Texas A&M University scientists and research partners have received two grants from the U.S. Department of Agriculture, USDA, to study the spread of SARS-CoV-2 in deer. These grants will help researchers understand the impact of COVID-19 in Texas’ deer populations and its relationship to human and ecological health.
For these projects, the research team will focus on captive deer, which are an agricultural species in Texas, including managed deer that live on large rural properties enclosed by fences, wild deer with which captive deer may interact, and deer living in zoos and wildlife centers.
Understanding the ecology of disease
The first grant, for $800,000, will fund a multifaceted three-year project designed to help scientists understand how the virus that causes COVID-19 spreads among deer and, for the first time, how the disease has impacted overall deer health.
What makes the study unique is its focus on understanding disease in the context of whole ecological systems. It will examine how captive deer interact with each other and how the diverse wild and captive animal community may interact with the deer. For example, the study will investigate patterns of infection among captive deer, the humans who work with the deer, other domestic livestock on the ranches, and wild mammals in the environment.
To do this, researchers at Texas A&M University will collaborate with the Deer Research Program at Texas A&M University-Kingsville’s, TAMUK, Caesar Kleberg Wildlife Research Institute, which will help collect the large number of samples needed for the project.
“The first aim of the project is a screening study – testing the deer for COVID-19 — of 30 ranches, farms or other managed areas with deer across the state, such as safari-style parks and zoos,” said Sarah Hamer, DVM, Ph.D., professor of epidemiology at the Texas A&M School of Veterinary Medicine and Biomedical Sciences, VMBS, and lead researcher for Texas A&M on both projects. “This stage will allow us to see where there has been deer exposure to the virus in the past and where there are active infections.”
Identifying infected deer
The second stage of the project will focus on locations where coronavirus infections are found in deer.
“If we find infected deer, we will then transition to a phase of the study where we can not only re-sample the deer over time to monitor changes in their infection and health, but also sample other farm animals and native wildlife on each property,” Hamer said. “We will also sample the people on each ranch who regularly interact with the deer. These will most likely be the workers who are responsible for putting out the feed and water for the animals.”
This broader range of samples will help Hamer and the rest of the team learn more about the transmission of the SARS-CoV-2 virus between animals and people that share an ecological relationship. Their approach to consider humans, animals and the environment was proposed after Hamer’s team spent more than two years studying the virus among people and their pet dogs and cats in Centers for Disease Control and Prevention-funded research. That research showed that infections were not uncommon among domestic animals that live in houses with active human cases.
The laboratory analyses for the deer project will be overseen by Gabriel Hamer, Ph.D., professor in the Texas A&M College of Agriculture and Life Sciences Department of Entomology.
“Once we detect positive samples for SARS-CoV-2, we will work with partners to sequence the viral genomes across all of the infected species and see how they compare,” Gabriel Hamer said. “We want to see if we can infer which direction the infection is spreading among deer, other animals and humans.”
Understanding viruses in deer populations
The final part of the three-year project will analyze how overall deer health has been impacted by COVID-19.
“Of all four goals, this one is probably the most important for the deer producers,” said Walt Cook, DVM, Ph.D., clinical associate professor in the VMBS’ Department of Veterinary Pathobiology and co-investigator on the project. “We want to know if COVID-19 might affect things like body condition, antler growth and reproduction.”
The robust captive cervid industry in Texas makes this an ideal state for better understanding how and when the virus infects deer. In comparison to tracking wild deer, the opportunity to study deer belonging to managed herds will allow researchers to answer unknown questions about COVID-19 and deer health.
“Most of the existing studies on wild deer rely on hunter-harvested samples,” Sarah Hamer said. “A deer may test positive for a SARS-CoV-2 infection, but at that point, the body has been processed and we can’t know its symptoms or if the virus impacted the deer’s health or fitness in any way.”
“We’re extremely appreciative that producers across the state are allowing us to study their herds so that we can better understand how SARS-CoV-2 is maintained in nature,” Cook said. “We have the opportunity to study the ecology of the disease in real settings across the state to learn about what these animals may be exposed to, while maintaining anonymity, to benefit us all in the future.”
Because of the project’s unique scope and complexity, the researchers hope to answer questions relating COVID-19 to many different aspects of human, animal and environmental health.
“For the last three years, zoonotic disease has brought the world to a halt and impacted virtually every aspect of life on earth,” said Michael Cherry, Ph.D., a white-tailed deer expert at TAMUK and partner on the projects. “Understanding the ecology of these diseases and how they affect human health, food security and important sectors of the economy will make us better prepared for future zoonotic outbreaks.
“The diverse team is one of the unique aspects of this ambitious project,” Cherry said. “Dr. Hamer has pulled together a fantastic team, and I’m happy to be able to contribute.”
Protecting against future outbreaks
The second project, funded by a $650,000 USDA grant and spearheaded by biotech giant Ginkgo Bioworks, will include sequencing the RNA of SARS-CoV-2 found in white-tailed deer to better understand which strains are active in deer populations and to track possible mutations so we can better protect ourselves from future outbreaks of the virus in the human population.
“Zoonotic research like this is key to helping make informed decisions and avoid future outbreaks,” said Matt McKnight, general manager of biosecurity at Ginkgo Bioworks. “This data and research will provide governments, industry leaders and academics the information they need to optimize behaviors and provide early warnings to prevent disease spillover.”
The first part of the project entails sampling and testing deer to see if they carry SARS-CoV-2. Once the researchers have the positive samples, they can begin sequencing genomes from the virus samples.
“Our group at Texas A&M will be responsible for working with collaborators to collect samples from deer,” Sarah Hamer said. “We’ll also be responsible for the initial screening for SARS-CoV-2. If we find positive samples, we ship them to Ginkgo, and they’ll work to sequence the virus and analyze how the sequences compare to those found by others.”
In order to reach the sample size goals for the project, the researchers also are collaborating with the Texas A&M Veterinary Medical Diagnostic Laboratory, TVMDL, to gather samples from deer lymph nodes.
“TVMDL regularly gets samples from both wild and captive deer for chronic wasting disease, or CWD, testing,” said Carlos Rodriguez, TVMDL epidemiologist. “The samples often come from hunter-harvested deer, and we are able to repurpose the remaining tissue to contribute to this COVID project.”
Because COVID-19 is resurgent in the human population, projects like this one are important given that scientists are still uncovering new ways the disease continues to impact the world.
“The public health protective measures that are available for humans — like vaccines and masks — really aren’t options for deer,” Sarah Hamer said. “We’re interested to learn under what conditions deer become infected and how long they can maintain the infection in nature. Of course, we’re also interested to study potential onward transmission from deer to other deer, wildlife or humans in order to learn how that may contribute to the overall ecology of this virus in nature.”
Source : tamu.edu