy has been gaining speed. In this context, the joint research team led by Principal Researcher Young Kim of the Korea Institute of Machinery and Materials (KIMM), an institute under the jurisdiction of the Ministry of Science and ICT, and professors Min-sung Kim and Dong-kyu Kim of Chung-Ang University has successfully developed an environment-friendly refrigerant compressor using an electrochemical method instead of a mechanical method.

    In contrast to conventional refrigerants containing HFCs (hydrofluorocarbons) that destroy the ozone layer and cause global warning, environment-friendly refrigerants (ammonia, R1234yf, etc.) have very small environmental impacts. In accordance with the Kigali Amendment to the Montreal Protocol, advanced nations in Europe as well as the United States and Japan are in the process of transitioning to eco-friendly refrigerants until the complete phase-out of the use of HFCs in 2024. Using environment-friendly refrigerants can help to prevent environmental pollution and contribute to sustainable development.

    Meanwhile, mechanical compressors have several limitations such as problems with durability of parts due to rapid rotation, contamination of refrigerants caused by lubricants, and loud noise. As electrochemical compressors have no moving parts and do not require the use of lubricants, they can help to overcome the shortcomings of conventional mechanical compressors. Additionally, a constant flow rate can be provided at various pressure ratios with electrochemical compressors, and the high efficiency thereof can help to significantly increase the COP (coefficient of performance) of the heat pump.

    To maximize the energy-saving effect of the rooftop greenhouse, the research team developed a “optimized smart farm operating solution” capable of controlling every aspect of the system such as air conditioning, LED, and hydroponics system in accordance with external weather conditions, and plans to demonstrate this solution through the demonstrated rooftop greenhouse.

    The joint research team has secured the core technologies necessary for producing the environment-friendly electrochemical refrigerant compressor and for designing the system thereof, and has successfully implemented the test run. With the newly developed environment-friendly electrochemical refrigerant compressor, the desired flow rate and pressure can be obtained by stacking.

    Unlike conventional mechanical compressing, an electrochemical compressor compresses refrigerants through the movement of ions by charging the ion exchange membrane with DC (direct current) voltage, while using hydrogen as the carrier gas. Additionally, it also allows for isothermal compression by applying a multi-layer freezing technology where cells are accumulated in a stack configuration. To date, the refrigerants that have been successfully compressed are ammonia, a natural refrigerant, and R1234yf, an eco-friendly refrigerant. The joint research team designed cells capable of operating solidly even under repeated high-pressure conditions and also demonstrated a leak-free design to prevent the leakage of refrigerants at high pressure. Moreover, by designing a channel capable of producing high performance even at high voltage, the joint research team has succeeded in maximizing the compression efficiency of the electrochemical compressor.

    The electrochemical compressor is capable of offering the desired compression ratio regardless of the size thereof, and can provide a stable flow rate in accordance with the compression ratio, and has excellent efficiency. Therefore, it can be used not only for constructing high-efficiency plants and heat pumps but also for building small-scale systems. In particular, as an electrochemical ammonia compressor can be used for compressing ammonia even when the ammonia acts as a hydrogen carrier, it can also be used for constructing hydrogen infrastructure.

    Dr. Young Kim of the KIMM’s Department of Thermal Energy Solutions was quoted as saying, “The eco-friendly electrochemical refrigerant compressor is highly efficient and requires a small footprint, which makes it economically attractive.” Dr. Kim added, “We are planning to develop a heat pump system using this technology to contribute to the achievement of the goal of going carbon neutral by 2050.”

    Meanwhile, this research was conducted with the support of the project for the “development of a chemical absorption-type heat pump using an electrochemical compressor” led by the Korea Institute of Energy Technology Evaluation and Planning of the Ministry of Trade, Industry and Energy.

