Researchers reveal origins of complex hemoglobin by resurrecting ancient proteins – Science Codex

Most biological processes are carried out by complexes of multiple proteins that work together to carry out some function. How these complicated structures could have evolved is one of modern biology's great puzzles, because they generally stick together using elaborate molecular interfaces, and the intermediate forms through which they came into being have been lost without a trace.

Now an international team of researchers led by University of Chicago Professor Joseph Thornton, PhD, and graduate student Arvind Pillai has revealed that complexity can evolve through surprisingly simple mechanisms. The group identified the evolutionary "missing link" through which hemoglobin -- the essential four-part protein complex that transports oxygen in the blood of virtually all vertebrate animals -- evolved from simple precursors. And they found that it took just two mutations more than 400 million years ago to trigger the emergence of modern hemoglobin's structure and function.

The study, "Origin of complexity in haemoglobin evolution," will be published online in the journal Nature on May 20. The team also includes scientists at Texas A&M University, University of Nebraska-Lincoln, and Oxford University (UK).

Each hemoglobin molecule is a four-part protein complex made up of two copies each of two different proteins, but the proteins to which they are most closely related do not form complexes at all. The team's strategy, pioneered in Thornton's lab over the last two decades, was a kind of molecular time travel: use statistical and biochemical methods to reconstruct and experimentally characterize ancient proteins before, during and after the evolution of the earliest forms of hemoglobin. This allowed them to identify the missing link during hemoglobin evolution - a two-part complex, consisting of two copies of a single protein, which existed before the last common ancestor of humans and sharks. This ancient two-part complex did not yet possess any of modern hemoglobin's critical properties that allow it to bind oxygen in the lungs and deliver it to distant cells in the brain, muscles and other tissues.

By introducing into this missing link protein various mutations that occurred during the next historical interval, they found that just two mutations on the protein's surface triggered formation of the four-part complex and imparted the critical changes in its oxygen-binding function.

The traditional view of the evolution of biological complexity -- first proposed by Charles Darwin and elaborated recently by Richard Dawkins -- is that complexity increases gradually through a long journey of many mutations, each of which is favored by natural selection because it causes small improvements in function and fitness. The new research shows that, at the molecular level at least, new complex forms can be brought into being very quickly.

"We were blown away when we saw that such a simple mechanism could confer such complex properties," Thornton said. "This suggests that jumps in complexity can happen suddenly and even by chance during evolution, producing new molecular entities that eventually become essential to our biology."

The project began when Pillai, a graduate student in the Department of Ecology and Evolution, approached Thornton and Georg Hochberg, PhD, a postdoctoral scholar in his laboratory, with the idea that hemoglobin could be a test case to see how complex molecules evolved throughout history.

"Hemoglobin's structure and function has been studied more than perhaps any other molecule," said Pillai. "But nothing was known about how it originated during evolution. It's a great model because hemoglobin's components are part of a larger protein family in which the closest relatives don't form complexes but function in isolation. Their history can be reconstructed from the sequences of its modern descendants, and there are great laboratory tools for characterizing their properties."

Thornton said that Pillai's idea was "brilliant, and it inspired a massive amount of experimental work by Arvind and the rest of the team." Speculation about how hemoglobin might have evolved goes back at least 60 years to Linus Pauling and Max Perutz, the founding fathers of protein biochemistry, but until now there was no way to study the problem experimentally.

Analysis of the ancient proteins' atomic structures showed how the two mutations took advantage of even more ancient features to assemble the intermediate two-part complex into the four-part complex. The mutations introduced two changes on the protein surface that allowed it to bind tightly to the surface of the other protein, which remained unchanged as it was recruited into the new interaction. Other ancient parts of the two surfaces also stuck together simply by chance, adding further strength to the interaction that was triggered by the two new mutations. Those older elements, Thornton pointed out, and even the two-part complex itself, must have existed then by chance, rather than because they enhanced the protein's final structure or function, because they evolved before those properties came into being.

Perhaps the most surprising result was that the two critical mutations, by inducing formation of the four-part structure, also triggered the critical changes in the complex's oxygen-binding functions. Hemoglobin can perform its physiological function because its affinity for oxygen is high enough to bind oxygen in the lungs, but low enough to release it in the tissues elsewhere in the body. It also binds oxygen cooperatively: When one of the four components takes up a molecule of oxygen, the other components tend to do the same - and this happens in the reverse direction, as well -- so the whole complex becomes even more effective at recruiting oxygen and releasing it in the right places.

