Friday, March 12, 2021

Unconscious biases can drive foodborne illness outbreaks, MU researchers find

Study concludes outbreak prevention policies should account for inadvertent behaviors.

UNIVERSITY OF MISSOURI-COLUMBIA

Research News

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IMAGE: HARVEY JAMES BELIEVES STUDYING UNCONSCIOUS BIASES CAN HELP RESEARCHERS LEARN HOW OUTBREAKS ARE BORN. view more 

CREDIT: UNIVERSITY OF MISSOURI

COLUMBIA, Mo. - In the midst of a pandemic that has claimed more than 2 million lives worldwide and disrupted nearly every facet of society since it appeared more than a year ago, understanding the factors that create and facilitate disease outbreaks is more important than ever. Now, researchers at the University of Missouri have determined that cognitive biases -- patterns of errors in thinking that affect judgments and behaviors, often unconsciously -- can help create and worsen foodborne disease outbreaks.

"Unethical behavior isn't always intentional; conflicts of interest and other unconscious motivations can lead people to behave in ways that help outbreaks emerge and spread," said Harvey James, associate director of the division of applied social sciences and a professor of agricultural and applied economics in the MU College of Agriculture, Food and Natural Resources (CAFNR). "If we can understand what motivates a store owner to re-open too early or a food producer to cut corners, then we can create better policies and regulations that nudge people in the right direction without restricting their freedoms."

James and Michelle Segovia, an assistant professor of agricultural and applied economics in CAFNR, were eager to apply the science of behavioral ethics to the field of food safety. Behavioral ethics examines why people make ethical and unethical decisions; to see how those choices might contribute to a foodborne disease outbreak, the researchers turned to the case of Jensen Farms.

In 2011, the Colorado cantaloupe producer was found to be responsible for an outbreak of Listeria at its packing plant that led to one of the worst foodborne illness outbreaks in U.S. history, resulting in 33 deaths across 28 states. The outbreak occurred despite Jensen Farms having recently audited their food safety procedures and installed new cleaning equipment.

To explain this contradiction, the researchers identified several forms of cognitive bias at work. Motivated blindness, for instance, encourages a person or company to advance their own interests without accounting for conflicts of interest. In the case of Jensen Farms, James and Segovia theorized that motivated blindness was to blame for the choice to hire a lenient auditor that deemed the company's food safety procedures "superior."

In addition, the researchers emphasized the unconscious nature of cognitive biases with an example of omission bias, in which the lack of action, rather than a specific harmful action, can create unfortunate consequences. Though Jensen Farms possessed equipment capable of cleaning cantaloupes with an antibacterial wash, the antibacterial function was not used prior to the outbreak.

"Jensen Farms believed they were making their cantaloupes safer even as they failed to take actions that could have prevented an outbreak," James said. "This is a perfect example of the fact that unethical behavior does not need to be a conscious act. There isn't always an easy 'villain,' so if laws and policies only address people who are intentionally propagating an outbreak, we are missing a big part of the picture. This study is a step toward recognizing the immense consequences of inadvertent and unintentional behavior."

While COVID-19 is not considered a foodborne illness, James believes that the lessons learned about cognitive biases from the study are relevant to the current pandemic. Motivated blindness, for example, could explain why some restaurants and other businesses have refused to abide by lockdown orders for fear of losing business. Herding behavior -- a bias that occurs when people follow the crowd even if they disagree with the crowd's behavior -- explains the surge in demand for certain essential items and subsequent nationwide shortages.

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The study, "Behavioral Ethics and the Incidence of Foodborne Illness Outbreaks," was published in the Journal of Agricultural and Environmental Ethics. Funding was provided by Hatch Project Number MO-AC011AC047.

Study: Political, economic, social factors affect local decisions about death penalty

CRIME AND JUSTICE RESEARCH ALLIANCE

Research News

Broad political, economic, and social factors influence disciplinary punishment. In particular, over the last half century, such considerations have shaped jurisdictions' use of the death penalty, which has declined considerably since the 1990s. A new study examined the factors associated with use of the death penalty at the county level to provide a fuller picture of what issues influence court outcomes. The study concludes that partisan politics, religious fundamentalism, and economic threat influenced local decisions about the death penalty. The study also found that the size of the African American population, which prior state-level studies have found to be associated with use of the death penalty, was not directly associated with the recent decline in the use of this punishment.

The study, by researchers at Missouri State University and American University, will appear in Criminology, a publication of the American Society of Criminology.

"It is essential to examine the local political environment and the composition of jurisdictional populations to capture the processes that influence local trial court outcomes," suggests Ethan Amidon, associate professor of criminology and criminal justice at Missouri State University, who led the study. "Although we found support for a number of perspectives that have been identified in prior state-level studies, our findings indicate that these relationships are more complex when considered at the local, decision-making level."