     

    ###

    The Korea Institute of Machinery and Materials (KIMM) is a non-profit government-funded research institute under the Ministry of Science and ICT. Since its foundation in 1976, KIMM is contributing to economic growth of the nation by performing R&D on key technologies in machinery and materials, conducting reliability test evaluation, and commercializing the developed products and technologies.

    This research was conducted with the support of the project for the “development of a chemical absorption-type heat pump using an electrochemical compressor” led by the Korea Institute of Energy Technology Evaluation and Planning of the Ministry of Trade, Industry and Energy.

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    National Research Council of Science and Technology

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  • Research on adoptees’ parenthood experiences.

    Research on adoptees’ parenthood experiences.

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    Newswise — Parenting is always challenging, but for adopted people becoming a mum or dad can be extra demanding, as well as extra special – according to research from the University of East Anglia.

    A new study is the first in to investigate the lived experiences of adopted people in the UK as they become parents.

    It finds that they are affected by issues that link back to their adoption and to difficult experiences in their past – related to loss, rejection, abuse and neglect.

    Because of these difficult early experiences, many adoptees experience significant challenges, particularly as teenagers and young adults.

    These included mental health problems, emotional and behavioural difficulties, education and employment, relationship problems, and substance misuse.

    But while many people were parenting under the pressure of also trying to manage these challenges, becoming a mum or dad was often a key turning point and a motivation to turn their lives around.

    Lead researcher Prof Beth Neil, from UEA’s School of Social Work, said: “Adoption is a life-changing event, and it is really important to understand how people are affected throughout their whole life – not just in childhood.

    “Becoming a parent is a key life experience, but the research on adopted people becoming parents is very limited and has not tended to include people adopted through the child protection system, or the experiences of adopted men as fathers.

    “We wanted to better understand the issues faced by people who are adopted, as they become parents themselves.”

    The team worked with 20 adopted men and 20 adopted women – who were interviewed about their experiences.

    Most of the participants were in their 20s and 30s and all had been adopted under the age of 12 – with two thirds having been adopted through the child protection system.

    Almost a quarter of the parents in the study were not living with their children – including some who had themselves lost their children to care or adoption.

    Prof Neil said: “We guided them to break down their life into key chapters and talk through the high points, the low points and the turning points that were most significant to them. We wanted to understand adopted people’s life stories in their own words.

    “What we found is that when adopted people become parents, lots of issues can come up that link back to their adoption and to difficult experiences in their past such as issues of loss, rejection, abuse and neglect.

    “For some, having their first child meant meeting the first person in their life that they had a biological connection to. Others were afraid they would not bond with their child or that their child would reject them.

    “Because many of the participants had a history of abuse and neglect, thinking about their birth parents often raised anxieties that they would parent their own child poorly.

    “The flipside of this was the determination to try and break cycles of abuse, and we saw that for many, becoming a parent was a positive turning point.

    “Because the often-difficult backgrounds of the parents, many reported problems in their teenage years and as young adults with mental health, education and employment, substance misuse, relationships with parents and partners.

    “Often these problems were ongoing when they became a mum or dad, threatening their parenting and playing into their biggest fear – that they might repeat negative cycles of neglect or abuse with their own children.

    “Sadly, many adoptees feared that asking for help and expressing worries would lead to scrutiny of their parenting.

    “Most people were managing well in their role as mum and dad, but a minority were still struggling with difficult problems, and a small number of parents had experienced their worst fear – the removal of their own children. For parents who were judged unable to look after their own children, not ‘breaking the cycle’ was devastating.”

    The team say that support for adopted adults with mental health problems is a particularly pressing need, as parental mental health problems are a strong mediating factor in the link between childhood adversity and compromised parenting.

    Where adoptees are still struggling with these issues when they become a parent, then support is needed at that life stage.

    But ideally, the adoption system needs to recognise the need to provide support to adoptive families much earlier on, to prevent the difficulties that often become particularly challenging during the teenage years.

