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塞伦盖蒂生态系统中的犬瘟热病毒:对不同食肉动物物种的分子适应性

Canine distemper virus in the Serengeti ecosystem: molecular adaptation to different carnivore species.

作者信息

Nikolin Veljko M, Olarte-Castillo Ximena A, Osterrieder Nikolaus, Hofer Heribert, Dubovi Edward, Mazzoni Camila J, Brunner Edgar, Goller Katja V, Fyumagwa Robert D, Moehlman Patricia D, Thierer Dagmar, East Marion L

机构信息

Leibniz Institute for Zoo and Wildlife Research, Alfred-Kowalke-Str. 17, 10315, Berlin, Germany.

Institut für Virologie, Freie Universität Berlin, Robert-von-Ostertag-Str. 7-13, 14163, Berlin, Germany.

出版信息

Mol Ecol. 2017 Apr;26(7):2111-2130. doi: 10.1111/mec.13902. Epub 2016 Dec 7.

DOI:10.1111/mec.13902
PMID:27928865
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7168383/
Abstract

Was the 1993/1994 fatal canine distemper virus (CDV) epidemic in lions and spotted hyaenas in the Serengeti ecosystem caused by the recent spillover of a virulent domestic dog strain or one well adapted to these noncanids? We examine this question using sequence data from 13 'Serengeti' strains including five complete genomes obtained between 1993 and 2011. Phylogenetic and haplotype network analyses reveal that strains from noncanids during the epidemic were more closely related to each other than to those from domestic or wild canids. All noncanid 'Serengeti' strains during the epidemic encoded: (1) one novel substitution G134S in the CDV-V protein; and (2) the rare amino acid combination 519I/549H at two sites under positive selection in the region of the CDV-H protein that binds to SLAM (CD 150) host cell receptors. Worldwide, only a few noncanid strains in the America II lineage encode CDV-H 519I/549H. All canid 'Serengeti' strains during the epidemic coded CDV-V 134G, and CDV-H 519R/549Y, or 519R/549H. A functional assay of cell entry revealed the highest performance by CDV-H proteins encoding 519I/549H in cells expressing lion SLAM receptors, and the highest performance by proteins encoding 519R/549Y, typical of dog strains worldwide, in cells expressing dog SLAM receptors. Our findings are consistent with an epidemic in lions and hyaenas caused by CDV variants better adapted to noncanids than canids, but not with the recent spillover of a dog strain. Our study reveals a greater complexity of CDV molecular epidemiology in multihost environments than previously thought.

摘要

1993/1994年塞伦盖蒂生态系统中狮子和斑鬣狗身上致命的犬瘟热病毒(CDV)疫情,是由近期一种毒性很强的家犬毒株溢出所致,还是由一种非常适应这些非犬科动物的毒株引起的?我们利用来自13个“塞伦盖蒂”毒株的序列数据来研究这个问题,其中包括1993年至2011年间获得的5个完整基因组。系统发育和单倍型网络分析表明,疫情期间来自非犬科动物的毒株彼此之间的亲缘关系比与家犬或野生犬科动物的毒株更近。疫情期间所有非犬科“塞伦盖蒂”毒株都编码:(1)CDV-V蛋白中有一个新的替换G134S;(2)在CDV-H蛋白与SLAM(CD150)宿主细胞受体结合区域中处于正选择的两个位点上,存在罕见的氨基酸组合519I/549H。在全球范围内,美洲II谱系中只有少数非犬科毒株编码CDV-H 519I/549H。疫情期间所有犬科“塞伦盖蒂”毒株编码CDV-V 134G,以及CDV-H 519R/549Y或519R/549H。细胞进入功能测定显示,编码519I/549H的CDV-H蛋白在表达狮子SLAM受体的细胞中表现最佳,而编码519R/549Y(全球犬类毒株的典型特征)的蛋白在表达犬类SLAM受体的细胞中表现最佳。我们的研究结果表明,导致狮子和鬣狗疫情的是比犬科动物更适应非犬科动物的CDV变体,而不是近期家犬毒株的溢出。我们的研究揭示了多宿主环境中CDV分子流行病学比以前认为的更为复杂。