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人类和猿猴免疫缺陷病毒自然宿主中CCR5基因缺失表型的平行进化。

Parallel evolution of CCR5-null phenotypes in humans and in a natural host of simian immunodeficiency virus.

作者信息

Palacios E, Digilio L, McClure H M, Chen Z, Marx P A, Goldsmith M A, Grant R M

机构信息

Gladstone Institute of Virology and Immunology San Francisco, California, USA.

出版信息

Curr Biol. 1998;8(16):943-6. doi: 10.1016/s0960-9822(07)00378-8.

DOI:10.1016/s0960-9822(07)00378-8
PMID:9707408
Abstract

The C-C chemokine receptor CCR5 in humans and rhesus macaques (Macaca mulatta) serves as the primary coreceptor for cellular entry by macrophagetropic strains of human immunodeficiency virus type 1 (HIV-1) and all reported strains of simian immunodeficiency virus (SIV) [1-6]. Humans homozygous for a 32 bp deletion allele of CCR5, resulting in a null phenotype, are highly resistant to infection by HIV-1 [7-9], prompting development of therapies and vaccines targeting CCR5. We now report a novel deletion allele of CCR5, with an allele frequency of 0.04, in sooty mangabey monkeys (Cercocebus torquatus atys), a natural host of SIV (SIVsmm) [10]. The mutant protein was not expressed at the cell surface and accordingly did not function as a viral coreceptor. Primary activated lymphocytes from mangabeys heterozygous for the deletion allele expressed significantly less CCR5 on the cell surface. Moreover, SIV seroprevalence and viremia were comparable among CCR5 heterozygotes and wild-type animals. Parallel evolution of CCR5-null alleles in humans and sooty mangabeys suggests that similar negative selection pressures have acted against CCR5, as would occur during epidemics of infectious agents that require CCR5 for pathogenesis. Sooty mangabeys bred to homozygosity for the deletion allele will be useful for experimental studies on the context-dependent role of CCR5 in host defense and microbial pathogenesis.

摘要

人类和恒河猴体内的C-C趋化因子受体CCR5,是1型人类免疫缺陷病毒(HIV-1)的嗜巨噬细胞株以及所有已报道的猿猴免疫缺陷病毒(SIV)毒株进入细胞的主要共受体[1-6]。CCR5基因32bp缺失等位基因的纯合人类表现为无效表型,对HIV-1感染具有高度抗性[7-9],这促使了针对CCR5的治疗方法和疫苗的研发。我们现在报告在黑猩猩(Cercocebus torquatus atys)中发现了一种新的CCR5缺失等位基因,其等位基因频率为0.04,黑猩猩是SIV(SIVsmm)的天然宿主[10]。突变蛋白未在细胞表面表达,因此不能作为病毒共受体发挥作用。来自缺失等位基因杂合的黑猩猩的原代活化淋巴细胞在细胞表面表达的CCR5显著减少。此外,CCR5杂合子和野生型动物的SIV血清阳性率和病毒血症相当。人类和黑猩猩中CCR5无效等位基因的平行进化表明,类似的负选择压力作用于CCR5,这在需要CCR5进行发病机制的传染病流行期间也会发生。培育出缺失等位基因纯合子的黑猩猩将有助于进行关于CCR5在宿主防御和微生物发病机制中依赖背景的作用的实验研究。

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