AI Article Synopsis
- Zoonotic pathogens like COVID-19 can jump from animals to humans, with Carnivora species (like mink) being significant carriers due to their immune gene diversity.
- Research shows that Carnivora have evolved to downregulate their pathogen-sensing inflammasome pathways, leading to changes like the loss of certain immune receptors and the development of a unique protein that alters how they respond to infections.
- Although their carnivorous diet may help with some immune challenges, this downregulation could lead to undetected pathogen presence, posing risks for disease transmission to humans.
Article Abstract
Zoonotic pathogens, such as COVID-19, reside in animal hosts before jumping species to infect humans. The Carnivora, like mink, carry many zoonoses, yet how diversity in host immune genes across species affect pathogen carriage is poorly understood. Here, we describe a progressive evolutionary downregulation of pathogen-sensing inflammasome pathways in Carnivora. This includes the loss of nucleotide-oligomerization domain leucine-rich repeat receptors (NLRs), acquisition of a unique caspase-1/-4 effector fusion protein that processes gasdermin D pore formation without inducing rapid lytic cell death, and the formation of a caspase-8 containing inflammasome that inefficiently processes interleukin-1β. Inflammasomes regulate gut immunity, but the carnivorous diet has antimicrobial properties that could compensate for the loss of these immune pathways. We speculate that the consequences of systemic inflammasome downregulation, however, can impair host sensing of specific pathogens such that they can reside undetected in the Carnivora.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8411117 | PMC |
| http://dx.doi.org/10.1016/j.celrep.2021.109614 | DOI Listing |
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