小GTP结合蛋白rab7对幽门螺杆菌细胞毒素诱导的细胞空泡化至关重要。
The small GTP binding protein rab7 is essential for cellular vacuolation induced by Helicobacter pylori cytotoxin.
作者信息
Papini E, Satin B, Bucci C, de Bernard M, Telford J L, Manetti R, Rappuoli R, Zerial M, Montecucco C
机构信息
Centro CNR Biomembrane and Dipartimento di Scienze Biomediche, Università di Padova, Italy.
出版信息
EMBO J. 1997 Jan 2;16(1):15-24. doi: 10.1093/emboj/16.1.15.
Abstract
The VacA cytotoxin, produced by toxigenic strains of Helicobacter pylori, induces the formation of large vacuoles highly enriched in the small GTPase rab7. To probe the role of rab7 in vacuolization, HeLa cells were transfected with a series of rab mutants and exposed to VacA. Dominant-negative mutants of rab7 effectively prevented vacuolization, whereas homologous rab5 and rab9 mutants were only partially inhibitory or ineffective, respectively. Expression of wild-type or GTPase-deficient rab mutants synergized with VacA in inducing vacuolization. In vitro fusion of late endosomes was enhanced by active rab7 and inhibited by inactive rab7, consistent with vacuole formation by merging of late endosomes in a process that requires functional rab7. Taken together, the effects of overexpressed rab proteins described here indicate that continuous membrane flow along the endocytic pathway is necessary for vacuole growth.
摘要
由产毒素幽门螺杆菌菌株产生的VacA细胞毒素可诱导形成富含小GTP酶rab7的大液泡。为了探究rab7在空泡化中的作用,将一系列rab突变体转染至HeLa细胞并使其暴露于VacA。rab7的显性负性突变体有效阻止了空泡化,而同源的rab5和rab9突变体分别仅具有部分抑制作用或无效。野生型或GTP酶缺陷型rab突变体的表达与VacA协同诱导空泡化。活性rab7增强晚期内体的体外融合,而非活性rab7抑制其融合,这与晚期内体在需要功能性rab7的过程中合并形成液泡一致。综上所述,此处所述过表达rab蛋白的作用表明,沿内吞途径的持续膜流对液泡生长是必要的。
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