    The study found that identity issues raised by both men and women were very similar. This is important because almost all previous research had focused just on mothers. But fathers also felt deeply about the impact of adoption on their life, and issues linked to adoption came up for them when they became dads.

    “This research highlights the need for more support for adopted people both in childhood and when they become parents themselves,” added Prof Neil.

    This study was funded by the Economic and Social Research Council (ESRC).

    ‘How do adopted adults see the significance of adoption and being a parent in their life stories? A narrative analysis of 40 life story interviews with male and female adoptees’ is published in the journal Children and Youth Services Review.

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    University of East Anglia

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  • Taste guides our eating pace from the first bite

    Taste guides our eating pace from the first bite

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    Newswise — When you eagerly dig into a long-awaited dinner, signals from your stomach to your brain keep you from eating so much you’ll regret it – or so it’s been thought. That theory had never really been directly tested until a team of scientists at UC San Francisco recently took up the question.  
     
    The picture, it turns out, is a little different. 
     
    The team, led by Zachary Knight, PhD, a UCSF professor of physiology in the Kavli Institute for Fundamental Neuroscience, discovered that it’s our sense of taste that pulls us back from the brink of food inhalation on a hungry day. Stimulated by the perception of flavor, a set of neurons – a type of brain cell – leaps to attention almost immediately to curtail our food intake.  
     
    “We’ve uncovered a logic the brainstem uses to control how fast and how much we eat, using two different kinds of signals, one coming from the mouth, and one coming much later from the gut,” said Knight, who is also an investigator with the Howard Hughes Medical Institute and a member of the UCSF Weill Institute for Neurosciences. “This discovery gives us a new framework to understand how we control our eating.” 
     
    The study, which appears Nov. 22, 2023 in Nature, could help reveal exactly how weight-loss drugs like Ozempic work, and how to make them more effective. 
     
    New views into the brainstem 
     
    Pavlov proposed over a century ago that the sight, smell and taste of food are important for regulating digestion. More recent studies in the 1970s and 1980s have also suggested that the taste of food may restrain how fast we eat, but it’s been impossible to study the relevant brain activity during eating because the brain cells that control this process are located deep in the brainstem, making them hard to access or record in an animal that’s awake. 
     
    Over the years, the idea had been forgotten, Knight said.  
     
    New techniques developed by lead author Truong Ly, PhD, a graduate student in Knight’s lab, allowed for the first-ever imaging and recording of a brainstem structure critical for feeling full, called the nucleus of the solitary tract, or NTS, in an awake, active mouse. He used those techniques to look at two types of neurons that have been known for decades to have a role in food intake. 
     
    The team found that when they put food directly into the mouse’s stomach, brain cells called PRLH (for prolactin-releasing hormone) were activated by nutrient signals sent from the GI tract, in line with traditional thinking and the results of prior studies. 
     
    However, when they allowed the mice to eat the food as they normally would, those signals from the gut didn’t show up. Instead, the PRLH brain cells switched to a new activity pattern that was entirely controlled by signals from the mouth.  
     
    “It was a total surprise that these cells were activated by the perception of taste,” said Ly. “It shows that there are other components of the appetite-control system that we should be thinking about.” 
     
    While it may seem counterintuitive for our brains to slow eating when we’re hungry, the brain is actually using the taste of food in two different ways at the same time. One part is saying, “This tastes good, eat more,” and another part is watching how fast you’re eating and saying, “Slow down or you’re going to be sick.” 
     
    “The balance between those is how fast you eat,” said Knight. 
     
    The activity of the PRLH neurons seems to affect how palatable the mice found the food, Ly said. That meshes with our human experience that food is less appetizing once you’ve had your fill of it.  
     
    Brain cells that inspire weight-loss drugs 
     
    The PRLH-neuron-induced slowdown also makes sense in terms of timing. The taste of food triggers these neurons to switch their activity in seconds, from keeping tabs on the gut to responding to signals from the mouth.  
     
