Field H, Farjah M, Pal A, Gull K, Field M C
Laboratory of Cell Biology, Department of Biochemistry, Imperial College of Science, Technology and Medicine, Exhibition Road, London SW7 2AY, United Kingdom.
J Biol Chem. 1998 Nov 27;273(48):32102-10. doi: 10.1074/jbc.273.48.32102.
Small G proteins of the Rab family are responsible for vesicle fusion and control flux during intracellular transport. Rab5 is important in endosome maturation and Rab4 in recycling of endocytic material. Three Rab5 isoforms identified so far in mammals and three in the yeast genome suggest that conservation of multiple Rab5 isoforms is required for sophisticated regulation of endocytosis. Trypanosoma brucei homologues of Rab5 and Rab4 (TbRab5A and TbRab4) have been identified. Here we report cloning of a second Rab5 homologue, TbRab5Bp. The TbRAB5A and -5B genes are not linked in the genome, and phylogenetic reconstruction indicates that multiple Rab5 isoforms in yeast, mammals, and trypanosomes evolved independently. Northern blots demonstrate that TbRab5A, -5B, and TbRab4 messages are expressed in bloodstream form (BSF) and procyclic forms of the parasite even though endocytosis is not very active in the latter form. mRNA levels of TbRab5A and -4 are constitutive. Multiple-sized TbRab5B messages at very low abundance are detected, with greater expression in BSF. Also, the TbRab5B mRNA has a large 3'-untranslated region suggestive of potentially complex regulation, and therefore TbRab5Bp may be an important regulator of differential endocytosis levels between BSF and procyclic stage parasites. Affinity purified antibodies raised to C-terminal peptide sequences of all three TbRab proteins recognized small vesicular cytoplasmic structures, which for TbRab5Ap and -5Bp are predominantly near the flagellar pocket. TbRab5Bp colocalizes with invariant surface glycoprotein 100 (ISG100), a protein entering the endocytotic pathway in BSF parasites, whereas in procyclic cells populations of vesicles stained with both TbRab5Ap and -5Bp substantially overlap; TbRab5 proteins are therefore components of the endocytotic pathway. TbRab4p localizes to vesicular structures throughout the cytoplasm, with some overlap with TbRab5Bp, but the majority occupying a different compartment to the TbRab5s. Therefore the trypanosome endosomal system has been functionally dissected for the first time; these reagents provide a unique opportunity for manipulation of the protozoan endosomal system to further our understanding of drug uptake mechanisms and virulence.
Rab家族的小G蛋白负责细胞内运输过程中的囊泡融合并控制通量。Rab5在内体成熟中起重要作用,而Rab4在胞吞物质的循环利用中起重要作用。在哺乳动物中迄今已鉴定出三种Rab5亚型,在酵母基因组中也鉴定出三种,这表明需要多种Rab5亚型的保守性来精细调节胞吞作用。已鉴定出布氏锥虫Rab5和Rab4的同源物(TbRab5A和TbRab4)。在此,我们报告第二种Rab5同源物TbRab5Bp的克隆。TbRAB5A和-5B基因在基因组中不连锁,系统发育重建表明酵母、哺乳动物和锥虫中的多种Rab5亚型是独立进化的。Northern印迹显示,尽管胞吞作用在后一种形式中不太活跃,但TbRab5A、-5B和TbRab4的信使核糖核酸在寄生虫的血流形式(BSF)和前循环形式中均有表达。TbRab5A和-4的信使核糖核酸水平是组成型的。检测到极低丰度的多种大小的TbRab5B信使核糖核酸,在BSF中表达更高。此外,TbRab5B信使核糖核酸有一个大的3'非翻译区,提示可能存在复杂的调控,因此TbRab5Bp可能是BSF和前循环期寄生虫之间胞吞作用水平差异的重要调节因子。针对所有三种TbRab蛋白的C末端肽序列产生的亲和纯化抗体识别小的囊泡状细胞质结构,对于TbRab5Ap和-5Bp来说,这些结构主要靠近鞭毛袋。TbRab5Bp与不变表面糖蛋白100(ISG100)共定位,ISG100是一种进入BSF寄生虫胞吞途径的蛋白质,而在前循环细胞中,用TbRab5Ap和-5Bp染色的囊泡群体基本重叠;因此,TbRab5蛋白是胞吞途径的组成部分。TbRab4p定位于整个细胞质中的囊泡结构,与TbRab5Bp有一些重叠,但大多数占据与TbRab5不同的区室。因此,首次对锥虫的内体系统进行了功能剖析;这些试剂为操纵原生动物内体系统提供了独特的机会,以加深我们对药物摄取机制和毒力的理解。
