Friday, July 10, 2020

Fast-spreading mutation helps common flu subtype escape immune response

Finding highlights the need for flu vaccines to target multiple sites on virus
JOHNS HOPKINS UNIVERSITY BLOOMBERG SCHOOL OF PUBLIC HEALTH
Strains of a common subtype of influenza virus, H3N2, have almost universally acquired a mutation that effectively blocks antibodies from binding to a key viral protein, according to a study from researchers at Johns Hopkins Bloomberg School of Public Health.
The results have implications for flu vaccine design, according to the researchers. Current flu vaccines, which are "seasonal vaccines" designed to protect against recently circulating flu strains, induce antibody responses mostly against a different viral protein called hemagglutinin.
The new mutation, described in the study published online June 29 in PLOS Pathogens, was first detected in the 2014-2015 flu season in some H3N2 flu strains, and evidently is so good at boosting flu's ability to spread that it is now present in virtually all circulating H3N2 strains. Recent flu seasons, in which H3N2 strains have featured prominently, have been relatively severe compared to historical averages.
The mutation alters a viral protein called neuraminidase, and the researchers found in their study that this alteration paradoxically reduces the ability of flu virus to replicate in a type of human nasal cell that it normally infects. However, the researchers also found evidence that the mutation more than compensates for this deficit by setting up a physical barrier that hinders antibodies from binding to neuraminidase.
"These findings tell us that flu vaccines focusing on the hemagglutinin protein are leaving the virus openings to evolve and evade other types of immunity," says study senior author Andrew Pekosz, PhD, professor and vice chair of the Department of Molecular Microbiology and Immunology at the Bloomberg School.
Every year, influenza viruses sicken millions of people around the world, killing several hundred thousands. The diversity of flu strains and their ability to mutate rapidly--two strains infecting the same host can even swap genes--have made flu viruses an especially difficult target for vaccine designers. Although scientists are working towards a universal vaccine that will protect long-term against most flu variants, current flu vaccines are designed to protect against only a short list of recently circulating strains. Any mutation that occurs in these circulating strains and appears to improve their ability to spread is naturally of interest to flu virologists.
The goal of the study was to understand better the workings of the new H3N2 mutation. Scientists have known that it alters the flu virus's neuraminidase protein in a way that provides an attachment point, close to neuraminidase's active site, for a sugar-like molecule called a glycan. But how the presence of a glycan at that location on the neuraminidase protein improves the virus's ability to infect hosts and spread hasn't been clear.
Pekosz and first author Harrison Powell, PhD, a graduate student in his laboratory at the time of the study, compared the growth, in laboratory cells, of typical H3N2 strains that have the glycan-attachment mutation to the growth of the same flu strains without the mutation. They found that the mutant versions grew markedly more slowly in human cells from the lining of the nasal passages--a cell type that a flu virus would initially infect.
The researchers found the likely reason for this slower growth: the glycan-attracting mutation hinders the activity of neuraminidase. The protein is known to serve as a crucial flu enzyme whose functions include clearing a path for the virus through airway mucus, and enhancing the release of new virus particles from infected cells.
It wasn't entirely unexpected that the addition of a moderately bulky glycan molecule near the enzyme's active site would have this effect. But it left unexplained how that would benefit the virus.
The scientists solved the mystery by showing that the glycan blocks antibodies that would otherwise bind to or near the active site of the neuraminidase enzyme.
Neuraminidase, especially its active site, is considered one of the most important targets for the immune response to a flu infection. It is also the target of flu drugs such as Tamiflu (oseltamivir). Thus it makes sense that a mutation protecting that target confers a net benefit to the virus, even if it means that the neuraminidase enzyme itself works less efficiently.
The finding highlights the potential for flu viruses to evade therapies, seasonal vaccines, and the ordinary immune response, Pekosz says, and points to the need for targeting multiple sites on the virus to reduce the chance that single mutations can confer such resistance.
The researchers have been following up their findings with studies of how the new mutation affects the severity of flu, how it has spread so rapidly among H3N2 strains, and how these altered flu strains have adapted with further mutations.
"Neuraminidase antigenic drift of influenza A virus H3N2 clade 3c.2a viruses alters virus replication, enzymatic activity and inhibitory antibody binding" was written by Harrison Powell and Andrew Pekosz.
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The study was supported by the National Institute of Allergy and Infectious Diseases (CEIRS HHSN272201400007C) and the National Institutes of Health (T32 AI007417).

Global COVID-19 registry finds strokes associated with COVID-19 are more severe, have worse outcomes and higher mortality

