Dundr M, Leno G H, Hammarskjöld M L, Rekosh D, Helga-Maria C, Olson M O
Department of Biochemistry, University of Mississippi Medical Center, Jackson 39216, USA.
J Cell Sci. 1995 Aug;108 ( Pt 8):2811-23. doi: 10.1242/jcs.108.8.2811.
The human immunodeficiency virus 1 (HIV-1) Rev transactivator protein plays a critical role in the regulation of expression of structural proteins by controlling the pathway of mRNA transport. The Rev protein is located predominantly in the nucleoli of HIV-1 infected or Rev-expressing cells. Previous studies demonstrated that the Rev protein forms a specific complex in vitro with protein B23 which is suggested to be a nucleolar receptor and/or carrier for the Rev protein. To study the role of the nucleolus and nucleolar proteins in Rev function, transfected COS-7 or transformed CMT3 cells expressing the Rev protein were examined for subcellular locations of Rev and other proteins using indirect immunofluorescence and immunoelectron microscopy. One day after transfection the Rev protein was found in most cells only in the nucleolar dense fibrillar and granular components where it colocalized with protein B23. These were designated class 1 cells. In a second class of cells Rev and B23 accumulated in the nucleoplasm as well as in nucleoli. Treatment of class 1 cells with actinomycin D (AMD) under conditions that blocked only RNA polymerase I transcription caused Rev to completely redistribute from nucleoli to the cytoplasm. Simultaneously, protein B23 was partially released from nucleoli, mostly into the nucleoplasm, with detectable amounts in the cytoplasm. In cells recovering from AMD treatment in the presence of cycloheximide Rev and B23 showed coincident relocation to nucleoli. Class 2 cells were resistant to AMD-induced Rev redistribution. Selective inhibition of RNA polymerase II transcription by alpha-amanitin or by DRB did not cause Rev to be released into the cytoplasm suggesting that active preribosomal RNA transcription is required for the nucleolar location of Rev. However, treatment with either of the latter two drugs at higher doses and for longer times caused partial disruption of nucleoli accompanied by translocation of the Rev protein to the cytoplasm. These results suggest that the nucleolar location of Rev depends on continuous preribosomal RNA transcription and a substantially intact nucleolar structure.
人类免疫缺陷病毒1型(HIV-1)Rev反式激活蛋白通过控制mRNA转运途径,在结构蛋白表达调控中发挥关键作用。Rev蛋白主要位于HIV-1感染细胞或表达Rev的细胞的核仁中。先前的研究表明,Rev蛋白在体外与蛋白B23形成特定复合物,蛋白B23被认为是Rev蛋白的核仁受体和/或载体。为了研究核仁及核仁蛋白在Rev功能中的作用,利用间接免疫荧光和免疫电子显微镜,检测了转染表达Rev蛋白的COS-7细胞或转化的CMT3细胞中Rev及其他蛋白的亚细胞定位。转染后一天,在大多数细胞中,Rev蛋白仅存在于核仁致密纤维成分和颗粒成分中,并与蛋白B23共定位。这些细胞被归为1类细胞。在第二类细胞中,Rev和B23在核质以及核仁中积累。在仅阻断RNA聚合酶I转录的条件下,用放线菌素D(AMD)处理1类细胞,导致Rev从核仁完全重新分布到细胞质中。同时,蛋白B23部分从核仁释放,大部分进入核质,在细胞质中也有可检测到的量。在存在环己酰亚胺的情况下,从AMD处理中恢复的细胞中,Rev和B23显示出同时重新定位到核仁。2类细胞对AMD诱导的Rev重新分布具有抗性。用α-鹅膏蕈碱或DRB选择性抑制RNA聚合酶II转录,不会导致Rev释放到细胞质中,这表明活跃的前核糖体RNA转录是Rev在核仁定位所必需的。然而,用后两种药物中的任何一种在更高剂量和更长时间处理,会导致核仁部分破坏,同时Rev蛋白易位到细胞质中。这些结果表明,Rev在核仁的定位取决于持续的前核糖体RNA转录和基本完整的核仁结构。