Hemoglobin's ancient precursors - including the missing link two-part complex - bound oxygen too tightly and were not cooperative, so they could not have effectively performed the oxygen-exchange function. The researchers found that the two key mutations not only conferred the four-part structure but also imparted hemoglobin's critical oxygen-binding properties. Although the mutations are on the part of the protein's surface that assemble the complex together - not at its oxygen-binding site - the two regions are connected by an ancient string of amino acids found in all members of the globin protein family. When the four-part complex assembles, this string moves, and the oxygen-binding site is reshaped in a way that makes it bind oxygen more loosely. And when one component of the hemoglobin complex does bind oxygen, the string moves back, reshaping the surface that binds the neighboring proteins together, which allows the neighbor to get better at binding oxygen, too. In this way, complex functional properties appeared as an immediate side effect when hemoglobin's ability to assemble first evolved.

"Imagine if those two mutations never occurred, or if the structural features that they took advantage of weren't in place at the time," Thornton said. "Hemoglobin as we know it would not have evolved, and neither would many of the subsequent innovations that depend on efficient oxygen transport, like rapid metabolism and the ability to grow much larger and move much faster than our ancient marine ancestors."

The study will be released on May 20, 2020, on the Nature website and on May 28 in the journal's print issue. Co-authors along with Pillai, Hochberg and Thornton include University of Chicago graduate student Carlos Cortez-Romero, Yang Liu and Arthur Laganowsky of Texas A&M University, Anthony Signore and Jay F. Storz of University of Nebraska-Lincoln, and Shane Chandler and Justin Benesch of Oxford University (UK).

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Researchers reveal origins of complex hemoglobin by resurrecting ancient proteins - Science Codex

University of Oregon Department of Human Physiology Approved for Funding from ARCS Foundation – Yahoo Finance

LaGrange, GA, May 19, 2020 (GLOBE NEWSWIRE) -- ARCS Foundation is pleased to announce the addition ofUniversity of OregonsDepartment of Human Physiologyto its approved departments for funding.

During ARCS January 2020 National Board Meeting in Tempe, Arizona, the National University Relations Committee approved adding this cutting-edge graduate program to the departments already approved by ARCS. This department marks the 614th program of study endorsed for ARCS Scholar Award funding across 49 top-ranking US universities for science, technology, engineering, and medical research.

The Department of Human Physiology provides graduate students with training in human physiology and anatomy that will prepare them for careers in medicine, allied health professions, and biomedical research. According to Hal Sadofsky, Divisional Dean of Natural Sciences at University of Oregon, the departments graduate students are on the frontlines of important microbiological and physiological breakthroughs.

The work these students are doing ranges from research that will help understand how cardiovascular systems change when people age, to the neuroscience of breath control, Parkinsons and other movement disorders, to heart function and the role of exercise in human health and musculoskeletal function. In the lab, students use both physiological and engineering methods to evaluate human subjects, as well as animal models related to human physiology.

Some of the programs current research focuses on human adaptations to environmental extremes such as high altitude and hot or cold temperatures; effect of age-associated changes in blood vessels on the risk of atherosclerosis; and use of environmental stressors such as heat to induce therapeutic benefits in patients.

The departments endorsement by ARCS Foundation is both a boost to the individual students who will receive ARCS Scholar Awards and a vote of confidence in a department were committed to advancing, Sadofsky says. University of Oregon is honored by the attention of ARCS Foundation.

To read the full list of ARCS university partners, follow thislink.

#

About ARCS Foundation: ARCS Foundation is a national nonprofit volunteer womens organization that promotes US competitiveness by providing financial awards to academically outstanding US citizens studying to complete degrees in science, technology, engineering, mathematics (STEM), and health disciplines at 49 of the nations leading research universities. The organization has awarded more than $115 million to more than 10,500 scholars since 1958. ARCS Foundation Scholars have produced thousands of research publications and patents, secured billions in grant funding, started science-related companies, and played a significant role in teaching and mentoring young people in the STEM pipeline. More information is available at arcsfoundation.org.

Rebekah LeeARCS Foundation Inc.706-407-2266rlee@asginfo.net

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University of Oregon Department of Human Physiology Approved for Funding from ARCS Foundation - Yahoo Finance

Global warming now pushing heat into territory humans cannot tolerate – The Conversation UK

The explosive growth and success of human society over the past 10,000 years has been underpinned by a distinct range of climate conditions. But the range of weather humans can encounter on Earth the climate envelope is shifting as the planet warms, and conditions entirely new to civilisation could emerge in the coming decades. Even with modern technology, this should not be taken lightly.

Being able to regulate our temperature has played a key role in enabling humans to dominate the planet. Walking on two legs, without fur, and with a sweat-based cooling system, were well designed to beat the heat. But hot weather already limits our ability to work and stay healthy. In fact, our physiology places bounds on the level of heat and humidity we can cope with.

The normal temperature you see reported on weather forecasts is called the drybulb temperature. Once that rises above about 35C, the body must rely on evaporating water (mainly through sweating) to dissipate heat. The wetbulb temperature is a measure that includes the chilling effect from evaporation on a thermometer, so it is normally much lower than the drybulb temperature. It indicates how efficiently our sweat-based cooling system can work.