AMERICAN HEART ASSOCIATION
DALLAS, July 10, 2020 -- Acute ischemic strokes (AIS) associated with COVID-19 are more severe, lead to worse functional outcomes and are associated with higher mortality , according to new research published yesterday in Stroke, a journal of the American Stroke Association, a division of the American Heart Association.
In "Characteristics and Outcomes in Patients with COVID-19 and Acute Ischemic Stroke: The Global COVID-19 Stroke Registry," researchers analyzed data on patients with COVID-19 and AIS treated at 28 health care centers in 16 countries this year and compared them to patients without COVID-19 from the Acute Stroke Registry and Analysis of Lausanne (ASTRAL) Registry, from 2003 to 2019. Researchers sought to determine the clinical characteristics and outcomes of patients with COVID-19 and AIS.
Between January 27, 2020 to May 19, 2020, there were 174 patients hospitalized with COVID-19 and AIS. Each COVID-19 patient with AIS was matched and compared to a non-COVID-19 AIS patient based on a set of pre-specified factors including age, gender and stroke risk factors (hypertension, diabetes, atrial fibrillation, coronary artery disease, heart failure, cancer, previous stroke, smoking, obesity and dyslipidemia). The final analysis included 330 patients total.
In both patient groups, stroke severity was estimated with the National Institute of Health Stroke Scale (NIHSS), and stroke outcome was assessed by the modified Rankin score (mRS). When AIS patients with COVID-19 were compared to non-COVID-19 patients:
COVID-19 patients had more severe strokes (median NIHSS score of 10 vs. 6, respectively);
COVID-19 patients had higher risk for severe disability following stroke (median mRS score 4 vs. 2, respectively); and
COVID-19 patients were more likely to die of AIS.
The researchers noted there are several potential explanations for the relationship between COVID-19-associated strokes and increased stroke severity: "The increased stroke severity at admission in COVID-19-associated stroke patients compared to the non-COVID-19 cohort may explain the worse outcomes. The broad, multi-system complications of COVID-19, including acute respiratory distress syndrome, cardiac arrhythmias, acute cardiac injury, shock, pulmonary embolism, cytokine release syndrome and secondary infection, probably contribute further to the worse outcomes including higher mortality in these patients. ... The association highlights the urgent need for studies aiming to uncover the underlying mechanisms and is relevant for prehospital stroke awareness and in-hospital acute stroke pathways during the current and future pandemics."
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Co-authors are George Ntaios, M.D., M.Sc., Ph.D.; Patrik Michel, M.D.; Georgios Georgiopoulos, M.D.; Yutao Guo, M.D.; Wencheng Li, M.D.; Jing Xiong, M.D.; Patricia Calleja, M.D.; Fernando Ostos, M.D.; Guillermo González-Ortega, M.D.; Blanca Fuentes, M.D., Ph.D.; María Alonso de Leciñana, M.D., Ph.D.; Exuperio Díez-Tejedor, M.D., Ph.D.; Sebastian García-Madrona, M.D.; Jaime Masjuan, M.D., Ph.D.; Alicia DeFelipe, M.D.; Guillaume Turc, M.D.; Bruno Gonçalves, M.D.; Valerie Domigo, M.D.; Gheorghe-Andrei Dan, M.D.; Roxana Vezeteu, M.D.; Hanne Christensen, M.D.; Louisa Marguerite Christensen, M.D., Ph.D.; Per Meden, M.D.; Lejla Hajdarevic, M.D.; Angela Rodriguez-Lopez, M.D.; Fernando Díaz-Otero, M.D.; Andrés García-Pastor, M.D., Ph.D.; Antonio Gil-Nuñez, M.D., Ph.D.; Errikos Maslias, M.D.; Davide Strambo, M.D.; David J. Werring, M.D., Ph.D.; Arvind Chandratheva, M.D.; Laura Benjamin, M.D.; Robert Simister, M.D., Ph.D.; Richard Perry, M.D.; Rahma Beyrouti M.D.; Pascal Jabbour, M.D., Ph.D.; Ahmad Sweid, M.D.; Stavropoula Tjoumakaris, M.D.; Elisa Cuadrado-Godia, M.D.; Ana Rodríguez Campello, M.D.; Jaume Roquer, M.D.; Tiago Moreira, M.D.; Michael V. Mazya, M.D.; Fabio Bandini, M.D.; Karl Matz, M.D.; Helle K. Iversen, M.D.; Alejandra González-Duarte, M.D.; Cristina Tiu, M.D., Ph.D.; Julia Ferrari, M.D.; Milan R. Vosko, M.D.; Helmut J.F. Salzer, M.D.; Bernd Lamprecht, M.D.; Martin W. Dünser, M.D.; Carlo W. Cereda, M.D.; Ángel Basilio Corredor Quintero, M.D.; Eleni Korompoki, M.D., Ph.D.; Eduardo Soriano-Navarro, M.D.; Luis Enrique Soto-Ramírez, M.D.; Paulo F. Castañeda-Méndez, M.D.; Daniela Bay-Sansores, M.D.; Antonio Arauz, M.D.; Vanessa Cano-Nigenda, M.D.; Espen Saxhaug Kristoffersen, M.D., Ph.D.; Marjaana Tiainen, M.D.; Daniel Strbian, M.D.; Jukka Putaala, M.D.; and Gregory Y.H. Lip, M.D. Author disclosures are detailed in the manuscript.
No funding sources were reported for this study.
Additional Resources:
Statements and conclusions of study authors published in American Heart Association scientific journals are solely those of the study authors and do not necessarily reflect the Association's policy or position. The Association makes no representation or guarantee as to their accuracy or reliability. The Association receives funding primarily from individuals; foundations and corporations (including pharmaceutical, device manufacturers and other companies) also make donations and fund specific Association programs and events. The Association has strict policies to prevent these relationships from influencing the science content. Revenues from pharmaceutical and device corporations and health insurance providers are available at https://www.heart.org/en/about-us/aha-financial-information.
About the American Stroke Association
The American Stroke Association is devoted to saving people from stroke -- the No. 2 cause of death in the world and a leading cause of serious disability. We team with millions of volunteers to fund innovative research, fight for stronger public health policies and provide lifesaving tools and information to prevent and treat stroke. The Dallas-based association officially launched in 1998 as a division of the American Heart Association. To learn more or to get involved, call 1-888-4STROKE or visit stroke.org. Follow us on Facebook and Twitter.
COVID-19 can be transmitted in the womb, 
reports pediatric infectious disease journal