In the last 30 years, national reliance on the death penalty has declined across all states--from a late 20th century peak of 330 death sentences in 1994 to 32 death sentences in 2016. Most counties have also used the death penalty less.

In this study, researchers examined a variety of issues associated with the use of death sentences across three decennial periods from 1990 to 2010. They studied information from 2,572 counties or county equivalents, using information from the U.S. Census Bureau's decennial reports and its American Community Survey; they also considered information from a database that contains death sentences by county from 1991 to 2017. Prior research has studied this information primarily from a state perspective.

Among the factors examined were the percentages of people in each county who voted for the Republican presidential candidate, were religious fundamentalists (based on church membership data), were of different races and ethnicities, and were unemployed. The study measured each county's tradition of vigilantism by tallying the lynching rate in each jurisdiction.

To control for factors that could influence the use of the death penalty, the study considered several variables, including each county's number of homicides, rate of violent crime (homicides, robberies, rapes, and aggravated assaults), and rate of property crime (burglaries, larcenies, and car thefts). The study also considered total population and income inequality, as well as rates of divorce and poverty in each county.

The researchers concluded that several factors are associated with county-level reliance on the death penalty:

  • The degree of public support for Republican presidential candidates was directly associated with greater reliance on the death penalty over the study period. Given that the death penalty has declined over the last three decades, this means that the decrease in the use of this punishment was more gradual in jurisdictions with a growth in support for Republican presidential candidates, who tend to espouse law and order positions.

  • Counties with larger Protestant fundamentalist populations imposed death sentences to a greater degree, on average, than counties with smaller such populations. This contributes to a degree of persistence in the death penalty in jurisdictions where citizens remain strongly committed to fundamentalist ideologies.

  • The size of economically marginalized populations within counties was directly related to greater reliance on the death penalty. This relationship inverted once the size of the unemployed population reached a tipping point.

  • Neither the size of a county's African American and Hispanic populations nor its history of vigilantism was directly related to its jurisdictional use of the death penalty. However, the size of the African American population was associated indirectly with reliance on the death penalty in terms of its influence on jurisdictional unemployment.

The authors note their study is missing data on factors such as the percentage of religious fundamentalists and crime rate variables, and a few of the measurement procedures used by some of their sources changed across the study period, including those that provided crime data.

"Even as reliance on capital punishment has waned in the early 21st century, the nature and severity of penal punishments have continued to be shaped by the broader social, political, and economic landscapes in which they are immersed," according to John Eassey, a researcher in residence in the Justices Programs Office at American University, who coauthored the study.

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Molecule with potential to treat multiple sclerosis passes toxicology testing in zebrafish

Study conducted at a FAPESP-supported research center shows that anti-inflammatory peptide TnP could lead to drug development. Zebrafish Danio rerio is a popular aquarium species widely used as a model for in vivo trials in drug development.

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO

Research New

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IMAGE: IN ADDITION TO PROVING THE PEPTIDE'S SAFETY WHEN USED AS AN ANTI-INFLAMMATORY AGENT, THE RESULTS REINFORCE THE IMPORTANCE OF D. RERIO AS AN ALTERNATIVE ANIMAL MODEL FOR DRUG DEVELOPMENT THAT... view more 

CREDIT: INSTITUTO BUTANTAN

Brazilian researchers who study a native venomous fish have confirmed a route to drug development for the treatment of chronic inflammatory diseases such as multiple sclerosis and asthma.

The venomous toadfish Thalassophryne nattereri contains a peptide (TnP) with anti-inflammatory and anti-allergic potential. Confirmation of this potential has now come via the zebrafish Danio rerio, a popular aquarium species native to South Asia that shares 70% of its genome with humans and is widely used as a model for in vivo trials in drug development.

The researchers tested TnP in D. rerio to measure its toxicity. In a little over a year, their research showed that the peptide is safe. It did not cause cardiac dysfunction or neurological problems in the toxicity tests they performed.

The study was conducted at Butantan Institute's Special Laboratory for Applied Toxinology in São Paulo (Brazil) by researchers affiliated with the Center for Research on Toxins, Immune Response and Cell Signaling (CeTICS), one of the Research, Innovation and Dissemination Centers (RIDCs) funded by São Paulo Research Foundation - FAPESP.

In addition to proving the peptide's safety when used as an anti-inflammatory agent, the results reinforce the importance of D. rerio as an alternative animal model for drug development that saves time and money.

Preclinical trials are important to prove the efficacy (therapeutic activity) of molecules in vivo and to evaluate adverse effects and safety. In drug discovery, 98% of the compounds tested in animals are abandoned before clinical tests.