Once the wetbulb temperature crosses about 35C, the air is so hot and humid that not even sweating can lower your body temperature to a safe level. With continued exposure above this threshold, death by overheating can follow.

A 35C limit may sound modest, but it isnt. When the UK sweltered with a record drybulb temperature of 38.7C in July 2019, the wetbulb temperature in Cambridge was no more than 24C. Even in Karachis killer heatwave of 2015, the wetbulb temperature stayed below 30C. In fact, outside a steam room, few people have encountered anything close to 35C. It has mostly been beyond Earths climate envelope as human society has developed.

But our recent research shows that the 35C limit is drawing closer, leaving an ever-shrinking safety margin for the hottest and most humid places on Earth.

Read more: Will three billion people really live in temperatures as hot as the Sahara by 2070?

Modelling studies had already indicated that wetbulb temperatures could regularly cross 35C if the world sails past the 2C warming limit set out in the Paris climate agreement in 2015, with The Persian Gulf, South Asia and North China Plain on the frontline of deadly humid heat.

Our analysis of wetbulb temperatures from 1979-2017 did not disagree with these warnings about what may be to come. But whereas past studies had looked at relatively large regions (on the scale of major metropolitan areas), we also examined thousands of weather station records worldwide and saw that, at this more local scale, many sites were closing in much more rapidly on the 35C limit. The frequency of punishing wetbulb temperatures (above 31C, for example) has more than doubled worldwide since 1979, and in some of the hottest and most humid places on Earth, like the coastal United Arab Emirates, wetbulb temperatures have already flickered past 35C. The climate envelope is pushing into territory where our physiology cannot follow.

The consequences of crossing 35C, however brief, have perhaps been mainly symbolic so far, as residents of the hottest places are used to riding out extreme heat by sheltering in air-conditioned spaces. But relying on artificial cooling to cope with the growing heat would supercharge energy demand and leave many people dangerously exposed to power failures. It would also abandon the most vulnerable members of society and doesnt help those who have to venture outside.

The only way to avoid being carried further and more frequently into uncharted heat territory is to reduce greenhouse gas emissions to net zero. The economic slowdown during the coronavirus pandemic is expected to slash emissions by 4-7% in 2020, bringing them close to where global emissions were in 2010. But concentrations of greenhouse gases are still rising rapidly in the atmosphere. We must also adapt where possible, by encouraging simple behavioural changes (like avoiding outdoor daytime activity) and by ramping up emergency response plans when heat extremes are imminent. Such steps will help to buy time against the inexorable forward march of the Earths climate envelope.

We hope that our research illuminates some of the challenges that may await us as global temperatures rise. The emergence of unprecedented heat and humidity beyond what our physiology can tolerate is just a portion of what could be in store. An even warmer and wetter world risks generating climate extremes beyond any human experience, including the potential for a whole host of unknown unknowns.

We hope that the sense of vulnerability to surprises left by COVID-19 invigorates global commitments to reaching carbon neutrality recognising the value in preserving conditions that are somewhat familiar, rather than risking what may be waiting in a very novel climate ahead.

Click here to subscribe to our climate action newsletter. Climate change is inevitable. Our response to it isnt.

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Global warming now pushing heat into territory humans cannot tolerate - The Conversation UK

Don’t miss: The science of taking a stroll – New Scientist News

New Scientist's weekly round-up of the best books, films, TV series, games and more that you shouldn't miss

Kiliii Yuyan/The British Museum

Arctic: culture and climate is an exhibition at the British Museum covering everything from 28,000-year-old mammoth ivory jewellery to modern snow mobiles. Though it has been postponed, you can now view it online.

ABC/Matthias Clamer

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Marvels Agents of SHIELD sees the always affable Clark Gregg return as agent Phil Coulson for one last ride. The final, time-tripping series of Marvels most successful foray into television will be available on ABC and Netflix from 27 May.

The Science of Walking is all about how there is more to taking a stroll than meets the eye. Physiology, neurology, anthropology and psychiatry all feature in Andreas Mayers fascinating account of an everyday activity.

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Study: Yoga may ease symptoms of depression – WXII The Triad