Case study provides evidence of intrauterine transmission of SARS-CoV-2 from mother to infant
WOLTERS KLUWER HEALTH
The findings "suggest in utero transmission" of COVID-19 from an infected mother to her infant, according to the case report by Julide Sisman, MD, and colleagues of The University of Texas Southwestern Medical Center, Dallas.
"Numerous infants have now been delivered to pregnant women diagnosed with SARS-CoV-2, with the majority of these infants without respiratory illness or positive molecular evidence for SARS-CoV-2," comments Amanda S. Evans, MD, one of the lead authors of the new study. "Our study is the first to document intrauterine transmission of the infection during pregnancy, based on immunohistochemical and ultrastructural evidence of SARS-CoV-2 infection in the fetal cells of the placenta."
First Documented Intrauterine Transmission of COVID-19
The authors report on an infant delivered to a mother diagnosed with COVID-19, who also had type 2 diabetes. The infant was born at 34 weeks' gestation after the mother had premature rupture of the membranes. The baby was born "large for gestational age" (LGA) - an important complication in infants of diabetic mothers. She was treated in the neonatal ICU due to prematurity and possible SARS-CoV-2 exposure.
The infant appeared initially healthy, with normal breathing and other vital signs. On the second day of life, she developed fever and relatively mild breathing problems. "It is unlikely that the respiratory distress observed in this infant was due to prematurity since it did not start until the second day of life," the researchers write.
The baby tested positive for SARS-CoV-2 infection at 24 and 48 hours after birth. She was treated with supplemental oxygen for several days but did not need mechanical ventilation. COVID-19 tests remained positive for up to 14 days. At 21 days, the mother and infant were sent home in good condition.
The researchers examined the placenta, which showed signs of tissue inflammation. In addition, specialized tests documented the presence of coronavirus particles as well as a protein (SARS-CoV-2 nucleocapsid protein) specific for the COVID-19 virus in fetal cells of the placenta. Together, these findings confirmed that the infection was transmitted in the womb, rather than during or after birth.
Although data on COVID-19 remain very limited, "Intrauterine transmission of SARS-CoV-2 appears to be a rare event," Dr. Sisman and colleagues conclude. They highlight several urgent priorities for further research, including the mechanisms and risk factors of in utero SARS-CoV-2 transmission and the outcomes of congenital COVID-19 in infants.
"We wanted to be very careful of our interpretation of this data, but now is an even more important time for pregnant women to protect themselves from COVID-19," comments Dr. Evans. She adds, "The CDC has thoughtful guidance on ways to reduce risk of infection." (See https://www.cdc.gov/coronavirus/2019-ncov/need-extra-precautions/pregnancy-breastfeeding.html)
Two additional case reports in PIDJ also describe "vertical" transmission of SARS-Co-V2 from mother to infant occurring under different circumstances. Together, the three cases highlight the important but difficult distinction between virus transmission occurring before or during/after delivery (intrauterine versus intrapartum), according to a commentary led by George K. Siberry, MD, of the US Agency for International Development and Associate Chief Editor of PIDJ. Dr. Siberry and coauthors write: "As these cases illustrate, evaluation for vertical - and especially intrauterine - SARS-CoV-2 infection can be challenging, and assessment is often limited by lack of optimal testing of appropriate specimens obtained at specific timepoints."
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DOI: 10.1097/INF.0000000000002815
About The Pediatric Infectious Disease Journal
The Pediatric Infectious Disease Journal® (PIDJ) is a complete, up-to-the-minute resource on infectious diseases in children. Through a mix of original studies, informative review articles, and unique case reports, PIDJ delivers the latest insights on combating disease in children -- from state-of-the-art diagnostic techniques to the most effective drug therapies and other treatment protocols. It is a resource that can improve patient care and stimulate your personal research. The Pediatric Infectious Disease Journal is the official journal of the European Society for Paediatric Infectious Diseases.
About The European Society for Paediatric Infectious Diseases
Now in its 36th year, The European Society for Paediatric Infectious Diseases (ESPID) forms the basis for European investigators interested in infectious diseases in children and infection prevention in childhood. The society is engaged in a number of activities including the organisation of multicentre trials, international exchange of infectious disease fellows, and an annual meeting. Membership includes subscription to The Pediatric Infectious Disease Journal® in addition to many other benefits.
About Wolters Kluwer
Wolters Kluwer (WKL) is a global leader in professional information, software solutions, and services for the clinicians, nurses, accountants, lawyers, and tax, finance, audit, risk, compliance, and regulatory sectors. We help our customers make critical decisions every day by providing expert solutions that combine deep domain knowledge with advanced technology and services.
Wolters Kluwer reported 2019 annual revenues of €4.6 billion. The group serves customers in over 180 countries, maintains operations in over 40 countries, and employs approximately 19,000 people worldwide. The company is headquartered in Alphen aan den Rijn, the Netherlands.
Wolters Kluwer provides trusted clinical technology and evidence-based solutions that engage clinicians, patients, researchers and students with advanced clinical decision support, learning and research and clinical intelligence. For more information about our solutions, visit http://healthclarity.wolterskluwer.com and follow us on LinkedIn and Twitter @WKHealth.
For more information, visit http://www.wolterskluwer.com, follow us on TwitterFacebookLinkedIn, and YouTube.

