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Emerging Pathogenic Unit of Vesicle-Cloaked Murine Norovirus Clusters is Resistant to Environmental Stresses and UV<sub>254</sub> Disinfection

Mengyang Zhang, Sourish Ghosh, Manish Kumar, Marianita Santiana, Christopher K. E. Bleck, Natthawan Chaimongkol, Nihal Altan‐Bonnet, Danmeng Shuai

2021Environmental Science & Technology32 citationsDOI

Abstract

An individual virion was long believed to act as an independent infectious unit in virology, until the recent discovery of vesicle-cloaked virus clusters which has greatly challenged this central paradigm. Vesicle-cloaked virus clusters (also known as viral vesicles) are phospholipid-bilayer encapsulated fluid sacs that contain multiple virions or multiple copies of viral genomes. Norovirus is a global leading causative agent of gastroenteritis, and the reported prevalence of vesicle-cloaked norovirus clusters in stool has raised concerns whether the current disinfection, sanitation, and hygiene practices can effectively control environmental pollution by these pathogenic units. In this study, we have demonstrated that vesicle-cloaked murine norovirus (MNV-1) clusters were highly persistent under temperature variation (i.e., freeze–thaw) and they were partially resistant to detergent decomposition. MNV-1 vesicles were 1.89–3.17-fold more infectious in vitro than their free virus counterparts. Most importantly, MNV-1 vesicles were up to 2.16-times more resistant to UV254 disinfection than free MNV-1 at a low viral load in vitro. Interestingly, with the increase of the viral load, free MNV-1 and MNV-1 vesicles showed equivalent resistance to UV254 disinfection. We show that the increased multiplicity of infection provided by vesicles is in part responsible for these attributes. Our study, for the first time, sheds light on the environmental behavior of vesicle-cloaked virus clusters as unique emerging pathogenic units. Our study highlights the need to revisit current paradigms of disinfection, sanitation, and hygiene practices for protecting public health.

Topics & Concepts

Murine norovirusNorovirusVesicleVirologyMultiplicity of infectionVirusBiologyMicrobiologyGeneticsMembraneViral gastroenteritis research and epidemiologyVirus-based gene therapy researchRespiratory viral infections research