Johnson Edward M, Wortman Margaret J, Dagdanova Ayuna V, Lundberg Patric S, Daniel Dianne C
Department of Microbiology and Molecular Cell Biology, Eastern Virginia Medical School, 700 West Olney Road, Norfolk, VA 23507, USA.
Clin Dev Immunol. 2013;2013:197807. doi: 10.1155/2013/197807. Epub 2013 Apr 15.
Polyomavirus JC (JCV) is the etiological agent of progressive multifocal leukoencephalopathy (PML), a demyelinating infection of oligodendrocytes in the brain. PML, a frequently fatal opportunistic infection in AIDS, has also emerged as a consequence of treatment with several new immunosuppressive therapeutic agents. Although nearly 80% of adults are seropositive, JCV attains an ability to infect glial cells in only a minority of people. Data suggest that JCV undergoes sequence alterations that accompany this ability, and these changes can be derived from an archetype strain by mutation, deletion, and duplication. While the introductory source and primary tissue reservoir of JCV remain unknown, lymphoid cells have been identified as potential intermediaries in progression of JCV to the brain. This review is focused on sequence changes in the noncoding control region (NCCR) of the virus. We propose an adaptive mechanism that involves a sequential series of DNA replication-driven NCCR recombination events involving stalled DNA replication forks at NCCR palindromic secondary structures. We shall describe how the NCCR sequence changes point to a model in which viral DNA replication drives NCCR recombination, allowing JCV adaptation to different cell types in its progression to neurovirulence.
多瘤病毒JC(JCV)是进行性多灶性白质脑病(PML)的病原体,PML是一种脑部少突胶质细胞的脱髓鞘感染。PML是艾滋病中一种常见的致命性机会性感染,也是几种新型免疫抑制治疗药物治疗的结果。虽然近80%的成年人血清呈阳性,但JCV仅在少数人身上获得感染神经胶质细胞的能力。数据表明,JCV会发生伴随这种能力的序列改变,这些变化可通过突变、缺失和重复从原型毒株衍生而来。虽然JCV的初始来源和主要组织储存库尚不清楚,但淋巴细胞已被确定为JCV向脑部进展过程中的潜在中介。本综述重点关注该病毒非编码控制区(NCCR)的序列变化。我们提出了一种适应性机制,该机制涉及一系列由DNA复制驱动的NCCR重组事件,这些事件涉及NCCR回文二级结构处停滞的DNA复制叉。我们将描述NCCR序列变化如何指向一种模型,即病毒DNA复制驱动NCCR重组,使JCV在向神经毒性进展过程中适应不同细胞类型。