Theft law needs reform to reduce the risk of judgements which lack 'common sense'

Theft law needs reform to reduce the risk of judgements which lack 'common sense', new study warns
UNIVERSITY OF EXETER
Theft law needs reform so the crime is based on consent not dishonesty - reducing the risk of judgements which lack "common sense" - a new study warns.
At the moment technically "putting a can of beans into a shopping basket is acting like a thief", the study warns. The current law, from 1968, has long-been criticised for being unsuitable because it requires proof property was taken dishonesty, and someone can be guilty of theft even if the victim has not lost their property.
The study says a solution would be to base theft law purely on consent, for it to be "a serious, intentional or reckless interference with another's property without consent". This more closely aligns with the core wrong of theft, and is easier to understand for police, prosecutors and juries trying to decide if someone is guilty of theft.
The study, published in Criminal Law Review, raises concerns about the counter-intuitive consequences of the current law. Currently changing labels on supermarket goods, or taking more money than is due from a proffered wallet, or buying with a forged cheque would be classed as theft.
The new definition, proposed as part of a study by Dr Nathan Tamblyn from the University of Exeter Law School, suggests theft should be taking and keeping, when currently something as trivial as touching can suffice. This would make the law more explicit that borrowing can be theft.
Under the current law a person is guilty of theft if they "dishonestly appropriate property belonging to another with the intention of permanently depriving the other of it". Someone can be guilty of theft even if the property never leaves the owners possession, for example if someone tries to sell something belonging to another person.
Current theft law can cover actions which are ordinary and acceptable. For example, picking up a can of beans from a supermarket shelf to put in a shopping basket technically constitutes an appropriation of property belonging to another with an intention of permanently depriving the supermarket.
Professor Tamblyn said: "The law regarding theft needs reform because it is producing strange results. Partly the problems stem from the fact that the current definition of theft involves an "appropriation" of property, which can be as trivial as merely touching property. Instead, I suggest that theft should be reserved for serious interference with property, like taking and keeping.
"Partly the problems stem from the fact that so much of the work done in defining theft turns upon the need for a person to act dishonestly.
"The courts have struggled to find a helpful explanation of what it means to act dishonestly, advancing different tests over the years. The most recent test is still unhelpfully circular, in effect defining dishonest behaviour as whatever an ordinary decent, honest person would think is dishonest.
"That approach can fail to provide much guidance in advance as to whether contemplated behaviour is dishonest or not. It is unfair to convict a person for behaviour which they could not tell in advance was dishonest. It also means that the law fails to discourage such behaviour, for lack of any clear advance prohibition."
Dr Tamblyn's definition is more similar to that of other offences. It is a crime to damage another's property intentionally or recklessly or commit violence intentionally or recklessly.
The current law is based on a statute which could be replaced. Courts could also revisit their interpretation of that statute, to construe "appropriation" as involving serious interferences with property, and "dishonestly" as meaning without belief that the owner consents.
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Health disparities published in new volume

Researchers at the Hollings Cancer Center at the Medical University of South Carolina lead health disparity research studies
MEDICAL UNIVERSITY OF SOUTH CAROLINA
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IMAGE: DR. MARVELLA FORD HOPES THE NEW VOLUME OF HEALTH DISPARITIES RESEARCH SHE COEDITED WILL PROMOTE CANCER HEALTH EQUITY AND LEAD TO BETTER OUTCOMES FOR CANCER PATIENTS. view more 
CREDIT: MUSC HCC
Leading health disparities experts hope health institutions will take advantage of a new cancer health equity research volume recently released that curates the latest developments in how researchers can best address health disparities so all patients receive good quality care.
"This volume is important because it uses a health equity approach to focus on factors associated with cancer disparities research, and it identifies potential solutions to those disparities," said Marvella Ford, Ph.D., professor of Public Health Sciences and associate director of population sciences and cancer disparities at the Hollings Cancer Center at the Medical University of South Carolina. "It brings together a spectrum of research from the basic sciences to the population sciences to address cancer health equity."
Ford also is the SmartState Endowed Chair of Cancer Health Equity Research at South Carolina State University. She coedited the volume with Nestor F. Esnaola, M.D., of Houston Methodist, and Judith D. Salley, Ph.D., of South Carolina State University. Two of Ford's studies were included in the recently released book, which is the edited journal volume, Cancer Health Equity Research (Volume 146 -Advances in Cancer Research).
Chapters three, four, six and seven of the volume represent Hollings' studies by Ford and other colleagues. She also wrote the preface in Health Equity Research. The journal includes research that highlights the importance of including diverse populations in cancer research and suggestions for effective recruitment strategies. These studies are what Ford hopes will lead to better health outcomes for cancer patients, especially those who are disproportionately affected by cancer.
"Researchers can take this information, and they can design and implement their own interventions to reduce cancer disparities and promote cancer health equity," Ford said.
Studies in the book reveal how better solutions can be found. One of the studies is part of Ford and Salley's National Cancer Institute U54 PACHE or Partnerships to Advance Cancer Health Equity program and ties to the South Carolina Cancer Disparities Center grant. This research shows the impact of lifestyle on breast cancer risk. The study, originally published in Advances in Cancer Research, found that known breast cancer risks such as a higher body mass index, lower rates of physical activity and a type of cancer called hormone receptor-negative breast cancer appear to be more prevalent in African Americans without Sea Island/Gullah ancestry than in Sea Islanders.
Her other study published in Advances in Cancer Research, led by Hollings Cancer Center researcher David P. Turner, Ph.D., showed that mammary gland development is linked to breast cancer disparity, perhaps mediated through socioeconomic status and childbearing patterns, such as the age at which a young woman starts menstruating.
Ford said the newly released volume is important because these studies help researchers to pinpoint areas where specific health interventions could be developed.
"Cancer disparities are a major public health problem in the United States. The goal of cancer disparities research is ultimately to reduce and eliminate these disparities," Ford said. "The synergy among the chapters is shown by their emphasis on the multiple factors that contribute to cancer disparities, ranging from social factors to biological factors."
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About MUSC
Founded in 1824 in Charleston, MUSC is the oldest medical school in the South, as well as the state's only integrated, academic health sciences center with a unique charge to serve the state through education, research and patient care. Each year, MUSC educates and trains more than 3,000 students and 700 residents in six colleges: Dental Medicine, Graduate Studies, Health Professions, Medicine, Nursing and Pharmacy. The state's leader in obtaining biomedical research funds, in fiscal year 2018, MUSC set a new high, bringing in more than $276.5 million. For information on academic programs, visit http://musc.edu.
As the clinical health system of the Medical University of South Carolina, MUSC Health is dedicated to delivering the highest quality patient care available, while training generations of competent, compassionate health care providers to serve the people of South Carolina and beyond. Comprising some 1,600 beds, more than 100 outreach sites, the MUSC College of Medicine, the physicians' practice plan, and nearly 275 telehealth locations, MUSC Health owns and operates eight hospitals situated in Charleston, Chester, Florence, Lancaster and Marion counties. In 2019, for the fifth consecutive year, U.S. News & World Report named MUSC Health the number one hospital in South Carolina. To learn more about clinical patient services, visit http://muschealth.org.
MUSC and its affiliates have collective annual budgets of $3 billion. The more than 17,000 MUSC team members include world-class faculty, physicians, specialty providers
About Hollings Cancer Center
The Hollings Cancer Center at the Medical University of South Carolina is a National Cancer Institute-designated cancer center and the largest academic-based cancer research program in South Carolina. The cancer center comprises more than 100 faculty cancer scientists and 20 academic departments. It has an annual research funding portfolio of more than $44 million and a dedication to reducing the cancer burden in South Carolina. Hollings offers state-of-the-art diagnostic capabilities, therapies and surgical techniques within multidisciplinary clinics that include surgeons, medical oncologists, radiation therapists, radiologists, pathologists, psychologists and other specialists equipped for the full range of cancer care, including more than 200 clinical trials. For more information, visit http://www.hollingscancercenter.org

