Department of Viral Oncology, Kyoto University, Kyoto, Japan.
Cell Host Microbe. 2012 May 17;11(5):492-503. doi: 10.1016/j.chom.2012.04.009.
Bornaviruses are nonsegmented negative-strand RNA viruses that establish a persistent infection in the nucleus and occasionally integrate a DNA genome copy into the host chromosomal DNA. However, how these viruses achieve intranuclear infection remains unclear. We show that Borna disease virus (BDV), a mammalian bornavirus, closely associates with the cellular chromosome to ensure intranuclear infection. BDV generates viral factories within the nucleus using host chromatin as a scaffold. In addition, the viral ribonucleoprotein (RNP) interacts directly with the host chromosome throughout the cell cycle, using core histones as a docking platform. HMGB1, a host chromatin-remodeling DNA architectural protein, is required to stabilize RNP on chromosomes and for efficient BDV RNA transcription in the nucleus. During metaphase, the association of RNP with mitotic chromosomes allows the viral RNA to segregate into daughter cells and ensure persistent infection. Thus, bornaviruses likely evolved a chromosome-dependent life cycle to achieve stable intranuclear infection.
博尔纳病病毒(BDV)是一种哺乳动物博尔纳病毒,它与细胞染色体密切相关,以确保其在核内感染。BDV 在核内利用宿主染色质作为支架生成病毒工厂。此外,病毒核糖核蛋白(RNP)在整个细胞周期中直接与宿主染色体相互作用,利用核心组蛋白作为对接平台。HMGB1 是一种宿主染色质重塑 DNA 结构蛋白,它稳定 RNP 在染色体上的结合,并促进核内 BDV RNA 的高效转录。在中期,RNP 与有丝分裂染色体的结合允许病毒 RNA 分配到子细胞中,并确保持续感染。因此,博尔纳病毒可能进化出一种依赖染色体的生命周期,以实现稳定的核内感染。