Virus-specific cytotoxic T-lymphocyte responses select for amino-acid variation in simian immunodeficiency virus Env and Nef

被引：0

作者：

David T. Evans

David H. O'Connor

Peicheng Jing

John L. Dzuris

John Sidney

Jack da Silva

Todd M. Allen

Helen Horton

John E. Venham

Richard A. Rudersdorf

Thorsten Vogel

C. David Pauza

Ronald E. Bontrop

Robert DeMars

Alessandro Sette

Austin L. Hughes

David I. Watkins

机构：

[1] Wisconsin Regional Primate Research Center,Department of Pathology and Laboratory Medicine

[2] University of Wisconsin,New England Regional Primate Research Center

[3] Epimmune,Department of Biology

[4] Institute of Molecular Evolutionary Genetics,undefined

[5] The Pennsylvania State University,undefined

[6] Laboratory of Genetics,undefined

[7] Genetics Building,undefined

[8] University of Wisconsin,undefined

[9] University of Wisconsin,undefined

[10] Biomedical Primate Research Centre-TNO,undefined

[11] Harvard Medical School,undefined

[12] One Pine Hill Drive,undefined

[13] East Carolina University,undefined

来源：

Nature Medicine | 1999年 / 5卷

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摘要：

Cytotoxic T-lymphocyte (CTL) responses to human immunodeficiency virus arise early after infection, but ultimately fail to prevent progression to AIDS. Human immunodeficiency virus may evade the CTL response by accumulating amino-acid replacements within CTL epitopes. We studied 10 CTL epitopes during the course of simian immunodeficiency virus disease progression in three related macaques. All 10 of these CTL epitopes accumulated amino-acid replacements and showed evidence of positive selection by the time the macaques died. Many of the amino-acid replacements in these epitopes reduced or eliminated major histocompatibility complex class I binding and/or CTL recognition. These findings strongly support the CTL 'escape' hypothesis.

引用

页码：1270 / 1276

页数：6

共 58 条

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