Arctic Ocean changes driven by sub-Arctic seas

UNIVERSITY OF ALASKA FAIRBANKS


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IMAGE: A MAP OF THE ARCTIC OCEAN SHOWS THE LOCATION OF THE AMERASIAN AND EURASIAN BASINS. ARROWS SHOW THE PATH OF WARM, FRESH PACIFIC WATER AND WARM, SALTY ATLANTIC WATER INTO... view more 
CREDIT: GRAPHIC ADAPTED FROM POLYAKOV ET AL. 2020, FRONTIERS IN MARINE SCIENCE PAPER.

New research explores how lower-latitude oceans drive complex changes in the Arctic Ocean, pushing the region into a new reality distinct from the 20th-century norm.
The University of Alaska Fairbanks and Finnish Meteorological Institute led the international effort, which included researchers from six countries. The first of several related papers was published this month in Frontiers in Marine Science.
Climate change is most pronounced in the Arctic. The Arctic Ocean, which covers less than 3% of the Earth's surface, appears to be quite sensitive to abnormal conditions in lower-latitude oceans.
"With this in mind, the goal of our research was to illustrate the part of Arctic climate change driven by anomalous [different from the norm] influxes of oceanic water from the Atlantic Ocean and the Pacific Ocean, a process which we refer to as borealization," said lead author Igor Polyakov, an oceanographer at UAF's International Arctic Research Center and FMI.
Although the Arctic is often viewed as a single system that is impacted by climate change uniformly, the research stressed that the Arctic's Amerasian Basin (influenced by Pacific waters) and its Eurasian Basin (influenced by Atlantic waters) tend to differ in their responses to climate change.
Since the first temperature and salinity measurements taken in the late 1800s, scientists have known that cold and relatively fresh water, which is lighter than salty water, floats at the surface of the Arctic Ocean. This fresh layer blocks the warmth of the deeper water from melting sea ice.
In the Eurasian Basin, that is changing. Abnormal influx of warm, salty Atlantic water destabilizes the water column, making it more susceptible to mixing. The cool, fresh protective upper ocean layer is weakening and the ice is becoming vulnerable to heat from deeper in the ocean. As mixing and sea ice decay continues, the process accelerates. The ocean becomes more biologically productive as deeper, nutrient-rich water reaches the surface.
By contrast, increased influx of warm, relatively fresh Pacific water and local processes like sea ice melt and accumulation of river water make the separation between the surface and deep layers more pronounced on the Amerasian side of the Arctic. As the pool of fresh water grows, it limits mixing and the movement of nutrients to the surface, potentially making the region less biologically productive.
The study also explores how these physical changes impact other components of the Arctic system, including chemical composition and biological communities.
Retreating sea ice allows more light to penetrate into the ocean. Changes in circulation patterns and water column structure control availability of nutrients. In some regions, organisms at the base of the food web are becoming more productive. Many marine organisms from sub-Arctic latitudes are moving north, in some cases replacing the local Arctic species.
"In many respects, the Arctic Ocean now looks like a new ocean," said Polyakov.
These differences change our ability to predict weather, currents and the behavior of sea ice. There are major implications for Arctic residents, fisheries, tourism and navigation.
This study focused on rather large-scale changes in the Arctic Ocean, and its findings do not necessarily represent conditions in nearshore waters where people live and hunt.
The study stressed the importance of future scientific monitoring to understand how this new realm affects links between the ocean, ice and atmosphere.
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Co-authors of the paper include Matthew Alkire, Bodil Bluhm, Kristina Brown, Eddy Carmack, Melissa Chierici, Seth Danielson, Ingrid Ellingsen, Elizaveta Ershova, Katarina Gårdfeldt, Randi Ingvaldsen, Andrey V. Pnyushkov, Dag Slagstad and Paul Wassmann.

