EspG,一种来自肠致病性大肠杆菌的新型III型系统分泌蛋白,与福氏志贺菌的VirA相似。
EspG, a novel type III system-secreted protein from enteropathogenic Escherichia coli with similarities to VirA of Shigella flexneri.
作者信息
Elliott S J, Krejany E O, Mellies J L, Robins-Browne R M, Sasakawa C, Kaper J B
机构信息
Center for Vaccine Development and Department of Microbiology and Immunology, University of Maryland School of Medicine, Baltimore 21201, USA.
出版信息
Infect Immun. 2001 Jun;69(6):4027-33. doi: 10.1128/IAI.69.6.4027-4033.2001.
Abstract
The function of the rorf2 gene located on the locus of enterocyte effacement (LEE) pathogenicity island of enteropathogenic Escherichia coli (EPEC) has not been described. We report that rorf2 encodes a novel protein, named EspG, which is secreted by the type III secretory system and which is translocated into host epithelial cells. EspG is homologous with Shigella flexneri protein VirA, and the cloned espG (rorf2) gene can rescue invasion in a Shigella virA mutant, indicating that these proteins are functionally equivalent in Shigella. An EPEC espG mutant had no apparent defects in in vitro assays of virulence phenotypes, but a rabbit diarrheagenic E. coli strain carrying a mutant espG showed diminished intestinal colonization and yet diarrheal attack rates similar to those of the wild type. A second EspG homolog, Orf3, is encoded on the EspC pathogenicity islet. The cloned orf3 gene could also rescue invasion in a Shigella virA mutant, but an EPEC espG orf3 double mutant was not diminished in any tested in vitro assays for EPEC virulence factors. Our results indicate that EspG plays an accessory but as yet undefined role in EPEC virulence that may involve intestinal colonization.
摘要
位于肠致病性大肠杆菌(EPEC)肠细胞脱落位点(LEE)致病岛上的rorf2基因的功能尚未见报道。我们报告称rorf2编码一种名为EspG的新型蛋白质,它由III型分泌系统分泌并转运至宿主上皮细胞中。EspG与弗氏志贺菌蛋白VirA同源,克隆的espG(rorf2)基因可拯救志贺菌virA突变体的侵袭能力,这表明这些蛋白在志贺菌中功能等同。EPEC espG突变体在毒力表型的体外检测中无明显缺陷,但携带突变espG的兔致泻性大肠杆菌菌株的肠道定殖能力减弱,不过腹泻发病率与野生型相似。第二个EspG同源物Orf3编码于EspC致病岛上。克隆的orf3基因也可拯救志贺菌virA突变体的侵袭能力,但EPEC espG orf3双突变体在任何检测EPEC毒力因子的体外试验中均未减弱。我们的结果表明,EspG在EPEC毒力中起辅助作用,但作用尚未明确,可能涉及肠道定殖。
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