狂犬病病毒分离株的进化：毒力特征及中和抗体的调节作用

Evolution of Rabies Virus Isolates: Virulence Signatures and Effects of Modulation by Neutralizing Antibodies.

作者信息

Conselheiro Juliana Amorim, Barone Gisely Toledo, Miyagi Sueli Akemi Taniwaki, de Souza Silva Sheila Oliveira, Agostinho Washington Carlos, Aguiar Joana, Brandão Paulo Eduardo

机构信息

Laboratory of Diagnostics of Zoonosis and Vector-borne Diseases (LabZoo), Zoonosis Surveillance Division, Health Surveillance Coordination, Municipal Health Department, São Paulo 02031-020, SP, Brazil.

Department of Preventive Veterinary Medicine and Animal Health, School of Veterinary Medicine, University of São Paulo, São Paulo 05508-270, SP, Brazil.

出版信息

Pathogens. 2022 Dec 19;11(12):1556. doi: 10.3390/pathogens11121556.

DOI:10.3390/pathogens11121556

PMID:36558890

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9782306/

Abstract

(RABV) is an RNA virus and, therefore, is subject to mutations due to low RNA polymerase replication fidelity, forming a population structure known as a viral quasispecies, which is the core of RNA viruses' adaptive strategy. Under new microenvironmental conditions, the fittest populations are selected, and the study of this process on the molecular level can help determine molecular signatures related to virulence. Our aim was to survey gene signatures on nucleoprotein and glycoprotein genes that might be involved in virulence modulation during the in vitro evolution of RABV lineages after serial passages in a neuronal cell system with or without the presence of neutralizing antibodies based on replicative fitness, in vivo neurotropism and protein structure and dynamics. The experiments revealed that amino acids at positions 186 and 188 of the glycoprotein are virulence factors of , and site 186 specifically might allow the attachment to heparan as a secondary cell receptor, while polymorphism at position 333 might allow the selection of escape mutants under suboptimal neutralizing antibodies titers.

摘要

狂犬病病毒（RABV）是一种RNA病毒，因此，由于RNA聚合酶复制保真度低，它容易发生突变，形成一种称为病毒准种的群体结构，这是RNA病毒适应性策略的核心。在新的微环境条件下，选择最适应的群体，在分子水平上研究这一过程有助于确定与毒力相关的分子特征。我们的目的是基于复制适应性、体内嗜神经性以及蛋白质结构和动力学，在有或没有中和抗体存在的情况下，通过在神经元细胞系统中连续传代，调查狂犬病病毒谱系体外进化过程中可能参与毒力调节的核蛋白和糖蛋白基因的基因特征。实验表明，糖蛋白第186位和第188位的氨基酸是狂犬病病毒的毒力因子，第186位位点可能特别允许其作为二级细胞受体与硫酸乙酰肝素结合，而第333位的多态性可能允许在次优中和抗体滴度下选择逃逸突变体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49ff/9782306/14f6569a73f1/pathogens-11-01556-g001.jpg

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狂犬病病毒分离株的进化：毒力特征及中和抗体的调节作用

Evolution of Rabies Virus Isolates: Virulence Signatures and Effects of Modulation by Neutralizing Antibodies.

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