Study pinpoints brain cells that trigger sugar cravings and consumption

UNIVERSITY OF IOWA HEALTH CARE
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IMAGE: THE HORMONE FGF21 IS MADE IN THE LIVER AND ACTS IN THE BRAIN TO SUPPRESS SUGAR INTAKE AND THE PREFERENCE FOR SWEET TASTE. THE CARTOON ILLUSTRATES THE ROLE FGF21 PLAYS... view more 
CREDIT: MATTHEW POTTHOFF, UNIVERSITY OF IOWA CARVER COLLEGE OF MEDICINE
New research has identified the specific brain cells that control how much sugar you eat and how much you crave sweet tasting food.
Most people enjoy a sweet treat every now and then. But an unchecked "sweet tooth" can lead to overconsumption of sugary foods and chronic health issues like obesity and type 2 diabetes. Understanding the biological mechanisms that control sugar intake and preference for sweet taste could have important implications for managing and preventing these health problems.
The new study, led by Matthew Potthoff, PhD, associate professor of neuroscience and pharmacology in the University of Iowa Carver College of Medicine, and Matthew Gillum, PhD, at the University of Copenhagen in Denmark, focuses on actions of a hormone called fibroblast growth factor 21 (FGF21). This hormone is known to play a role in energy balance, body weight control, and insulin sensitivity.
"This is the first study that's really identified where this hormone is acting in the brain and that has provided some very cool insights to how it's regulating sugar intake," says Potthoff, who also is a member of the Fraternal Order of Eagles Diabetes Research Center at the UI and the Iowa Neuroscience Institute.
Potthoff and his colleagues previously discovered that FGF21 is made in the liver in response to increased levels of sugar, and acts in the brain to suppress sugar intake and the preference for sweet taste.
Building on that finding, the team has now shown, for the first time, which brain cells respond to FGF21's signals and how that interaction helps regulate sugar intake and sweet taste preference. The study, published in the journal Cell Metabolism, also reveals how the hormone mediates its effects.
Although it was known that FGF21 acted in the brain, identifying the exact cellular targets was complicated by the fact that the hormone's receptor is expressed at very low levels and is therefore difficult to "see." Using various techniques, the researchers were able to precisely identify which cells express the receptor for FGF21. By investigating these cells, the study shows that FGF21 targets glutamatergic neurons in the brain to lower sugar intake and sweet taste preference. The researchers also showed that FGF21's action on specific neurons in the ventromedial hypothalamus reduce sugar intake by enhancing the neurons' sensitivity to glucose.
Several drugs based on a modified form of FGF21 are already being tested as treatments for obesity and diabetes. The new findings could potentially lead to new drugs that more precisely target the different behaviors controlled by FGF21, which might help to control how much sugar a person eats.
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In addition to Potthoff and Gillum, the team included UI researchers Sharon Jensen-Cody and Kyle Flippo, who were co-first authors of the study, Kristin Claflin, Yavuz Yavuz, Sarah Sapouckey, Grant Walters, Yuriy Usachev, and Deniz Atasoy.
The study was funded in part by grants from the National Institutes of Health, the American Heart Association, and the Veterans Affairs Merit Review Program.