Weekly sessions of yoga may ease depressive symptoms in people with other mental health issues, according to a systematic review and meta-analysis of existing research."This is a great result to now encourage people who might be thinking about trying yoga that there's some scientific evidence that it can be effective for helping reduce depressive symptoms," said exercise physiologist and study author Jacinta Brinsley, a doctoral candidate at the University of South Australia.Depression is often associated with other mental health conditions. For example, 20 to 40% of people diagnosed with schizophrenia and 72% of people diagnosed with lifetime anxiety also suffer from depression."Exercise has always been a great strategy for people struggling with these feelings as it boosts both mood and health. But as gyms and exercise classes of all kinds are now closed," Brinsley said, "people are looking for alternatives, and this is where yoga can help."More yoga sessions helpedThe new analysis, published Monday in the British Journal of Sports Medicine, reviewed 19 randomized controlled clinical trials, considered one of the higher-quality methods of research, conducted in the United States, India, Japan, China, Germany and Sweden.People in the studies had a formal diagnosis of alcohol dependence, depressive and bipolar disorders, a psychosis such as schizophrenia or post-traumatic stress syndrome, called PTSD.Participants did an average of one to two weekly yoga sessions between 20 and 90 minutes long, in which at least half the session was physical movement."This is any kind of yoga where asana postures and movement are the main focus," Brinsley said. "Most yoga classes that are delivered in gyms or studios today in Western society would fit this criteria. The most common styles would be: Vinyasa, Iyengar, Ashtanga and Power Yoga."Yoga sessions were continued for an average of 2.5 months in the studies.The results showed that yoga moderately eased depressive symptoms compared with no or self-help treatment across the mental health spectrum, with some conditions benefiting more than others.The study found a moderate reduction in depressive symptoms for people diagnosed with depressive disorders and a significant reduction for those with schizophrenia. There was a small effect on alcohol use disorders but no impact on depression associated with PTSD.For those that it helped, the more yoga sessions a person did each week, the less depressed they became, according to the analysis."The study's findings suggest that the more yoga you do, the better the effect. Although we don't know the exact 'dose' you need, those who did more yoga sessions per week had greater reductions in depressive symptoms," said Laurie Hyland Robertson, the editor in chief of Yoga Therapy Today, a journal published by the International Association of Yoga Therapists.Because yoga was more effective as part of some diagnoses like schizophrenia and anxiety than others, such as PTSD, the results underscore "the importance of working with a professional who can tailor yoga practices to the individual, adapting the care plan as needed," said Robertson, who was not involved with the study.Why yoga?Yoga, of course, is a form of physical exercise, and exercise is widely recommended to help ease depression and other mental health conditions. Scientists believe exercise increases blood circulation to the brain, especially areas like the amygdala and hippocampus which both have roles in controlling motivation, mood and response to stress."We know that exercise is effective for improving mental health through a number of mechanisms, one of which is endorphins," the body's feel-good hormone, Brinsely said.Other possible mechanisms, she said, are regulation of the body's central stress response system, called the hypothalamic-pituitary-adrenal axis, as well as yoga's impact on improving sleep quality and the increase in social interaction that yoga classes can bring.But yoga is also a spiritual discipline, designed to meld body and mind. A yoga lifestyle incorporates physical postures, breath regulation and mindfulness through the practice of meditation."Yogic philosophy teaches that the body, mind and spirit are all interconnected what you do in one area, for example, a physical exercise to strengthen your leg muscles, will have an effect in all of the other areas of your system," said Robertson, who coauthored the book "Understanding Yoga Therapy: Applied Philosophy and Science for Health and Well-Being.""So we can expect that leg exercise, especially when you approach it in a mindful, purposeful way, to affect not only your quadriceps but also your emotional state, your body's physiology and even your mental outlook," she said.Mixed study resultsPsychophysiological benefits of yoga have been studied since the early 1900s, finding the practice can reduce stress, regulate emotion, boost mood and instill a sense of well-being.Stress reduction and mood regulation are obviously key to improving all sorts of mental health problems, so therapists began incorporating yoga into their treatment plans.Much of the early research on yoga as therapy occurred in India, but today research has occurred around the world. Studies have explored the benefits of yoga therapy for anxiety, depression and schizophrenia, as well as post-traumatic stress disorder (PTSD) and obsessive-compulsive disorder.A 2018 review of more than eight studies of 300 people, for example, found yoga may reduce high anxiety levels, but only short-term. An earlier 2013 study found more benefit for anxiety when interventions included at least 10 yoga sessions.And a 2019 review concluded adding yoga to existing therapy can help with treatment of anxiety disorders, particularly panic disorder.The National Institutes for Health, however, said that many of the studies that have been done on yoga included "only small numbers of people and haven't been of high quality. Therefore, in most instances, we can only say that yoga has shown promise for particular health uses, not that it's been proven to help."Brinsley said the new analysis however, differs from previous reviews as it includes a range of mental disorder diagnoses and thus provides a more comprehensive assessment of the potential benefits for depressive symptoms."A study like this one is definitely exciting for those of us in the professional yoga world," Robertson said."We know that many people with depression don't get better, or don't get completely better, with medications or other traditional therapy or they don't want to use these treatments for a variety of reasons so effective options to complement existing methods are urgently needed to help people suffering with depression."

Weekly sessions of yoga may ease depressive symptoms in people with other mental health issues, according to a systematic review and meta-analysis of existing research.

"This is a great result to now encourage people who might be thinking about trying yoga that there's some scientific evidence that it can be effective for helping reduce depressive symptoms," said exercise physiologist and study author Jacinta Brinsley, a doctoral candidate at the University of South Australia.

