Iizumi Kyoichi, Mikami Yuko, Hashimoto Muneaki, Nara Takeshi, Hara Yukichi, Aoki Takashi
Department of Molecular and Cellular Parasitology, Juntendo University School of Medicine, Hongo 2-1-1, Bunkyo-ku, Tokyo 113-8421, Japan.
Biochim Biophys Acta. 2006 Jun;1758(6):738-46. doi: 10.1016/j.bbamem.2006.04.025. Epub 2006 May 16.
Maintaining low intracellular sodium concentrations is vital for almost all organisms. Na(+) efflux is generally governed by P-type ATPases, Na(+)/K(+)-ATPase in animals and Na(+)-ATPase, called ENA, in fungi and plants. Trypanosoma cruzi, which parasitizes mammalian cells, must undergo drastic adaptations to high Na(+) concentrations outside and low Na(+) concentrations inside host cells. However, T. cruzi Na(+) efflux pumps have not been identified. We report here the cloning and characterization of the gene encoding Na(+)-ATPase in T cruzi, which resembled fungal and plant ENAs, termed TcENA. TcENA was a plasma membrane protein expressed throughout the parasite life cycle. The transcription level of TcENA was higher in insect stage epimastigotes and blood stream trypomastigotes than in intracellular amastigotes, probably reflecting the high Na(+) concentration outside the host cells. Biochemical analysis of TcENA expressed heterologously in mammalian cells demonstrated, for the fist time, that the ATPase activity of TcENA is stimulated by both Na(+) and K(+) and is insensitive to ouabain, a specific inhibitor of Na(+)/K(+)-ATPases. Furthermore, epimastigotes overproducing TcENA showed increased tolerance to high Na(+) stress. Our findings suggest that TcENA acts as a sodium pump and provide insights into the regulation of ion homeostasis in the parasitic protist.
维持低细胞内钠浓度对几乎所有生物体都至关重要。钠离子外流通常由P型ATP酶控制,在动物中是钠钾ATP酶,在真菌和植物中是被称为ENA的钠ATP酶。寄生在哺乳动物细胞中的克氏锥虫必须经历剧烈的适应性变化,以应对宿主细胞外高钠浓度和细胞内低钠浓度的环境。然而,克氏锥虫的钠离子外流泵尚未被鉴定出来。我们在此报告克氏锥虫中编码钠ATP酶基因的克隆和特性,该基因类似于真菌和植物的ENA,被称为TcENA。TcENA是一种在寄生虫整个生命周期中都有表达的质膜蛋白。TcENA在昆虫阶段的上鞭毛体和血液中的锥鞭毛体中的转录水平高于细胞内无鞭毛体,这可能反映了宿主细胞外的高钠浓度。对在哺乳动物细胞中异源表达的TcENA进行生化分析首次表明,TcENA的ATP酶活性受到钠离子和钾离子的刺激,并且对钠钾ATP酶的特异性抑制剂哇巴因不敏感。此外,过量产生TcENA的上鞭毛体对高钠胁迫表现出更高的耐受性。我们的研究结果表明,TcENA作为一种钠泵发挥作用,并为寄生原生生物中离子稳态的调节提供了见解。