In an article published in Toxicology Reports, the researchers say peptides represent about 2% of the world drug market but even so account for a market share worth about USD 20 billion.

"The results highlight a wide therapeutic index for TnP with non-lethal and safe doses from 1?nm [nanometer] to 10?μm [micrometer], without causing neurotoxicity or cardiotoxic effect. The low frequency of abnormalities [caused] by TnP was associated with the high safety of the molecule and the developing embryo's ability to process and eliminate it. TnP crossed the blood-brain barrier without disturbing the normal architecture of forebrain, midbrain, and hindbrain [the three main developmental divisions of the brain]," the authors write.

The study resulted from the master's research of João Batista-Filho, supervised by Mônica Lopes Ferreira and Carla Lima da Silva. It used the Zebrafish Platform, launched in 2015 by CeTICS (read more at: agencia.fapesp.br/22156/).

The Zebrafish Platform is available to scientists for research, offers courses on zebrafish management and biology, and does scientific dissemination. More than 160 researchers at 100 private and public institutions currently collaborate via Zebrafish Network, also created by CeTiCS.

"Science dies out without investment and FAPESP's commitment to this platform is now bearing fruit," Ferreira told. "Cutting-edge research is being done here, alongside preclinical trials that are important both to academia and industry."

Zebrafish have been used for decades in trials held in other countries, she said, adding that Brazil is closing the gap and that the animal's rapid life cycle accelerates the research process.

The freshwater species is easy to manage, reproducing fast, developing from egg to larva in 48-72 hours, and reaching adulthood at only three months of age. Zebrafish embryos are transparent and the effect of a compound on the animal's organs can easily be observed, for example.

History

Ferreira and collaborators discovered TnP (T. nattereri peptide) in 2007. Meanwhile, Lima had standardized laboratory tests to evaluate multiple sclerosis in rodents. The two researchers decided to work together to test TnP's efficacy in treatment of the disease, concluding for its anti-inflammatory and immunomodulatory functions.

The TnP family encompasses synthetic peptides containing a sequence of 13 L-amino acids in their primary structure. Synthetic products derived from TnP have been patented in at least nine countries including the US, India and Japan, as well as the EU. In Brazil, a patent application has been filed in partnership with the pharmaceutical company Cristália.

Studies conducted by the group with mice between 2013 and 2015 had already demonstrated that TnP can treat multiple sclerosis, delaying the onset of severe symptoms and improving clinical signs of the disease.

Multiple sclerosis is a chronic autoimmune inflammatory disorder of the central nervous system, in which the immune system attacks the myelin sheath that protects nerve fibers in the brain, spinal cord and optic nerves, disrupting communication with the rest of the organism. It can cause muscle weakness, vision loss, pain, and impaired motor coordination. It affects some 2.5 million people worldwide, including about 35,000 in Brazil, according to the Brazilian Multiple Sclerosis Association (ABEM).

Safety

In the article published in Toxicology Reports, the researchers say drug-induced cardiotoxicity is the main reason for drug withdrawal from the market. "For instance, between 1994 and 2006, 45% of discontinued medications had adverse effects such as cardiac ischemia and arhythmogenesis. In this line zebrafish has emerged as a model organism for cardiovascular research, investigating gene function and modeling a variety of human disease side-effects of chemotherapeutic drugs or particularly to screen drug candidates," they note.

For Batista-Filho, the study provides more evidence for the value of the zebrafish model in preclinical research. "It doesn't substitute mice, but avoids future expense on molecules that may not be promising or prove too toxic in previous phases," he said when asked about reservations regarding the use of zebrafish in trials compared with rodents.

Advocating investment in science and research in Brazil, Batista-Filho said he was overjoyed to achieve publication of his master's dissertation in a scientific journal. "I'm delighted," he said. "Publication is a milestone for any scientist. You focus on the good that research can do, but publication is recognition for the team's hard work."

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About São Paulo Research Foundation (FAPESP)

The São Paulo Research Foundation (FAPESP) is a public institution with the mission of supporting scientific research in all fields of knowledge by awarding scholarships, fellowships and grants to investigators linked with higher education and research institutions in the State of São Paulo, Brazil. FAPESP is aware that the very best research can only be done by working with the best researchers internationally. Therefore, it has established partnerships with funding agencies, higher education, private companies, and research organizations in other countries known for the quality of their research and has been encouraging scientists funded by its grants to further develop their international collaboration. You can learn more about FAPESP at http://www.fapesp.br/en and visit FAPESP news agency at http://www.agencia.fapesp.br/en to keep updated with the latest scientific breakthroughs FAPESP helps achieve through its many programs, awards and research centers. You may also subscribe to FAPESP news agency at http://agencia.fapesp.br/subscribe.