Depression is often associated with other mental health conditions. For example, 20 to 40% of people diagnosed with schizophrenia and 72% of people diagnosed with lifetime anxiety also suffer from depression.

"Exercise has always been a great strategy for people struggling with these feelings as it boosts both mood and health. But as gyms and exercise classes of all kinds are now closed," Brinsley said, "people are looking for alternatives, and this is where yoga can help."

The new analysis, published Monday in the British Journal of Sports Medicine, reviewed 19 randomized controlled clinical trials, considered one of the higher-quality methods of research, conducted in the United States, India, Japan, China, Germany and Sweden.

People in the studies had a formal diagnosis of alcohol dependence, depressive and bipolar disorders, a psychosis such as schizophrenia or post-traumatic stress syndrome, called PTSD.

Participants did an average of one to two weekly yoga sessions between 20 and 90 minutes long, in which at least half the session was physical movement.

"This is any kind of yoga where asana postures and movement are the main focus," Brinsley said. "Most yoga classes that are delivered in gyms or studios today in Western society would fit this criteria. The most common styles would be: Vinyasa, Iyengar, Ashtanga and Power Yoga."

Yoga sessions were continued for an average of 2.5 months in the studies.

The results showed that yoga moderately eased depressive symptoms compared with no or self-help treatment across the mental health spectrum, with some conditions benefiting more than others.

The study found a moderate reduction in depressive symptoms for people diagnosed with depressive disorders and a significant reduction for those with schizophrenia. There was a small effect on alcohol use disorders but no impact on depression associated with PTSD.

For those that it helped, the more yoga sessions a person did each week, the less depressed they became, according to the analysis.

"The study's findings suggest that the more yoga you do, the better the effect. Although we don't know the exact 'dose' you need, those who did more yoga sessions per week had greater reductions in depressive symptoms," said Laurie Hyland Robertson, the editor in chief of Yoga Therapy Today, a journal published by the International Association of Yoga Therapists.

Because yoga was more effective as part of some diagnoses like schizophrenia and anxiety than others, such as PTSD, the results underscore "the importance of working with a professional who can tailor yoga practices to the individual, adapting the care plan as needed," said Robertson, who was not involved with the study.

Yoga, of course, is a form of physical exercise, and exercise is widely recommended to help ease depression and other mental health conditions. Scientists believe exercise increases blood circulation to the brain, especially areas like the amygdala and hippocampus which both have roles in controlling motivation, mood and response to stress.

"We know that exercise is effective for improving mental health through a number of mechanisms, one of which is endorphins," the body's feel-good hormone, Brinsely said.

Other possible mechanisms, she said, are regulation of the body's central stress response system, called the hypothalamic-pituitary-adrenal axis, as well as yoga's impact on improving sleep quality and the increase in social interaction that yoga classes can bring.

But yoga is also a spiritual discipline, designed to meld body and mind. A yoga lifestyle incorporates physical postures, breath regulation and mindfulness through the practice of meditation.

"Yogic philosophy teaches that the body, mind and spirit are all interconnected what you do in one area, for example, a physical exercise to strengthen your leg muscles, will have an effect in all of the other areas of your system," said Robertson, who coauthored the book "Understanding Yoga Therapy: Applied Philosophy and Science for Health and Well-Being."

"So we can expect that leg exercise, especially when you approach it in a mindful, purposeful way, to affect not only your quadriceps but also your emotional state, your body's physiology and even your mental outlook," she said.

Psychophysiological benefits of yoga have been studied since the early 1900s, finding the practice can reduce stress, regulate emotion, boost mood and instill a sense of well-being.

Stress reduction and mood regulation are obviously key to improving all sorts of mental health problems, so therapists began incorporating yoga into their treatment plans.

Much of the early research on yoga as therapy occurred in India, but today research has occurred around the world. Studies have explored the benefits of yoga therapy for anxiety, depression and schizophrenia, as well as post-traumatic stress disorder (PTSD) and obsessive-compulsive disorder.

A 2018 review of more than eight studies of 300 people, for example, found yoga may reduce high anxiety levels, but only short-term. An earlier 2013 study found more benefit for anxiety when interventions included at least 10 yoga sessions.

And a 2019 review concluded adding yoga to existing therapy can help with treatment of anxiety disorders, particularly panic disorder.

The National Institutes for Health, however, said that many of the studies that have been done on yoga included "only small numbers of people and haven't been of high quality. Therefore, in most instances, we can only say that yoga has shown promise for particular health uses, not that it's been proven to help."

Brinsley said the new analysis however, differs from previous reviews as it includes a range of mental disorder diagnoses and thus provides a more comprehensive assessment of the potential benefits for depressive symptoms.

"A study like this one is definitely exciting for those of us in the professional yoga world," Robertson said.

"We know that many people with depression don't get better, or don't get completely better, with medications or other traditional therapy or they don't want to use these treatments for a variety of reasons so effective options to complement existing methods are urgently needed to help people suffering with depression."

