Emara Mohamed M, Brinton Margo A
Department of Biology, Georgia State University, Atlanta, GA 30302, USA.
Proc Natl Acad Sci U S A. 2007 May 22;104(21):9041-6. doi: 10.1073/pnas.0703348104. Epub 2007 May 14.
The West Nile virus minus-strand 3' terminal stem loop (SL) RNA was previously shown to bind specifically to cellular stress granule (SG) components, T cell intracellular antigen-1 (TIA-1) and the related protein TIAR. In vitro TIAR binding was 10 times more efficient than TIA-1. The 3'(-)SL functions as the promoter for genomic RNA synthesis. Colocalization of TIAR and TIA-1 with the viral replication complex components dsRNA and NS3 was observed in the perinuclear regions of West Nile virus- and dengue virus-infected cells. The kinetics of accumulation of TIAR in the perinuclear region was similar to those of genomic RNA synthesis. In contrast, relocation of TIA-1 to the perinuclear region began only after maximal levels of RNA synthesis had been achieved, except when TIAR was absent. Virus infection did not induce SGs and progressive resistance to SG induction by arsenite developed coincident with TIAR relocation. A progressive decrease in the number of processing bodies was secondarily observed in infected cells. These data suggest that the interaction of TIAR with viral components facilitates flavivirus genome RNA synthesis and inhibits SG formation, which prevents the shutoff of host translation.
西尼罗河病毒负链3'末端茎环(SL)RNA先前已被证明能特异性结合细胞应激颗粒(SG)成分、T细胞内抗原-1(TIA-1)及相关蛋白TIAR。在体外,TIAR的结合效率比TIA-1高10倍。3'(-)SL作为基因组RNA合成的启动子。在西尼罗河病毒和登革病毒感染细胞的核周区域观察到TIAR和TIA-1与病毒复制复合体成分dsRNA和NS3共定位。TIAR在核周区域积累的动力学与基因组RNA合成的动力学相似。相比之下,TIA-1向核周区域的重新定位仅在RNA合成达到最大水平后才开始,TIAR缺失时除外。病毒感染不会诱导应激颗粒,并且随着TIAR的重新定位,对亚砷酸盐诱导应激颗粒的抗性逐渐增强。其次,在感染细胞中观察到加工小体数量逐渐减少。这些数据表明,TIAR与病毒成分的相互作用促进了黄病毒基因组RNA的合成,并抑制了应激颗粒的形成,从而防止宿主翻译的关闭。