Rising antiparasitic drug cost in U.S. leads to higher patient costs, decreased quality of care


Rural areas have higher prevalence of the diseases that use these drugs for treatment

AMERICAN JOURNAL OF TROPICAL MEDICINE AND HYGIENE

Research News

New study finds the skyrocketing cost of drugs in U.S. used to treat hookworm and other soil-transmitted parasites increases patient costs, suggests decreased quality of care

A new study finds that the increasingly high prices in the United States of the drugs used to treat three soil-transmitted helminth infections--hookworm, roundworm (ascariasis), and whipworm (trichuriasis)--is not only the major driver for the increase in costs to patients with either Medicaid or private insurance, but it also may have a damaging impact on the quality-of-care patients receive as clinicians shift their prescribing patterns to more affordable yet less-effective medicines covered by insurance.

The drugs of choice recommended by the Centers for Disease Control for treating these infections--albendazole and mebendazole--have seen some of the highest price increases of drugs on the U.S. market. There are limited alternative drugs available.

The peer-reviewed study was published this week in the American Journal of Tropical Medicine and Hygiene (AJTMH) by a team of social scientists and infectious disease experts at the U.S. Centers for Disease Control (CDC), the University at Albany - SUNY, Northeastern University, HealthPartners Institute, and the University of Minnesota.

The researchers reported that "the percentages of patients prescribed the appropriate standard of care treatment with private insurance for all three infections during the study period was consistently less than 70%, and in the case of hookworm diagnosed in those with private insurance, less than 30% of patients received the standard of care prescription drug. This rate of appropriate treatment is disturbingly low. "

While these neglected parasitic worm infections are relatively uncommon across the U.S., there are pockets where the diseases are more prevalent, particularly rural areas with limited plumbing and poor sanitation. A study published in 2017 in AJTMH found that more than one in three people sampled in a poor area of Alabama tested positive for traces of hookworm, a gastrointestinal parasite though to have been eradicated from the U.S. decades ago.

 

Adaptation, not irrigation recommended for Midwest corn farmers

MICHIGAN STATE UNIVERSITY

Research News

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IMAGE: BASSO ANALYZED CLIMATE TRENDS FROM WEATHER STATIONS FROM ACROSS THE MIDWEST DATING AS FAR BACK AS 1894. view more 

CREDIT: PHOTO BY JESSE GARDNER ON UNSPLASH

Farmers in the Midwest may be able to bypass the warming climate not by getting more water for their crops, but instead by adapting to climate change through soil management says a new study from Michigan State University.

"The Midwest supplies 30% of the world's corn and soybeans," said Bruno Basso, an ecosystems scientist and MSU Foundation Professor in the Department of Earth and Environmental Sciences within the College of Natural Science. "These crops are sensitive to temperature and water changes."

Previous studies have suggested that by 2050, the Midwest will need about 35% more water to sustain its current levels of corn and soybean yields. But research done by Basso and colleagues found that the data does not support this idea. The Midwest is in a unique location that typically receives ample rainfall and has deep soil, ideal for farming.

The research was published March 5 in Nature Communications.

Basso, with his lab members Rafael Martinez-Feria and Lydia Rill, and MSU Distinguished Emeritus Professor Joe Ritchie, analyzed climate trends from weather stations from across the Midwest dating as far back as 1894.

The researchers found that average daily temperatures during the summer have increased throughout much of the Midwest. But they also discovered that daily minimum air temperatures, usually during the nighttime, have increased while the daily maximum daytime temperatures have decreased.

These trends held true during the full, 120-year weather record studied or during more 30- to 60-year time periods.

"Warmer temperatures generally mean that crops need more water, but that doesn't seem to be the case in the Midwest," said Basso, who is also a faculty member at MSU's W.K. Kellogg Biological Station and AgBioResearch. "Because the increase in average temperature comes from higher minimum temperatures -- the temperature at which dew is formed -- this means that the air is also becoming more humid."

Ritchie, one of the co-authors on the study, said that these two contrasting trends have canceled each other out, and that so far, the potential crop water demand has remained relatively unchanged despite the warming climate.

Data were entered into computer simulation models developed at MSU by Basso and Ritchie to gauge the impact if these trends continued into 2050. Martinez-Feria, another co-author on the study, said that in the worst-case scenario, the amount of water needed by crops could increase by an average of 2.5%. More conservative estimates indicate that water needs would remain practically the same, because summer rainfall would also increase.

Basso cautions that although crop water needs may be similar in the future, increasing air temperatures also make droughts more likely to occur. "The impact climate change will have on the Midwest is still uncertain," he said. "We are still at risk of droughts."

But instead of installing extensive and expensive irrigation systems that might only pay off under extreme droughts, Bassos advises farmers to invest in technology and regenerative soil practices that make plants more resilient and adaptable to climate change.