More:
Study: Yoga may ease symptoms of depression - WXII The Triad

‘We have to try it’: Tuberculosis expert explores coronavirus vaccine research – Source

Q: The Mycobacteria Research Laboratories at CSU are known around the world for work on tuberculosis, leprosy and other mycobacterial diseases. How are you tapping into that expertise?

Jackson: Twenty-one faculty work in the Mycobacteria Research Laboratories and the combined expertise in genetics, physiology and immunology as it relates to mycobacterial infections is tremendous. Were now exploiting all of this knowledge from the MRL team.

My labs expertise is in mycobacterial genetics and physiology, which places us in a good position to generate the BCG vaccine candidates. Another researcher, Angelo Izzo, specializes in the testing of new vaccine candidates for TB and their comparison to BCG. He knows a lot about BCG and is a great resource. Dr. Mary Ann De Groote, an infectious disease clinician and mycobacterial infections specialist, currently treats COVID-19 patients in several locations across the Front Range. Finally, other MRL researchers like Marcela Henao-Tamayo, Brendan Podell, Randy Basaraba, Mercedes Gonzalez-Juarrero and Diane Ordway have longstanding experience studying the immune responses to mycobacteria, including the BCG vaccine.

The scientific environment at CSU couldnt be more optimal to undertake this vaccine project.

Link:
'We have to try it': Tuberculosis expert explores coronavirus vaccine research - Source

Knowledge and recognition: new wave biometrics – Biometric Update

This is a guest post by Ajay Bhalla, President, Cyber & Intelligence at Mastercard.

How do we know someone is who they say they are? It used to be simple. People were identified by sight, name, voice or, if needed, a trusted third party could vouch for them. We relied on a combination of known attributes and recognition to verify the identity of an individual. Only later came documents like passports, ID cards and drivers licences.

Today the question is more challenging: How do I identify someone I dont know, cant see and isnt physically present? We can exchange knowledge in the form of passwords, PINs, memorable data or personal details. But these verification methods come at a price not least the loss of privacy, inconvenience, insecurity and identity fraud.

The first wave of biometrics physical has provided a solution. Matching physical features to known attributes, whether fingerprint, face, voice or a range of emerging factors. But the new wave of biometrics behavioural provides even greater possibilities when combined with physical.

In 2023 alone, its anticipated that 37.2 billion transactions, at a value of $2 trillion, will be authenticated by biometrics. And most of those transactions are remote the individual is not present. The biometrics revolution is clearly upon us. And thats because this pivotal technology addresses a fundamental challenge of transacting in the expanding digital world it allows us to more accurately confirm we are who we say we are. Its a return to knowledge and recognition but this time the science of familiarity is powered by AI.

Enhancing physical biometrics

Physical biometrics continue to diversify, making existing solutions (e.g. fingerprint, face and voice) more secure and intelligent, and exploring new physiological credentials (e.g. palm and eye) to verify an individuals identity. Here are just a few of the developments taking hold:

Touchless fingerprint scanners These readers acquire fingerprint images using advanced 3D imaging technology without the need to touch the device. This overcomes challenges associated with sensor-based scanners, such as wet and dry fingers, ghost images left on the scanner and hygiene concerns.

Fingerprint on debit and credit cards These cards combine embedded fingerprint sensors with chip technology for dual authentication to make transactions more secure. The digital fingerprint is encrypted on the card, avoiding honey pots of sensitive information and increasing data security.

Palmprint and palm vein Quite simply, the palm is larger than the finger, meaning more distinctive features can be captured. As the contactless scanning technology improves, palmprints could become more widespread. Palm vein scanning where infrared light is used to scan unique and complex vein structures could represent a further evolution here. As an internal biometric, its harder to fake. And its based on blood flow, so has an inbuilt test of life.

Recognising behaviour

In the real world, we rely on more than just physical appearance to identify an individual. Similarly, in the digital world, we need to go beyond physical biometrics and factor in advanced technologies like AI and machine learning (ML) that recognise behavioural traits.

Consider a hypothetical example: your neighbour, Lyn, knocks on your door to borrow your lawnmower. You feel confident in lending it to her because, first, you recognise Lyn (physiology). Second, its not unexpected for you to see your neighbour at your front door (context). Third, Lyn has borrowed the mower before (history), and as a result you assess (intelligence) the risk of lending her the lawnmower as low. All of these factors combine to create a high level of confidence in that particular interaction.

In the same way, AI and ML are capable of learning to recognise behaviours relevant to the task at hand and making split-second decisions. In mobile commerce, behavioural analytics can assess the passive biometrics of how an individual interacts with their phone: how they type, swipe and navigate websites and apps. From those individual data points, a user profile can be created which is difficult for fraudsters to spoof. AI and ML solutions are also effective because they learn. The more samples they have, the smarter the identification will be. They can also be a dynamic presence. Known as continuous verification, multiple behavioural biometrics can be combined in the background to constantly verify the individual, without this additional layer of security causing any disruption at all.

