HIV-1感染的遗传决定因素及其表现。

R A Kaslow, J M McNicholl
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引用次数: 35

摘要

人类免疫缺陷病毒1型(HIV-1)在一代人的时间内就已成为流行病,它遇到了一个免疫系统,其中遗传编码元件在不同人群的不同环境压力下逐渐进化。在根据病毒暴露强度、病毒亚型特征以及感染的发病和病程仔细定义的队列中,已经发现了改变HIV-1感染易感性或免疫力下降速度或两者兼有的基因的重要遗传差异。对于高度多态性的人类白细胞抗原(HLA)抗原加工和递呈系统,多个相互作用的HLA标记组合(主要在I类途径中)的微小贡献显著调节HIV-1感染过程的原理现已在几个独立评估的患者组中得到证实。HLA基因的变异也可能在通过各种传播途径获得感染中起一定作用。一组复杂的循环趋化因子分子及其细胞表面受体的基因清楚地调节着HIV的细胞附着和渗透。其中CCR5基因的某些等位基因形式改变了对感染的易感性和疾病进展的速度;在纯合子状态下,一种被删除的形式(Delta32 CCR5)强烈地防止感染,在被感染的杂合子中,它在一定程度上减缓了疾病的进程。其他趋化因子系统成分的基因突变进一步区分了对感染的反应,这些形式的频率在种族之间和种族内部有所不同。将其他遗传标记与艾滋病毒感染或疾病联系起来的工作尚处于早期阶段。在复杂的基因系统中剖析多重变异的影响,显然需要有组织的综合方法,在相当大的人群中进行,而不是在通常情况下进行组装。
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Genetic determinants of HIV-1 infection and its manifestations.

The human immunodeficiency virus type 1 (HIV-1), which has become pandemic within a single generation, has encountered an immune system in which genetically encoded elements have evolved gradually under different environmental pressures in diverse populations. Important heritable differences in genes that alter susceptibility to HIV-1 infection or the rate of deterioration of immunity, or both, have been discovered in cohorts carefully defined for intensity of exposure to the virus, viral subtype characteristics, and onset and course of infection. For the highly polymorphic human leukocyte antigen (HLA) antigen processing and presenting system, the principle that small contributions of multiple interactive HLA marker combinations (primarily in the class I pathway) significantly modulate the course of HIV-1 infection has now been confirmed in several independently evaluated groups of patients. Variants of HLA genes probably also play some role in the acquisition of infection by the various routes of transmission. Genes for an elaborate set of circulating chemokine molecules and their cell-surface receptors clearly regulate cell attachment and penetration of HIV. Certain allelic forms of one, the CCR5 gene, alter susceptibility to infection and the rate of progression of disease; in the homozygous state, a deleted form (Delta32 CCR5) strongly protects against infection, and in infected heterozygotes, it slows the disease process somewhat. Mutants in genes of other chemokine system components further differentiate the response to infection, and frequencies of these forms vary between and within races. Work relating additional genetic markers to HIV infection or disease is at earlier stages. Dissecting the effects of multiple variants in complex gene systems will clearly require organized comprehensive approaches in considerably larger populations than have typically been assembled.

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