The exposure of urban rodents to the human COVID-19 virus and the potential for viral recombination
Lead Research Organisation:
University of Liverpool
Department Name: Evolution, Ecology and Behaviour
Abstract
All of us are affected by the COVID-19 pandemic, which is caused by a virus (technically, SARS-CoV-2) that originally jumped from an animal (probably a bat) into a person. Now the virus is spreading person-to-person directly.
COVID-19 is a coronavirus, and coronaviruses are very common in wild animals. While each coronavirus typically infects one species of animal, coronaviruses can move between animal species too. So the general idea is that animals are "reservoirs" of viruses that sometimes moves into people.
Because so many people are getting infected with COVID-19, we think that humans might now be a virus reservoir infecting animals. If this does happen, it's most likely where there are high densities of people and of animals - such as rodents in cities, where large numbers of people and rodents live cheek-by-jowl. This is the idea we want to test.
But why does this matter? Different viruses can also mix their genetics (technically, recombine), and so we also wonder if the human COVID-19 does infect rodents, whether it will then recombine with other coronaviruses already in those rodents.
There are a lots of 'ifs' in these last few sentences, which is because these are just theories that we have. We now want to see if these theories - these 'ifs' - are correct. To do this we want to catch city-dwelling rats and mice that we'll then screen for the human COVID-19 virus, or close relatives of it.
COVID-19 is a coronavirus, and coronaviruses are very common in wild animals. While each coronavirus typically infects one species of animal, coronaviruses can move between animal species too. So the general idea is that animals are "reservoirs" of viruses that sometimes moves into people.
Because so many people are getting infected with COVID-19, we think that humans might now be a virus reservoir infecting animals. If this does happen, it's most likely where there are high densities of people and of animals - such as rodents in cities, where large numbers of people and rodents live cheek-by-jowl. This is the idea we want to test.
But why does this matter? Different viruses can also mix their genetics (technically, recombine), and so we also wonder if the human COVID-19 does infect rodents, whether it will then recombine with other coronaviruses already in those rodents.
There are a lots of 'ifs' in these last few sentences, which is because these are just theories that we have. We now want to see if these theories - these 'ifs' - are correct. To do this we want to catch city-dwelling rats and mice that we'll then screen for the human COVID-19 virus, or close relatives of it.
Organisations
Publications
Fisher AM
(2023)
The ecology of viruses in urban rodents with a focus on SARS-CoV-2.
in Emerging microbes & infections
Description | Evidence of rodent exposure to COVID though not actual infections |
Exploitation Route | Understanding rodent virome and risks (or not) to animal and human health |
Sectors | Agriculture Food and Drink Environment |
Description | Engagement with Pest Control industry about commensal rodent viral infections |
First Year Of Impact | 2022 |
Sector | Environment,Healthcare |
Impact Types | Cultural Societal Economic Policy & public services |