Crucially, these authentication techniques dont require extensive personal information. You dont need to know Lyns date or place of birth, her criminal record, bank balance or maiden name in order to lend her the lawnmower. You just need to know enough to recognise Lyn and to be confident she can be trusted in this interaction.

Biometrics beyond transactions

It isnt just consumer transactions that are being transformed. Patient safety and privacy have long been important issues in healthcare. And with a rise in demand for contactless and virtual services, biometrics have a huge role to play, ensuring that everyone has safe access to the vital support that they need. Voice authentication for example, can be used as a far more secure and convenient login to telemedicine portals, allowing physicians to quickly and securely access patients medical records.

This forms part of a wider need for better identification in the industry. In 2007, it was revealed that over a single year, thousands of patients in the UK received the wrong treatment because of identification errors. To combat this, healthcare providers and hospitals are increasingly deploying palm vein scanning for patients and fingerprinting new-born babies and their mothers.

The high levels of security and number of checkpoints demanded in the travel sector also make it a prime focus for the application of biometrics. With the need for social distancing and hygiene of paramount importance, facial recognition and phone-based fingerprint biometrics are really coming into their own.

As employees begin to return to places of work around the world, biometric solutions will become a mainstay of working lives to enter the building, log into devices and access documents. Continuous verification will work in the background to improve employee experience, security and prevent repeat logins.

One thing is clear: we are going to see the importance of and dependence on biometrics play an exponential role in how we transact and interact moving forward. The current crisis has led to an uptick in cyber-attacks and the importance of strong authentication has come to the fore.

Effective biometrics melt into the broader experience of consumer-centric services. The advent of biometric solutions has prompted a shift from knowledge-based methods of verification to those that employ intelligent recognition replacing the password with the person. But the continued adoption of such technology is dependent on users faith in its safety. As our identity becomes increasingly digital, those of us designing the technology need to make sure were also advancing trust in it. That means employing security-by-design, an approach that places the protection of identity data at the heart of biometrics. Knowledge, recognition and security.

To learn more about biometrics, read From Password to Person: Evolution of Biometrics produced by Mastercard, in association with the International Center for Biometric Research and The Center for Education and Research in Information Assurance and Security (CERIAS) at Purdue University.

About the author

Ajay Bhalla is president of cyber and intelligence solutions for Mastercard. He leads the team that develops products or solutions that enhance safety, security and experience for consumers, merchants, partners and governments around the world. Ajay is a member of the companys management committee.

DISCLAIMER: Biometric Updates Industry Insights are submitted content. The views expressed in this post are that of the author, and dont necessarily reflect the views of Biometric Update.

authentication | behavioral biometrics | biometric identification | biometrics | contactless | digital identity | identity verification | Mastercard | secure transactions

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Knowledge and recognition: new wave biometrics - Biometric Update

‘Senolytic’ therapy blunts liver tumor progression in animal models – News-Medical.Net

Reviewed by Emily Henderson, B.Sc.May 20 2020

"Senotherapy," a treatment that uses small molecule drugs to target "senescent" cells, or those cells that no longer undergo cell division, blunts liver tumor progression in animal models according to new research from a team led by Celeste Simon, Ph.D., a professor of Cell and Developmental Biology in the Perelman School of Medicine at the University of Pennsylvania and scientific director of the Abramson Family Cancer Research Institute. The study was published in Nature Cell Biology.

This kind of therapy is not something that has been tried before with liver cancer. And in our models, so-called 'senolytic' therapy greatly reduced disease burden, even in cases with advanced disease."

Celeste Simon, Ph.D., Professor of Cell and Developmental Biology, Perelman School of Medicine at the University of Pennsylvania

Loss of the enzyme FBP1 in human liver cells significantly increases tumor growth. Previous research has shown FBP1 levels are decreased in stage 1 tumors, and further reduced as the disease progresses. In this study, Simon and her team used RNA-sequencing data to identify FBP1 as universally under-expressed in the most common form of liver cancer, hepatocelluar carcinoma, regardless of underlying causes like obesity, alcoholism, and hepatitis.

The loss of FBP1 in liver cells activates the neighboring hepatic "stellate cells"--which make up ten percent of liver mass--causing fibrosis (tissue scarring) and subsequent stellate cell senescence, both of which promote tumor growth. Researchers found that these senescent stellate cells can be selectively targeted by senolytics, including Navitoclax (already in clinical trials for other diseases, like hematological malignancies), in order to blunt tumor progression driven by liver cell-specific FBP1 loss.

The team provides the first genetic evidence for FBP1 as a bona fide metabolic tumor suppressor in the liver and that its loss in liver cells promotes the growth of tumors because of effects on other cells within the tumor microenvironment.

