Frost S D, Dumaurier M J, Wain-Hobson S, Brown A J
Department of Pathology, University of California, San Diego, CA 92103, USA.
Proc Natl Acad Sci U S A. 2001 Jun 5;98(12):6975-80. doi: 10.1073/pnas.131056998. Epub 2001 May 29.
Most HIV replication occurs in solid lymphoid tissue, which has prominent architecture at the histological level, which separates groups of productively infected CD4(+) cells. Nevertheless, current population models of HIV assume panmixis within lymphoid tissue. We present a simple "metapopulation" model of HIV replication, where the population of infected cells is comprised of a large number of small populations, each of which is established by a few founder viruses and undergoes turnover. To test this model, we analyzed viral genetic variation of infected cell subpopulations within the spleen and demonstrated the action of founder effects as well as significant variation in the extent of genetic differentiation between subpopulations among patients. The combination of founder effects and subpopulation turnover can result in an effective population size much lower than the actual population size and may contribute to the importance of genetic drift in HIV evolution despite a large number of infected cells.
大多数HIV复制发生在实体淋巴组织中,该组织在组织学水平上具有显著的结构,可将高效感染的CD4(+)细胞群分隔开来。然而,当前的HIV群体模型假定淋巴组织内存在随机交配。我们提出了一个简单的HIV复制“集合种群”模型,其中受感染细胞群体由大量小群体组成,每个小群体由少数起始病毒建立并经历更替。为了验证该模型,我们分析了脾脏内受感染细胞亚群的病毒基因变异,并证明了起始效应的作用以及患者亚群间基因分化程度的显著差异。起始效应和亚群更替相结合可能导致有效种群大小远低于实际种群大小,并且尽管存在大量受感染细胞,但可能有助于基因漂变在HIV进化中的重要性。