Price David A, Bitmansour Arlene D, Edgar John B, Walker Joshua M, Axthelm Michael K, Douek Daniel C, Picker Louis J
Weatherall Institute of Molecular Medicine, University of Oxford, John Radcliffe Hospital, Oxford, United Kingdom.
J Immunol. 2008 Jan 1;180(1):269-80. doi: 10.4049/jimmunol.180.1.269.
CMV infection induces robust CD4+ T cell responses in immunocompetent hosts that orchestrate immune control of viral replication, dissemination, and disease. In this study, we characterized the clonotypic composition of CD4+ T cell populations specific for rhesus CMV (RhCMV) in chronically infected adult rhesus macaques (RM) and in juvenile RM undergoing primary RhCMV infection and subsequent secondary challenge with RhCMV. In adult RM with established chronic infection, RhCMV-specific CD4+ T cell populations exhibited stable, pauciclonal structures with skewed hierarchies dominated by two or three clonotypes. During primary infection, in contrast, the initial RhCMV-specific CD4+ T cell populations were highly polyclonal and progressive evolution to the chronic pattern manifest in adults occurred over the ensuing 2-3 years. Clear patterns of clonal succession were observed during this maturation process, such that clonotypes present in the acute phase were largely replaced over time. However, rechallenge with RhCMV expanded virus-specific CD4+ T cell clonotypes identified solely during acute infection. These findings indicate that, during persistent viral infection, substantial selection pressures and ongoing clonotype recruitment shape the specific CD4+ T cell repertoire and that rapidly exhausted or superseded clonotypes often remain within the memory T cell pool.
巨细胞病毒(CMV)感染在免疫功能正常的宿主中可诱导强烈的CD4+T细胞反应,从而协调对病毒复制、传播和疾病的免疫控制。在本研究中,我们对慢性感染的成年恒河猴(RM)以及经历原发性恒河猴CMV(RhCMV)感染并随后接受RhCMV二次攻击的幼年RM中针对RhCMV的CD4+T细胞群体的克隆型组成进行了表征。在已建立慢性感染的成年RM中,RhCMV特异性CD4+T细胞群体呈现出稳定的寡克隆结构,其层次结构偏向由两到三种克隆型主导。相比之下,在原发性感染期间,最初的RhCMV特异性CD4+T细胞群体高度多克隆,在随后的2至3年中逐渐演变为成年期出现的慢性模式。在这个成熟过程中观察到了明显的克隆演替模式,即急性期存在的克隆型随着时间的推移大部分被取代。然而,用RhCMV再次攻击会使仅在急性感染期间鉴定出的病毒特异性CD4+T细胞克隆型扩增。这些发现表明,在持续性病毒感染期间,巨大的选择压力和持续的克隆型募集塑造了特定的CD4+T细胞库,并且快速耗尽或被取代的克隆型通常保留在记忆T细胞库中。