"As we continue to learn more about weather and its increased variability, farmers need to adapt, which they are starting to do," Basso said. "I feel optimistic that with the progress made in regenerative practices, genetics and digital technology solutions, we can adapt to climate and have a better chance of winning this battle against our own previous mistakes."


Now is the time to study impact of pandemic on mothers and babies

University of Houston researcher issues a call for new methods to combat stress and social isolation

UNIVERSITY OF HOUSTON

Research News

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IMAGE: IN A NEW STUDY, AMANDA VENTA, ASSOCIATE PROFESSOR OF PSYCHOLOGY AT UNIVERSITY OF HOUSTON, URGES MORE SUPPORT FOR EXPECTANT MOMS WHO ARE SOCIALLY ISOLATED AND UNDER STRESS DURING NATURAL DISASTERS... view more 

CREDIT: UNIVERSITY OF HOUSTON

If past natural disasters have taught us anything about their effects on pregnant women and developing babies, it is to pay close attention, for the added stress will surely have an impact on them. Amanda Venta, associate professor of psychology at the University of Houston, is sounding that alarm as it relates to the COVID-19 pandemic in a newly released study published in Child Psychiatry & Human Development.

"There is strong evidence to suggest that the coronavirus pandemic will affect mothers and infants through immune pathways that, in previous research, have been shown to link stress and social isolation during the pre- and post-natal periods with deficits in maternal mental health and infant well-being and development across developmental stages," reports Venta.

Research is clear about the link between the mind and body and maternal stress having toxic inflammatory effects on both mothers and infants.

"A pregnant mom's immune system translates to her baby, so when she releases inflammatory cytokines, which can be in response to stress, those get passed to the baby both before birth and through breast milk," said Venta. "When we see elevated inflammatory cytokines in babies, we know there is increased risk for later developmental problems."

One of the studies Venta used in her summary was "Project Ice Storm," which examined effects of in utero exposure to varying levels of prenatal maternal stress resulting from the 1998 Quebec ice storm, which left millions of people without electricity for up to 40 days. Follow-ups with children until the age of 19 showed significant effects on temperament, behavior, motor development, physical development, IQ, attention and language development.

And though there is no current data yet linking mothers' stress during the COVID-19 pandemic to infant outcomes, now is the time to start taking stock, according to Venta.

"We know that when moms are socially isolated it increases stress. We need to do something from a research standpoint, and we need to do things differently clinically. When moms are supported by their partner, family and friends, or even their doctor, those kinds of social relationships can reduce inflammation," said Venta, who speaks from the trenches. She is five months pregnant and her Ob/Gyn has yet to ask if she is isolated, stressed, or feels supported-- questions that are currently far outside the standard of prenatal care.

The report concludes that research on the psychological and biological cascades of stress and social isolation on mothers and infants is needed immediately and recommends specific areas for future research:

  • Assess infant developmental and maternal mental health outcomes during COVID-19 and in the aftermath
  • Examine mechanisms of resilience and risk
  • Pilot interventions for immediate use

"We must move quickly to understand the risk of long-term adversity for these families and, relatedly, identify protective factors that can be leveraged to mitigate the catastrophe of adverse outcomes for this birth cohort," said Venta.

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Plants as protein factories: Antioxidant boosts the yield of valuable biologics

Research team at University of Tsukuba finds spraying leaves with vitamin C 
prevents cell death and enhances production of high-value pharmaceutical proteins in plants

UNIVERSITY OF TSUKUBA



IMAGE: A TEAM AT THE UNIVERSITY OF TSUKUBA HAS DISCOVERED THAT SPRAYING PLANT LEAVES WITH HIGH CONCENTRATIONS OF THE ANTIOXIDANT ASCORBIC ACID (VITAMIN C) CAN DRAMATICALLY INCREASE THE YIELD OF FOREIGN... view more

CREDIT: UNIVERSITY OF TSUKUBA

Tsukuba, Japan - Producing high-value pharmaceutical proteins in plants--sometimes called "molecular pharming"--offers advantages over some other manufacturing methods, notably the low cost and ease of scaling up production to meet demand. But expressing large quantities of "foreign" proteins in plants can also sometimes lead to problems, such as dehydration and premature cell death in the leaves.

Now a team led by Professor Kenji Miura of the University of Tsukuba has discovered that spraying leaves with high concentrations of the antioxidant ascorbic acid (vitamin C) can increase protein production three-fold or even more. They recently published their findings in Plant Physiology.