Using genetically engineered mouse models, the team eliminated FBP1and found the disease progressed more rapidly and tumor burden greatly increased in carcinogen-mediated, dietary, and other forms of hepatocellular carcinoma.

"The case with liver cancer is very dire, once you get beyond a certain stage there are limited, if any, treatments available," Simon said. "As obesity rates continue to increase and viral infections continue to be a problem, there is going to be an increasing surge of liver cancer which currently has few treatment options. And since FBP1 activity is also lost in renal cancer, FBP1 depletion may be generally applicable to a number of human cancers. What's unique about our senotherapy approach is that we are specifically targeting other cells in the liver tumor environment rather than the cancer cells themselves."

Next steps, according to researchers will be to begin to test these treatments in a clinical setting.

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'Senolytic' therapy blunts liver tumor progression in animal models - News-Medical.Net

Good News, We Can Activate The Cells That Keep Our Muscles From Wasting Away After 30 – ScienceAlert

Unfortunately, for those of us approaching or beyond 30 years of age - this is the point our muscles start to basically shrink away. You may think you've heard it all before, but a new review presents yet another reason we really should avoid slacking off when it comes to moving our behinds.

Amongst many other things, exercise has been shown to increase mitochondria- energy-generating organelles - within cells; it also increases blood supply, waste removal, and bone strength.

While many muscle degeneration studiesfocus on much older people, the slow decline of muscle tissue in our bodies actually begins in our 30s, with an average of between three to five percent muscle loss every year.

Thankfully, our muscles are able to regenerate, so with a bit of effort on our part, we can counteract this wastage.

Muscle growth, or regeneration after injury, involves satellite cells. When they divide into a new generation of cells, they can either become more satellite cells, or myoblasts - cells which then divide into muscle cells. When they're not used however, satellite cells go into an energy-saving dormancy.

Cellular biologist William Chen and colleagues from the University of Ottawa in Canada reviewed the literature on how these cells function, including human strength training and endurance exercise studies, as well as molecular and genetic studies on mice.

"It is evident that satellite cells are activated through various signalling pathways following exercise," the team found, with multiple studies of human training sessions indicating an increase in satellite cell proliferation.

Neglecting exercise causes problems, because like all cells, satellite cells become damaged and filled with cellular trash as the normal processes of life batter them about as they age. Even while dormant, when cellular activity is reduced, the process of keeping themselves in this state still produces cellular waste.

Thus, if satellite cells stay dormant for too long, the waste build-up can cause damage, preventing the cells from dividing and replacing themselves. Even worse, in ageing muscles, if they're not activated, satellite cells can get stuck in the dormant phase and lose all ability to divide and multiply.

This means they are no longer capable of replacing defunct muscle cells with shiny new healthy ones, or making more copies of themselves.

Healthy dormancy (quiescence) requires regular activation. (Chen et al, Open Biology, 2020)

"Physical inactivity becomes more detrimental with age as satellite cells accumulate higher levels of cellular waste and DNA damage during longer periods of deep quiescence," Chen and colleagues explain in their review.

So, giving these cells a regular prod through exercise, to remind them how to be active, helps more of them retain their full function.

However, "exercise alone does not prevent all age-related defects in skeletal muscle," the team wrote.

"The satellite cell population still diminishes to some degree over age... Regardless, lifelong resistance exercise should be pursued as the effects of [age-related skeletal muscle loss] are greatly diminished when compared with sedentary lifestyles."

The researchers point out the exact mechanisms of satellite cell replacement are not yet fully understood, nor is their behaviour during exercise. They recommend more research be focused in these directions.

With skeletal muscle making up 40 percent of our body in terms of weight, it makes sense that the condition of the bulk of these cells and their makers has huge impacts on our overall health.

Muscle strength is correlated with increased quality of life, particularly as we age. So this aspect of satellite cell biology is just one of many ways exercise helps to keep our muscles and the rest of us healthy.

This review was published in Open Biology.

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Good News, We Can Activate The Cells That Keep Our Muscles From Wasting Away After 30 - ScienceAlert

Cell biologist to study coronavirus-related infection of respiratory cells – UC Riverside

Prue Talbot, a professor of cell biology at UC Riverside, has received a seed grant to study the COVID-19-related infection of respiratory cells.

She and her team will use the funds to test the hypothesis that electronic cigarettes and nicotine increase the ACE2 receptor on respiratory epithelium, providing more binding sites for the virus and increasing the possibility of infection.

We expect our work will help clarify if the use of tobacco products makes it more likely for an infection to occur, Talbot said.

Angiotensin converting enzyme-2, or ACE2, is a special receptor on some cells that has attracted the attention of drug companies as a potential target for addressing the novel coronavirus.

The $25,000, six-month grant from the California Tobacco-Related Disease Research Program of the University of California will support the research of three graduate students.

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Cell biologist to study coronavirus-related infection of respiratory cells - UC Riverside