    Meanwhile, it takes many minutes for a different group of brain cells, called CGC neurons, to begin responding to signals from the stomach and intestines. These cells act over much slower time scales – tens of minutes – and can hold back hunger for a much longer period of time. 
     
    “Together, these two sets of neurons create a feed-forward, feed-back loop,” said Knight. “One is using taste to slow things down and anticipate what’s coming. The other is using a gut signal to say, ‘This is how much I really ate. Ok, I’m full now!’”  
     
    The CGC brain cells’ response to stretch signals from the gut is to release GLP-1, the hormone mimicked by Ozempic, Wegovy and other new weight-loss drugs.  
     
    These drugs act on the same region of the brainstem that Ly’s technology has finally allowed researchers to study. “Now we have a way of teasing apart what’s happening in the brain that makes these drugs work,” he said.  
     
    A deeper understanding of how signals from different parts of the body control appetite would open doors to designing weight-loss regimens designed for the individual ways people eat by optimizing how the signals from the two sets of brain cells interact, the researchers said. 
     
    The team plans to investigate those interactions, seeking to better understand how taste signals from food interact with feedback from the gut to suppress our appetite during a meal. 

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    University of California, San Francisco (UCSF)

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  • Cancer cells exploit cell competition to survive and spread

    Cancer cells exploit cell competition to survive and spread

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    Newswise — Living cells compete with each other and try to adapt to the local environment. Cells that are unable to do so are eliminated eventually. This cellular competition is crucial as the surrounding normal epithelial cells use it to identify and eliminate mutant cancer cells.  Studies have reported that when activating mutants of “Ras” proteins are expressed in mammalian epithelial cells, they are pushed toward the lumen, excreted along with other bodily waste, and eliminated by competition. Epithelial cells containing Ras mutants have been reported to be removed in this manner in several organs, including the small intestine, stomach, pancreas, and lungs. This suggests that cell competition is an innate defense system orchestrated by epithelial cells to prevent the accumulation of incidentally produced cancerous cells and thereby suppress cancer formation.

    In general, mutations in multiple genes accumulate in a stepwise manner when normal cells become cancerous. However, it is not known how cell competition is affected by this process. For instance, human colorectal cancer develops when the adenomatous polyposis coli (APC) gene becomes dysfunctional and activates “Wnt signaling,” followed by the activation of Ras signaling.

    In a recent study, a team of researchers from Japan, led by Associate Professor Shunsuke Kon of the Department of Cancer Biology, Institute of Biomedical Research and Innovation, Tokyo University of Science (TUS), examined the effects of the accumulation of stepwise gene mutations on cell competition and investigated the role of cell competition in the actual cancer formation process. Their study was published in Nature Communications on November 3, 2023 with Mr. Kazuki Nakai, a third year PhD student at the Graduate School of Life Sciences in TUS, as the lead author.

    The study results showed that when Wnt signals were activated in epithelial cells, cell competition function was altered. Activated Ras mutant epithelial cells, which would normally be eliminated into the lumen, instead infiltrated diffusely into the tissue to form highly invasive cancerous tumors.

    As senior author Dr. Kon explains, “We discovered that in epithelial tissues where Wnt and Ras signals, which commonly occur in human colorectal cancer, are activated in stages, the function of cell competition is altered. It was revealed that the production of cancer cells that diffusely infiltrate into the interstitium is promoted.”

    Further, the research team identified an increased expression of matrix metalloproteinase 21 (MMP21) as one of the mechanisms underlying the production of diffusely invasive cancer cells in early colorectal cancer due to abnormal cell competition. This, in turn, was shown to be directly caused by activation of nuclear factor kappa B (NF-κB) signals via the innate immune system. Blocking NF-κB signaling restored the luminal elimination of Ras mutant epithelial cells. These findings raise some intriguing questions, such as “How do transformed cells sense the cellular content that leads to the NF-B-MMP21 pathway?” and “How do surrounding cells recognize transformed cells and prepare them for cellular extrusion?” These questions will almost certainly need to be addressed in the future.