The team worked with a close relative of tobacco, Nicotiana benthamiana, which is widely used for this type of application as the plants grow well in greenhouses and it is relatively straightforward to introduce foreign genes. The researchers induced the leaves to produce new proteins by a process known as agro-infiltration: the leaves are injected with bacteria called Agrobacterium that carry the DNA encoding the proteins of interest into plant cells. The leaf cells decode the DNA and use it to make the new proteins.

While some foreign proteins cause few problems for the plant cells, others can lead to side-effects that seem to be caused by an excess of damaging reactive oxygen species. Applying ascorbic acid as an antioxidant counteracts the harmful effects and allows substantially higher rates of protein production.

"We tested the method with several different types of proteins," says Professor Miura. "We used green fluorescent protein (a common tool in the lab) and two human proteins, called Cul1 and an F-box protein. Spraying the leaves with ascorbic acid made a surprisingly big difference, but only when we applied high concentrations of the antioxidant. It seems that ascorbic acid prevents cell death and also reduces the breakdown of the foreign proteins, so the yield is higher."

The team went on to successfully produce both the heavy chain and light chain of an antibody protein. They showed that the chains produced in leaves assembled correctly into a functional antibody (comprising two heavy and two light chains), and ascorbic acid did not interfere with its immunological properties.

"We are delighted by our results," says Professor Miura. "As this method of spraying the leaves is so simple, we expect it can be widely adopted and should help to improve the production of many types of valuable proteins for research and medical applications."

The article, "Prevention of necrosis caused by transient expression in Nicotiana benthamiana by application of ascorbic acid", was recently published in Plant Physiology at doi.org/10.1093/plphys/kiab102.

New study highlights first infection of human cells during spaceflight

ARIZONA STATE UNIVERSITY

Research News

Astronauts face many challenges to their health, due to the exceptional conditions of spaceflight. Among these are a variety of infectious microbes that can attack their suppressed immune systems.

Now, in the first study of its kind, Cheryl Nickerson, lead author Jennifer Barrila and their colleagues describe the infection of human cells by the intestinal pathogen Salmonella Typhimurium during spaceflight. They show how the microgravity environment of spaceflight changes the molecular profile of human intestinal cells and how these expression patterns are further changed in response to infection. In another first, the researchers were also able to detect molecular changes in the bacterial pathogen while inside the infected host cells.

The results offer fresh insights into the infection process and may lead to novel methods for combatting invasive pathogens during spaceflight and under less exotic conditions here on earth.

The results of their efforts appear in the current issue of the Nature Publishing Group journal npj Microgravity.

Mission control

In the study, human intestinal epithelial cells were cultured aboard Space Shuttle mission STS-131, where a subset of the cultures were either infected with Salmonella or remained as uninfected controls.

The new research uncovered global alterations in RNA and protein expression in human cells and RNA expression in bacterial cells compared with ground-based control samples and reinforces the team's previous findings that spaceflight can increase infectious disease potential.

Nickerson and Barrila, researchers in the Biodesign Center for Fundamental and Applied Microbiomics, along with their colleagues, have been using spaceflight as a unique experimental tool to study how changes in physical forces, like those associated with the microgravity environment, can alter the responses of both the host and pathogen during infection. Nickerson is also a professor in the School of Life Sciences at ASU.

In an earlier series of pioneering spaceflight and ground-based spaceflight analogue studies, Nickerson's team demonstrated that the spaceflight environment can intensify the disease-causing properties or virulence of pathogenic organisms like Salmonella in ways that were not observed when the same organism was cultured under conventional conditions in the laboratory.

The studies provided clues as to the underlying mechanisms of the heightened virulence and how it might be tamed or outwitted. However, these studies were done when only the Salmonella were grown in spaceflight and the infections were done when the bacteria were returned to Earth.

"We appreciate the opportunity that NASA provided our team to study the entire infection process in spaceflight, which is providing new insight into the mechanobiology of infectious disease that can be used to protect astronaut health and mitigate infectious disease risks," Nickerson says of the new study. "This becomes increasingly important as we transition to longer human exploration missions that are further away from our planet."

Probing a familiar adversary

Salmonella strains known to infect humans continue to ravage society, as they have since antiquity, causing around 1.35 million foodborne infections, 26,500 hospitalizations, and 420 deaths in the United States every year, according to the Centers for Disease Control. The pathogen enters the human body through the ingestion of contaminated food and water, where it attaches and invades into intestinal tissue. The infection process is a dynamic dance between host and microbe, its rhythm dictated by the biological and physical cues present in the tissue's environment.

Despite decades of intensive research, scientists still have much to learn about the subtleties of pathogenic infection of human cells. Invasive bacteria like Salmonella have evolved sophisticated countermeasures to human defenses, allowing them to flourish under hostile conditions in the human stomach and intestine to stealthily evade the immune system, making them highly effective agents of disease.

