Bacillaceae Serine Proteases and Streptomyces Epsilon-poly-L-lysine Synergistically Inactivate Caliciviridae by Inhibiting RNA Genome Release

Overview

Journal Sci Rep

Specialty Science

Date 2024 Jul 2

PMID 38956295

Authors

Soh Yamamoto

Noriko Ogasawara

Yuka Sudo-Yokoyama

Sachiko Sato

Nozomu Takata

Nana Yokota

Tomomi Nakano

Kyoko Hayashi

Akira Takasawa

Mayumi Endo

Masako Hinatsu

Keitaro Yoshida

Toyotaka Sato

Satoshi Takahashi

Kenichi Takano

Takashi Kojima

Jun Hiraki

Shin-Ich Yokota

Affiliations

Soon will be listed here.

Abstract

Human norovirus (HuNoV) is an enteric infectious pathogen belonging to the Caliciviridae family that causes occasional epidemics. Circulating alcohol-tolerant viral particles that are readily transmitted via food-borne routes significantly contribute to the global burden of HuNoV-induced gastroenteritis. Moreover, contact with enzymes secreted by other microorganisms in the environment can impact the infectivity of viruses. Hence, understanding the circulation dynamics of Caliciviridae is critical to mitigating epidemics. Accordingly, in this study, we screened whether environmentally abundant secretase components, particularly proteases, affect Caliciviridae infectivity. Results showed that combining Bacillaceae serine proteases with epsilon-poly-L-lysine (EPL) produced by Streptomyces-a natural antimicrobial-elicited anti-Caliciviridae properties, including against the epidemic HuNoV GII.4_Sydney_2012 strain. In vitro and in vivo biochemical and virological analyses revealed that EPL has two unique synergistic viral inactivation functions. First, it maintains an optimal pH to promote viral surface conformational changes to the protease-sensitive structure. Subsequently, it inhibits viral RNA genome release via partial protease digestion at the P2 and S domains in the VP1 capsid. This study provides new insights regarding the high-dimensional environmental interactions between bacteria and Caliciviridae, while promoting the development of protease-based anti-viral disinfectants.

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