尿路致病性大肠杆菌致病岛及其他肠外致病性大肠杆菌毒力基因可能导致肠侵袭性大肠杆菌的基因组变异性。
Uropathogenic Escherichia coli pathogenicity islands and other ExPEC virulence genes may contribute to the genome variability of enteroinvasive E. coli.
作者信息
da Silva Laís Cristina, de Mello Santos Ana Carolina, Silva Rosa Maria
机构信息
Department of Microbiology, Immunology, and Parasitology, Federal University of São Paulo, Rua Botucatu 862, CEP 04023-062, São Paulo, SP, Brazil.
出版信息
BMC Microbiol. 2017 Mar 16;17(1):68. doi: 10.1186/s12866-017-0979-5.
BACKGROUND
Enteroinvasive Escherichia coli (EIEC) may be the causative agent of part of those million cases of diarrhea illness reported worldwide every year and attributable to Shigella. That is because both enteropathogens have many common characteristics that difficult their identification either by traditional microbiological methods or by molecular tools used in the clinical laboratory settings. While Shigella has been extensively studied, EIEC remains barely characterized at the molecular level. Recent EIEC important outbreaks, apparently generating more life-threatening cases, have prompted us to screen EIEC for virulence traits usually related to extraintestinal pathogenic E. coli (ExPEC). That could explain the appearance of EIEC strains presenting higher virulence potential.
RESULTS
EIEC strains were distributed mainly in three phylogroups in a serogroup-dependent manner. Serogroups O124, O136, O144, and O152 were exclusively classified in phylogroup A; O143 in group E; and O28ac and O29 in group B1. Only two serogroups showed diverse phylogenetic origin as follows: O164 was assigned to groups A, B1, C, and B2 (one strain each), and O167 in groups E (five strains), and A (one strain) (Table 1). Eleven of 20 virulence genes (VGs) searched were detected, and the majority of the 19 different VGs combinations found were serogroup-specific. Uropathogenic E. coli (UPEC) PAI genetic markers were detected in all EIEC strains. PAIs I and II were the most frequent (92.1 and 80.4%, respectively). PAI IV was restricted to some serogroups from phylogroups A, B1 and E. PAI I was uniquely detected in phylogroups B2 and E. A total of 45 (88%) strains presented multiple PAI markers (two to four). PAIs I and II were found together in 80% of strains.
CONCLUSIONS
EIEC is a DEC pathovar that presents VGs and pathogenicity island genetic markers typically associated with ExPEC, especially UPEC. These features are distributed in a phylogenetic and serogroup-dependent manner suggesting the existence of stable EIEC subclones. The presence of phylogroups B2 and E strains allied to the presence of UPEC virulence-associated genes may underscore the ongoing evolution of EIEC towards a hypervirulent pathotype.
背景
侵袭性大肠杆菌(EIEC)可能是每年全球报告的数百万例腹泻疾病中部分由志贺氏菌引起病例的病原体。这是因为这两种肠道病原体有许多共同特征,使得通过传统微生物学方法或临床实验室使用的分子工具进行鉴定变得困难。虽然志贺氏菌已得到广泛研究,但EIEC在分子水平上仍几乎未得到充分表征。近期EIEC的重要暴发,显然导致了更多危及生命的病例,促使我们筛选EIEC中通常与肠外致病性大肠杆菌(ExPEC)相关的毒力特征。这可以解释具有更高毒力潜力的EIEC菌株的出现。
结果
EIEC菌株主要以血清群依赖的方式分布在三个系统发育群中。血清群O124、O136、O144和O152仅归类于A系统发育群;O143在E群;O28ac和O29在B1群。只有两个血清群显示出不同的系统发育起源,如下所示:O164被分配到A、B1、C和B2群(各一株),O167在E群(五株)和A群(一株)(表1)。在所搜索的20个毒力基因(VG)中检测到11个,并且发现的19种不同VG组合中的大多数是血清群特异性的。在所有EIEC菌株中均检测到尿路致病性大肠杆菌(UPEC)致病岛遗传标记。致病岛I和II最为常见(分别为92.1%和80.4%)。致病岛IV仅限于A、B1和E系统发育群的一些血清群。致病岛I仅在B2和E系统发育群中检测到。共有45株(88%)菌株呈现多个致病岛标记(两到四个)。80%的菌株中同时发现致病岛I和II。
结论
EIEC是一种腹泻致病性变种,具有通常与ExPEC,尤其是UPEC相关的VG和致病岛遗传标记。这些特征以系统发育和血清群依赖的方式分布,表明存在稳定的EIEC亚克隆。与UPEC毒力相关基因相关的B2和E系统发育群菌株的存在可能突出了EIEC向高毒力致病型的持续进化。
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