The issue is of particular medical concern for astronauts during spaceflight missions. Their immune systems and gastrointestinal function are altered by the rigors of space travel, while the effects of low gravity and other variables of the spaceflight environment can intensify the disease-causing properties of hitchhiking microbes, like Salmonella. This combination of factors poses unique risks for space travelers working hundreds of miles above the earth--far removed from hospitals and appropriate medical care.

As technology advances, it is expected that space travel will become more frequent--for space exploration, life sciences research, and even as a leisure activity (for those who can afford it). Further, extended missions with human crews are on the horizon for NASA and perhaps space-voyaging companies like SpaceX, including trips to the Moon and Mars. A failure to keep bacterial infections at bay could have dire consequences.

Hide and Seq

In the current study, human intestinal epithelial cells, the prime target for invasive Salmonella bacteria, were infected with Salmonella during spaceflight. The researchers were keen to examine how the spaceflight setting affected the transcription of human and bacterial DNA into RNA, as well as the expression of the resulting suite of human proteins produced from the RNA code, products of a process known as translation.

The research involved the close examination of transcriptional profiles of both the pathogenic Salmonella and the human cells they attack, as well as the protein expression profiles of the human cells to gauge the effects of the spaceflight environment on the host-pathogen dynamic.

To accomplish this, researchers used a revolutionary method known as dual RNA-Seq, which applied deep sequencing technology to enable their evaluation of host and pathogen behavior under microgravity during the infection process and permitted a comparison with the team's previous experiments conducted aboard the Space Shuttle.

The host and pathogen data recovered from spaceflight experiments were compared with those obtained when cells were grown on earth in identical hardware and culture conditions (e.g., media, temperature).

Earth and sky

Earlier studies by Nickerson and her colleagues demonstrated that ground-based spaceflight analogue cultures of Salmonella exhibited global changes in their transcriptional and proteomic (protein) expression, heightened virulence, and improved stress resistance--findings similar to those produced during their experiments on STS-115 and STS-123 Space Shuttle missions.

However, these previous spaceflight studies were done when only the Salmonella were grown in spaceflight and the infections were done when the bacteria were returned to Earth.

In contrast, the new study explores for the first time, a co-culture of human cells and pathogen during spaceflight, providing a unique window into the infection process. The experiment, called STL-IMMUNE, was part of the Space Tissue Loss payload carried aboard STS-131, one of the last four missions of the Space Shuttle prior to its retirement.

The human intestinal epithelial cells were launched into space (or maintained in a laboratory at the Kennedy Space Center for ground controls) in three-dimensional (3-D) tissue culture systems called hollow fiber bioreactors. The hollow fiber bioreactors each contained hundreds of tiny, porous straw-like fibers coated with collagen upon which the intestinal cells attached and grew. These bioreactors were maintained in the Cell Culture Module, an automated hardware system which pumped warm, oxygenated cell culture media through the tiny fibers to keep the cells healthy and growing until they were ready for infection with Salmonella.

Once in orbit, astronauts aboard STS-131 activated the hardware. Eleven days later, S. Typhimurium cells were automatically injected into a subset of the hollow fiber bioreactors, where they encountered their target--a layer of human epithelial cells.

The RNA-Seq and proteomic profiles showed significant differences between uninfected intestinal epithelial cultures in space vs those on earth. These changes involved major proteins important for cell structure as well as genes important for maintaining the intestinal epithelial barrier, cell differentiation, proliferation, wound healing and cancer. Based on their profiles, uninfected cells exposed to spaceflight may display a reduced capacity for proliferation, relative to ground control cultures.

Infections far from home

Human intestinal epithelial cells act as critical sentinels of innate immune function. The results of the experiment showed that spaceflight can cause global changes to the transcriptome and proteome of human epithelial cells, both infected and uninfected.

During spaceflight, 27 RNA transcripts were uniquely altered in intestinal cells in response to infection, once again establishing the unique influence of the spaceflight environment on the host-pathogen interaction. The researchers also observed 35 transcripts which were commonly altered in both space-based and ground-based cells, with 28 genes regulated in the same direction. These findings confirmed that at least a subset of the infection biosignatures that are known to occur on Earth also occur during spaceflight. Compared with uninfected controls, infected cells in both environments displayed gene regulation associated with inflammation, a signature effect of Salmonella infection.

Bacterial transcripts were also simultaneously detected within the infected host cells and indicated upregulation of genes associated with pathogenesis, including antibiotic resistance and stress responses.

The findings help pave the way for improved efforts to safeguard astronaut health, perhaps through the use of nutritional supplements or probiotic microbes. Ongoing studies of this kind, to be performed aboard the International Space Station and other space habitats, should further illuminate the many mysteries associated with pathogenic infection and the broad range of human illnesses for which they are responsible.