Montana State research on plant chemistry published in Global Change Biology

MONTANA STATE UNIVERSITY
BOZEMAN -- A Montana State University professor's research on plant chemistry in the Northern Great Plains and Northern Rockies has been published in Global Change Biology, a prominent journal that promotes exploration of the connections between biological processes and environmental change.
Jack Brookshire, associate professor in the Department of Land Resources and Environmental Sciences in the MSU College of Agriculture, combined satellite data and plant samples from more than 300 locations around the Northern Great Plains and Northern Rockies to examine trends in greening, a metric which represents plant productivity through photosynthesis. The project began in 2016 and was supported by National Science Foundation EPSCoR funding and a research grant through the Montana Agriculture Experiment Station.
"Studies using remote sensing were showing that much of Earth's land surface has been getting greener over the last several decades mostly due to increased carbon dioxide in the atmosphere," said Brookshire. "However, there was also evidence that plant nitrogen content was declining. No one had yet combined analyses of vegetation greening trends with those changes in plant chemistry."
Brookshire worked with collaborators at the University of Wisconsin-Madison and Idaho State University, as well as graduate and undergraduate students at MSU to examine whether regional climate changes or increased atmospheric carbon dioxide was the cause of the increased greening across Montana and the broader Northern Great Plains. While increased productivity may seem like a benefit, Brookshire said the question is how sustainable those increases are and whether increased greening changes the chemical makeup of the plants themselves.
The work began by sifting through nearly two decades of satellite data from a NASA program called MODIS, which collects data from the entire surface of the Earth every 1-2 days. Brookshire's group analyzed normalized vegetation difference index data, which measures the amount of light reflected by plants. Over 20 years, they noted that the greening across the Northern Great Plains and Northern Rocky Mountains had increased significantly, but the difference was more pronounced in the Northern Great Plains.
"The largest increases in greening were in the places where it was warmest and driest, we think because they have the most marginal gains to be made in response to carbon dioxide and climate change given the changes in plant physiology we observe," said Brookshire. "Also, much of the Northern Great Plains has experienced increases in rainfall over the past few decades, and we find evidence that this has been a major driver of greening trends."
However, while the trends in greening varied by geographic location, Brookshire wanted to see if physiological changes in the plants themselves were uniform across the two regions. If so, the most likely cause would be increased atmospheric carbon dioxide. The increase in carbon dioxide is global in extent, and wouldn't fluctuate regionally, said Brookshire.
To test the physical changes going on inside the plants, Brookshire turned to the MSU Herbarium, which houses thousands of plant samples from across the state, collected over more than 100 years.
"The herbarium is truly a treasure trove of native plant species," said Brookshire. "We selected four representative species for the ecosystems, three grasses and a sagebrush, and then very carefully sampled small sections of their leaves for chemical and isotope analysis."
After testing samples from the herbarium, Brookshire's team returned to some of the locations of the historical plant samples and collected contemporary samples to compare the chemical balances inside the same plant species as many as 100 years later.
Analyzing the chemical and isotope ratios of carbon and nitrogen in the historic and contemporary plant samples, Brookshire found decreased levels of nitrogen and increased levels of carbon in recent samples. They also found that the plants had increased in water use efficiency -- the ratio of how much carbon dioxide they take up per unit of water -- by more than 30% since the 1970s. These measurements confirmed his hypothesis that the plants were adjusting to changes in the Earth's atmosphere over time.
"Fundamentally, plants need carbon dioxide, water, sunlight and nutrients, especially nitrogen, to photosynthesize and grow," he said. "When one of those levers is increased, the others have to adjust. Plants in these ecosystems have adapted to increased carbon dioxide by maintaining a constant ratio between what's inside their leaves and what's outside."
Brookshire said the long-term changes in plant chemistry could have adverse effects on ecosystems. Eventually limitations to greening will emerge, particularly in how little nitrogen plants can survive on.
"Plants cannot increase water or nitrogen use efficiency indefinitely," he said. "These findings are important to the development of the next generation of ecosystem models as plants will likely have to adjust nutrient acquisition strategies."
The changing plant makeup could also impact the creatures that eat those plants. With increased carbon dioxide comes increased plant sugars, and decreasing nitrogen comes decreased protein content, which could lead to dietary impacts for herbivores and even changes in the nutrition of crops grown in the Northern Great Plains and Northern Rocky Mountains for human consumption.
"There is a great amount of uncertainty in how climate change, increases in grassland productivity and declines in plant tissue quality are affecting ecosystems across the Northern Great Plains right now," said Brookshire. "It's difficult yet important to understand how they will continue to change over the next century and beyond."
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Satellite data show severity of drought summers in 2018 and 2019

GFZ GEOFORSCHUNGSZENTRUM POTSDAM, HELMHOLTZ CENTRE
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IMAGE: THE FOUR CENTRAL EUROPEAN DROUGHTS OF THE YEARS 2003, 2015, 2018, AND 2019: SHOWN ARE THE WATER MASS ANOMALIES, I.E. THE LONG TERM MEAN ANNUAL SIGNAL HAS BEEN REMOVED. THE... view more 
CREDIT: EVA BOERGENS, GFZ
The GRACE-FO (Gravity Recovery and Climate Experiment-Follow-On) satellites launched in May 2018 are able to quantify the water mass deficit in Central Europe. Relative to long-term climate development, the water mass deficits during the two consecutive summer droughts of 2018 and 2019 amounted to 112 Gt in 2018 and even 145 Gt in 2019, according to a research team from the German Research Centre for Geosciences GFZ and the University of Potsdam led by Eva Börgens. The deficits in 2018 and 2019 are thus 73 percent and 94 percent of the average fluctuation in seasonal water storage. In other words, compared with the average value, it would take about twice the increase in water over the winter to compensate for this deficit. The changes are so serious that a recovery within one year is not to be expected. The water shortage in the years 2018 and 2019 is thus the largest in the entire GRACE and GRACE-FO measurement campaign of almost 20 years. The results were published in the journal Geophysical Research Letters.
The GRACE-FO pair of satellites records the movement of water on Earth based on variations of the Earth's gravitational field triggered by this movement. These variations can be determined from high-precision distance measurements using microwave signals emitted by the two satellites flying behind each other. GRACE-FO is the successor project of GRACE. The two GRACE satellites had completed their mission in 2017 after 15 years of operation.
On the whole, the data show no offset between the two missions, which confirms the successful continuation of GRACE by GRACE-FO and thus the reliability of the observation of extreme events in Central Europe. According to the researchers, this allows a joint evaluation of the four Central European droughts in the years 2003, 2015, 2018 and 2019: Compared to 2003 and 2015, 2018 and 2019 were significantly drier. In 2019 the water shortage was so severe that a recovery of water supplies within one year is not expected, especially since the winter of 2019/2020 brought only a very slight recovery.
In order to be able to draw a comparison between GRACE and GRACE-FO drought observations and other parts of the water balance, such as soil moisture or surface water, the data were converted into drought indices. In contrast to other data sources, the data of GRACE-FO and GRACE allow to cover the entire water balance in lakes, rivers, soils and groundwater. Measurements on surface waters such as Lake Constance, on the other hand, can be strongly influenced by local or regional factors.
"The study shows how important the long time series of observations from the GRACE and GRACE-FO missions are for classifying current climatic events," says study leader Eva Börgens. "Whether the drought years 2015, 2018 and 2019 are the first signs of longer-term change in Central Europe or merely statistical outliers will only be known in the future. However, initial data from 2020 suggest that the drought will continue."
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Original study
Boergens, E., Güntner, A., Dobslaw, H., Dahle, C., 2020. Quantifying the Central European Droughts in 2018 and 2019 with GRACE-Follow-On. Geophysical Research Letters. DOI: 10.1029/2020GL087285
Further information:
Official GRACE-FO homepage of GFZ:
Images:
Animation:
Temporal evolution of water mass anomaly over central Europe observed with the GRACE and GRACE Follow-On mission. The time series displays the water mass anomaly over Central Europe (green box) in gigatons. The changing spatial patterns are given in corresponding water heights. (Source: Eva Börgens, GFZ; Based on GRACE/GRACE-FO GFZ RL06 as available from gravis.gfz-potsdam.de) https://media.gfz-potsdam.de/gfz/wv/pm/20/11310_Timeseries-europe-water_E-Boergens-GFZ.mp4
Collage:
The four Central European droughts of the years 2003, 2015, 2018, and 2019: Shown are the water mass anomalies, i.e. the long term mean annual signal has been removed. The time series plot in the middle displays the total water mass anomaly over Central Europe in gigatons, whereas the four maps show the spatial distribution of the anomalie (in equivalent water height) in the driest month of each drought year. (Image: Eva Börgens, GFZ; Based on GRACE/GRACE-FO GFZ RL06 as available from gravis.gfz-potsdam.de) https://media.gfz-potsdam.de/gfz/wv/pm/20/11309_Drought_E-Boergens-GFZ.png
Illustration of the two satellites of the GRACE-FO mission (Rendering: Filmhaus Berlin / GFZ). https://media.gfz-potsdam.de/gfz/wv/Transfer/GRACE-FO/10801_GRACE-FO_Filmhaus-Berlin-GFZ.png
Illustration of the two satellites of the GRACE-FO mission in front of the earth's gravity field (Rendering Filmhaus Berlin / GFZ). https://media.gfz-potsdam.de/gfz/wv/Transfer/GRACE-FO/10805_GRACE-FO-Geoid_GFZ.jpg
Link to GRACE-FO animation (Principle of operation) https://media.gfz-potsdam.de/gfz/wv/Transfer/GRACE-FO/Animation_Logo_UT.mp4 (Quelle: Filmhaus Berlin / GFZ)
Scientific contact:

