丝氨酸蛋白酶HtrA在食源性致病菌空肠弯曲杆菌生命周期中的作用。

European Journal of Microbiology & Immunology Pub Date : 2018-07-17 eCollection Date: 2018-09-28 DOI:10.1556/1886.2018.00011
Manja Boehm, Daniel Simson, Ulrike Escher, Anna-Maria Schmidt, Stefan Bereswill, Nicole Tegtmeyer, Steffen Backert, Markus M Heimesaat
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引用次数: 29

摘要

空肠弯曲杆菌是一种主要的食源性人畜共患病原体,造成很大比例的细菌性肠胃炎病例,以及吉利安-巴罗尔斯综合征和米勒-费舍尔综合征。在感染过程中,组织损伤主要是由细菌侵入上皮细胞并穿过肠道屏障引起的。空肠梭菌能够进入固有层和血液,并可能进入其他器官,如脾脏、肝脏或肠系膜淋巴结。然而,所涉及的分子机制尚不完全清楚。空肠梭菌主要通过丝氨酸蛋白酶高温需要A (HtrA)的胞旁途径在极化肠上皮细胞间进行有效的迁移。然而,HtrA似乎具有双重功能,因为它也作为伴侣,在应激条件下与变性或错误折叠的质周蛋白相互作用。本文就HtrA在空肠梭菌发病机制中的作用作一综述。HtrA可以被运输到细胞外空间,分裂细胞间连接因子,如E-cadherin等,破坏上皮屏障,使细菌能够胞外转运。HtrA的分泌是一种新发现的策略,也被其他病原体利用。因此,分泌的HtrA蛋白酶代表了抗菌治疗的高度有吸引力的靶点,并可能为疫苗开发提供合适的候选物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Function of Serine Protease HtrA in the Lifecycle of the Foodborne Pathogen <i>Campylobacter jejuni</i>.

Function of Serine Protease HtrA in the Lifecycle of the Foodborne Pathogen Campylobacter jejuni.

Campylobacter jejuni is a major food-borne zoonotic pathogen, responsible for a large proportion of bacterial gastroenteritis cases, as well as Guillian-Barré and Miller-Fisher syndromes. During infection, tissue damage is mainly caused by bacteria invading epithelial cells and traversing the intestinal barrier. C. jejuni is able to enter the lamina propria and the bloodstream and may move into other organs, such as spleen, liver, or mesenteric lymph nodes. However, the involved molecular mechanisms are not fully understood. C. jejuni can transmigrate effectively across polarized intestinal epithelial cells mainly by the paracellular route using the serine protease high-temperature requirement A (HtrA). However, it appears that HtrA has a dual function, as it also acts as a chaperone, interacting with denatured or misfolded periplasmic proteins under stress conditions. Here, we review recent progress on the role of HtrA in C. jejuni pathogenesis. HtrA can be transported into the extracellular space and cleaves cell-to-cell junction factors, such as E-cadherin and probably others, disrupting the epithelial barrier and enabling paracellular transmigration of the bacteria. The secretion of HtrA is a newly discovered strategy also utilized by other pathogens. Thus, secreted HtrA proteases represent highly attractive targets for anti-bacterial treatment and may provide a suitable candidate for vaccine development.

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