"Before we began this study, we had extensive data showing that spaceflight completely reprogrammed Salmonella at every level to become a better pathogen," Barrila says. "Separately, we knew that spaceflight also impacted several important structural and functional features of human cells that Salmonella normally exploits during infections on earth. However, there was no data showing what would happen when both cell types met in the microgravity environment during infection. Our study indicates that there are some pretty big changes in the molecular landscape of the intestinal epithelium in response to spaceflight, and this global landscape appears to be further altered during infection with Salmonella."

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This work was done in collaboration with scientists from the NASA Johnson Space Center, NASA Ames Research Center, Japanese Aerospace Exploration Agency (JAXA), Tissue Genesis, and the Department of Defense (DoD).

Written by: Richard Harth
Senior Science Writer: Biodesign Institute


World's first dinosaur preserved sitting on nest of eggs with fossilized babies

SCIENCE CHINA PRESS

Research News

IMAGE

IMAGE: AN ATTENTIVE OVIRAPTORID THEROPOD DINOSAUR BROODS ITS NEST OF BLUE-GREEN EGGS WHILE ITS MATE LOOKS ON IN WHAT IS NOW JIANGXI PROVINCE OF SOUTHERN CHINA SOME 70 MILLION YEARS AGO.... view more 

CREDIT: © ZHAO CHUANG

The fossil in question is that of an oviraptorosaur, a group of bird-like theropod dinosaurs that thrived during the Cretaceous Period, the third and final time period of the Mesozoic Era (commonly known as the 'Age of Dinosaurs') that extended from 145 to 66 million years ago. The new specimen was recovered from uppermost Cretaceous-aged rocks, some 70 million years old, in Ganzhou City in southern China's Jiangxi Province.

"Dinosaurs preserved on their nests are rare, and so are fossil embryos. This is the first time a non-avian dinosaur has been found, sitting on a nest of eggs that preserve embryos, in a single spectacular specimen," explains Dr. Shundong Bi.

The fossil consists of an incomplete skeleton of a large, presumably adult oviraptorid crouched in a bird-like brooding posture over a clutch of at least 24 eggs. At least seven of these eggs preserve bones or partial skeletons of unhatched oviraptorid embryos inside. The late stage of development of the embryos and the close proximity of the adult to the eggs strongly suggests that the latter died in the act of incubating its nest, like its modern bird cousins, rather than laying its eggs or simply guarding its nest crocodile-style, as has sometimes been proposed for the few other oviraptorid skeletons that have been found atop nests.

"This kind of discovery, in essence fossilized behavior, is the rarest of the rare in dinosaurs," explains Dr. Lamanna. "Though a few adult oviraptorids have been found on nests of their eggs before, no embryos have ever been found inside those eggs. In the new specimen, the babies were almost ready to hatch, which tells us beyond a doubt that this oviraptorid had tended its nest for quite a long time. This dinosaur was a caring parent that ultimately gave its life while nurturing its young."

The team also conducted oxygen isotope analyses that indicate that the eggs were incubated at high, bird-like temperatures, adding further support to the hypothesis that the adult perished in the act of brooding its nest. Moreover, although all embryos were well-developed, some appear to have been more mature than others, which in turn suggests that oviraptorid eggs in the same clutch might have hatched at slightly different times. This characteristic, known as asynchronous hatching, appears to have evolved independently in oviraptorids and some modern birds.

One other interesting aspect of the new oviraptorid specimen is that the adult preserves a cluster of pebbles in its abdominal region. These are almost certainly gastroliths, or "stomach stones," rocks that would have been deliberately swallowed to aid the dinosaur in digesting its food. This is the first time that undoubted gastroliths have been found in an oviraptorid, and as such, these stones may provide new insights into the diets of these animals.

Says Dr. Xu, "It's extraordinary to think how much biological information is captured in just this single fossil. We're going to be learning from this specimen for many years to come."

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See the article:

Bi, S., Amiot, R., de Fabrègues, C.P., Pittman, M., Lamanna, M.C., Yu, Y., Yu, C., Yang, T., Zhang, S., Zhao, Q. and Xu, X., 2020. An oviraptorid preserved atop an embryo-bearing egg clutch sheds light on the reproductive biology of non-avialan theropod dinosaurs. Science Bulletin. 2020, https://doi.org/10.1016/j.scib.2020.12.018.


CAPTION

The ~70-million-year-old fossil in question: an adult oviraptorid theropod dinosaur sitting atop a nest of its eggs. Multiple eggs (including at least three that contain embryos) are clearly visible, as are the forearms, pelvis, hind limbs, and partial tail of the adult. Photo by Shundong Bi, Indiana University of Pennsylvania.

CREDIT

©Shundong Bi