How Venus flytraps snap

UNIVERSITY OF ZURICH
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IMAGE: THE FORCE SENSOR OF THE MICROROBOTIC SYSTEM DEFLECTS A SENSORY HAIR OF A FLLYTRAP THAT IS KEPT OPEN BY THE SENSORS OF THE LOAD CELL. view more 
CREDIT: HANNES VOGLER, UZH
Venus flytraps catch spiders and insects by snapping their trap leaves. This mechanism is activated when unsuspecting prey touch highly sensitive trigger hairs twice within 30 seconds. A study led by researchers at the University of Zurich has now shown that a single slow touch also triggers trap closure - probably to catch slow-moving larvae and snails.
The Venus flytrap (Dionaea muscipula) is perhaps the most well-known carnivorous plant. It catches its prey, mostly spiders and insects, using a sophisticated trapping mechanism. Its distinct leaves have three highly sensitive trigger hairs on each lobe. These hairs react to even the slightest touches - e.g. when a fly crawls along the leaf - by sending out an electrical signal, which quickly spreads across the entire leaf. If two signals are triggered in a short time, the trap snaps within milliseconds.
New trigger for trapping mechanism
The physiological reactions on which this trapping mechanism is based have been studied for over 200 years. The consensus has been that every sufficiently strong touch of a trigger hair causes an electrical signal, and that two signals within 30 seconds result in the closing of the trap. A new study from the University of Zurich (UZH) and ETH Zurich has now found another triggering mechanism. "Contrary to popular belief, slowly touching a trigger hair only once can also cause two signals and thus lead to the snapping of the trap," says co-last author Ueli Grossniklaus, director of the Department of Plant and Microbial Biology at UZH.
First, the interdisciplinary team of researchers determined the forces needed to trigger the plant's trapping mechanism. They did this by using highly sensitive sensors and high-precision microrobotic systems developed by the team of co-last author Bradley J. Nelson at the Institute of Robotics and Intelligent Systems at ETH Zurich. This enabled the scientists to deflect the trigger hairs to a precise angle at a pre-defined speed in order to measure the relevant forces. These experiments confirmed the previous theory. If the chosen parameters approximate the touch of regular prey, it takes two touches for the trap to snap.
From the collected data, the researchers at the ETH Institute for Building Materials developed a mathematical model to determine the range of angular deflection and velocity thresholds that activate the snapping mechanism. "Interestingly, the model showed that at slower angular velocities one touch resulted in two electrical signals, such that the trap ought to snap," says Grossniklaus. The researchers were subsequently able to confirm the model's prediction in experiments.
Catching slow prey
When open, the lobes of the Venus flytrap's leaves are bent outwards and under strain - like a taut spring. The trigger signal leads to a minute change in the leaves' curvature, which makes the trap snap instantaneously. The electrical signals are generated by ion channels in the cell membrane, which transport atoms out of and into the cell. "We think that the ion channels stay open for as long as the membrane is mechanically stretched. If the deflection occurs slowly, the flow of ions is enough to trigger several signals, which causes the trap to close," explains co-first author Hannes Vogler, plant biologist at UZH. The newly discovered triggering mechanism could be a way for the Venus flytrap to catch slow-moving prey, such as larvae or snails.
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