Abstract
Emerging viral diseases are a major threat to global health, and nearly two-thirds of emerging human infectious diseases are zoonotic. Most of the human epidemics and pandemics were caused by the spillover of viruses from wild mammals. Viruses that infect humans and a wide range of animals have historically caused devastating epidemics and pandemics. An in-depth understanding of the mechanisms of viral emergence and zoonotic spillover is still lacking. Receptors are major determinants of host susceptibility to viruses. Animal species sharing host cell receptors that support the binding of multiple viruses can play a key role in virus spillover and the emergence of novel viruses and their variants. Sialic acids (SAs), which are linked to glycoproteins and ganglioside serve as receptors for several human and animal viruses. In particular, influenza and coronaviruses, which represent two of the most important zoonotic threats, use SAs as cellular entry receptors. This is a comprehensive review of our current knowledge of SA receptor distribution among animal species and the range of viruses that use SAs as receptors. SA receptor tropism and the predicted natural susceptibility to viruses can inform targeted surveillance of domestic and wild animals to prevent the future emergence of zoonotic viruses.
Highlights
The coronavirus disease 2019 (COVID-19) pandemic highlighted yet again the devastating global impact of emerging viral infections
Further investigation of SAα2,3-Gal receptor subtypes in chickens revealed that both SAα2,3-Gal β(1-3 )GalNAc and SAα2,3-Gal β(1-4) GlcNAc receptor subtypes are detected in the sub-epithelial region of trachea
All reoviruses attach to junctional adhesion molecule-A (JAM-A), which is a component of intercellular tight junctions, with high affinity, and these are said to be the determinant receptors [137,138,139]
Summary
The coronavirus disease 2019 (COVID-19) pandemic highlighted yet again the devastating global impact of emerging viral infections. A key factor that determines the host tropism of viruses is their ability to bind with high affinity to specific host cell receptors. To better predict and prevent future epidemics and pandemics, a key question that need to be answered is how various animal species manage to maintain infection as reservoirs, and thereby enable spillover to humans. Due to their widespread distribution on surface of many different cell types, across multiple species, sialic acids (SAs) play crucial roles in mediating attachment and entry to viruses belonging to many different families
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