    The results of this research show that cancer cells with accumulated, sequential genetic mutations, alter the function of cell competition and use it to enhance their own invasive ability. Instead of being eliminated to the lumen, they infiltrate into the tissue, producing high-grade cancer cells. While the research team did note that the cancer histopathology of the mice used in this study resembled diffuse-type cancer in humans, future research is needed to determine whether the NF-κB-MMP21 pathway is relevant to other cancers. For instance, investigating scirrhous gastric cancer, a typical diffuse-type cancer, would be particularly interesting. 

    Overall, these findings demonstrate that Wnt activation disrupts cell competition, and confers invasive properties on transformed cells to escape primary epithelial sites. Understanding how the molecular landscape is re-modeled to change the fate of cancer cells with high mutational burdens could be used for therapeutic purposes. This could be of interest to researchers focused on Wnt signaling or cancer research, such as those at the Koch Institute for Integrative Cancer Research at MIT and Cancer Research UK, who are working towards common goals.

    Dr. Kon concludes by saying, “This study further brings forth the prospect that cell competition constrains the order of appearance of mutations during tumor development, highlighting a link between cell competition and carcinogenesis. We hope that this will pave the way for the development of new cancer treatments from the standpoint of cell competition and infiltration for the benefit of our society.

     

    ***

    Reference                     

    DOI: https://doi.org/10.1038/s41467-023-42774-6

     

    About The Tokyo University of Science

    Tokyo University of Science (TUS) is a well-known and respected university, and the largest science-specialized private research university in Japan, with four campuses in central Tokyo and its suburbs and in Hokkaido. Established in 1881, the university has continually contributed to Japan’s development in science through inculcating the love for science in researchers, technicians, and educators.

    With a mission of “Creating science and technology for the harmonious development of nature, human beings, and society,” TUS has undertaken a wide range of research from basic to applied science. TUS has embraced a multidisciplinary approach to research and undertaken intensive study in some of today’s most vital fields. TUS is a meritocracy where the best in science is recognized and nurtured. It is the only private university in Japan that has produced a Nobel Prize winner and the only private university in Asia to produce Nobel Prize winners within the natural sciences field.

    Website: https://www.tus.ac.jp/en/mediarelations/

     

    About Dr. Shunsuke Kon from Tokyo University of Science

    Dr. Shunsuke Kon is a Junior Associate Professor in the Cancer Biology Department of the Research Institute for Biomedical Sciences. He obtained his Ph.D. from the Tohoku University Graduate School of Life Sciences in 2008. He was previously associated with the Institute of Genetic Medicine at Hokkaido University. His primary research interest has been in the field of tumor biology. He has more than 20 publications to his credit. In addition, he has received the Best Articles of the Year award.

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    Tokyo University of Science

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  • Obesity may not be the only factor to link ultra-processed foods to higher risk of mouth, throat and oesophagus cancers

    Obesity may not be the only factor to link ultra-processed foods to higher risk of mouth, throat and oesophagus cancers

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    Newswise — Eating more ultra-processed foods (UPFs) may be associated with a higher risk of developing cancers of upper aerodigestive tract (including the mouth, throat and oesophagus), according to a new study led by researchers from the University of Bristol and the International Agency for Research on Cancer (IARC).  The authors of this international study, which analysed diet and lifestyle data on 450,111 adults who were followed for approximately 14 years, say obesity associated with the consumption of UPFs may not be the only factor to blame. The study is published today [22 November] in the European Journal of Nutrition.

    Several studies have identified an association between UPF consumption and cancer, including a recent study which looked at the association between UPFs and 34 different cancers in the largest cohort study in Europe, the European Prospective Investigation into Cancer and Nutrition (EPIC) cohort.

