Genetic Diversity and Molecular Evolution of Hepatitis E Virus Within the Genus <i>Chirohepevirus</i> in Bats

Genetic Diversity and Molecular Evolution of Hepatitis E Virus Within the Genus <i>Chirohepevirus</i> in Bats

Hepatitis E virus (HEV) is a major zoonotic pathogen causing hepatitis E, with strains identified in various animal species, including pigs, wild boar, rabbits, deer, camels, and rats. These variants are capable of crossing species barriers and infecting humans. HEV belongs to the family <i>He...

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Bibliographic Details
Main Authors: Bo Wang, Peter Cronin, Marcus G. Mah, Xing-Lou Yang, Yvonne C. F. Su
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Viruses
Subjects:
hepatitis E virus (HEV)
chirohepevirus
bats
genetic diversity
molecular evolution
zoonotic potential
Online Access:https://www.mdpi.com/1999-4915/17/3/339
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Summary:Hepatitis E virus (HEV) is a major zoonotic pathogen causing hepatitis E, with strains identified in various animal species, including pigs, wild boar, rabbits, deer, camels, and rats. These variants are capable of crossing species barriers and infecting humans. HEV belongs to the family <i>Hepeviridae</i>, which has recently divided into two subfamilies: <i>Orthohepevirinae</i> and <i>Parahepevirinae</i>, and five genera: <i>Paslahepevirus</i>, <i>Avihepevirus</i>, <i>Rocahepevirus</i>, <i>Chirohepevirus</i>, and <i>Piscihepevirus</i>. Recent advances in high-throughput sequencing, particularly of bat viromes, have revealed numerous HEV-related viruses, raising concerns about their zoonotic potential. Bat-derived HEVs have been classified into the genus <i>Chirohepevirus</i>, which includes three distinct species. In this study, we analyzed 64 chirohepevirus sequences from 22 bat species across six bat families collected from nine countries. Twelve sequences represent complete or nearly complete viral genomes (>6410 nucleotides) containing the characteristic three HEV open reading frames (ORFs). These strains exhibited high sequence divergence (>25%) within their respective host genera or species. Phylogenetic analyses with maximum likelihood methods identified at least seven distinct subclades within <i>Chirohepevirus</i>, each potentially representing an independent species. Additionally, the close phylogenetic relationship between chirohepevirus strains and their bat hosts indicates a pattern of virus–host co-speciation. Our findings expand the known diversity within the family <i>Hepeviridae</i> and provide new insights into the evolution of bat-associated HEV. Continued surveillance of chirohepevirus will be essential for understanding its potential for zoonotic transmission and public health risks.
ISSN:1999-4915

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