    As more evidence emerges about the associations between eating UPFs and adverse health outcomes, researchers from the Bristol Medical School and IARC wanted to explore this further. Since many UPFs have an unhealthy nutritional profile, the team sought to establish whether the association between UPF consumption and head and neck cancer and oesophageal adenocarcinoma (a cancer of the oesophagus) in EPIC could be explained by an increase in body fat.

    Results from the team’s analyses showed that eating 10% more UPFs is associated with a 23% higher risk of head and neck cancer and a 24% higher risk of oesophageal adenocarcinoma in EPIC. Increased body fat only explained a small proportion of the statistical association between UPF consumption and the risk of these upper-aerodigestive tract cancers.

    Fernanda Morales-Berstein, a Wellcome Trust PhD student at the University of Bristol and the study’s lead author, explained: “UPFs have been associated with excess weight and increased body fat in several observational studies. This makes sense, as they are generally tasty, convenient and cheap, favouring the consumption of large portions and an excessive number of calories. However, it was interesting that in our study the link between eating UPFs and upper-aerodigestive tract cancer didn’t seem to be greatly explained by body mass index and waist-to-hip ratio.”

    The authors suggest that other mechanisms could explain the association. For example, additives including emulsifiers and artificial sweeteners which have been previously associated with disease risk, and contaminants from food packaging and the manufacturing process, may partly explain the link between UPF consumption and upper-aerodigestive tract cancer in this study.

    However, Fernanda Morales-Berstein and colleagues did add caution regarding their findings and suggest that the associations between UPF consumption and upper-aerodigestive tract cancers found in the study could be affected by certain types of bias. This would explain why they found evidence of an association between higher UPF consumption and increased risk of accidental deaths, which is highly unlikely to be causal.

    George Davey Smith, Professor of Clinical Epidemiology and Director of the MRC Integrative Epidemiology Unit at the University of Bristol, and co-author on the paper, said: “UPFs are clearly associated with many adverse health outcomes, yet whether they actually cause these, or whether underlying factors such as general health-related behaviours and socioeconomic position are responsible for the link, is still unclear, as the association with accidental deaths draws attention to.”

    Inge Huybrechts, Team head of the Lifestyle exposures and interventions team at IARC, added: “Cohorts with long-term dietary follow-up intake assessments, considering also contemporary consumption habits, are needed to replicate these study’s findings, as the EPIC dietary data were collected in the 1990s, when the consumption of UPFs was still relatively low. As such associations may potentially be stronger in cohorts including recent dietary follow-up assessments.”

    Further research is needed to identify other mechanisms, such as food additives and contaminants, which may explain the links observed. However, based on the finding that body fat did not greatly explain the link between UPF consumption and upper-aerodigestive tract cancer risk in this study, Fernanda Morales-Berstein, suggested: “Focussing solely on weight loss treatment, such as Semaglutide, is unlikely to greatly contribute to the prevention of upper-aerodigestive tract cancers related to eating UPFs.”

    Dr Helen Croker, Assistant Director of Research and Policy at World Cancer Research Fund, added: “This study adds to a growing pool of evidence suggesting a link between UPFs and cancer risk. The association between a higher consumption of UPFs and an increased risk of developing upper-aerodigestive tract cancer supports our Cancer Prevention Recommendations to eat a healthy diet, rich in wholegrains, vegetables, fruit, and beans.”

    The study was funded by the Wellcome Trust; Cancer Research UK; World Cancer Research Fund International; Institut National du Cancer; Horizon 2020 ‘Dynamic longitudinal exposome trajectories in cardiovascular and metabolic non-communicable diseases’ study; University of Bristol Vice Chancellor’s Fellowship; British Heart Foundation and the Medical Research Council.

    Paper

    ‘Ultra-processed foods, adiposity and risk of head and neck cancer and oesophageal adenocarcinoma in the European Prospective Investigation into Cancer and Nutrition study: a mediation analysis’ by Fernanda Morales‑Berstein et al. in the European Journal of Nutrition

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    University of Bristol

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