Mechanisms of group B Streptococcus-mediated preterm birth: lessons learnt from animal models.

Reproduction & Fertility Pub Date : 2022-06-07 eCollection Date: 2022-07-01 DOI:10.1530/RAF-21-0105
Noble K Kurian, Deepak Modi
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引用次数: 3

Abstract

Group B Streptococcus (GBS) is an opportunistic pathogenic bacterium which upon colonization in the female reproductive tract can cause preterm births, fetal injury, and demise. Several determinants for GBS pathogenesis have been explored so far through the studies using animal models ranging from mice to non-human primates. The results from these experimental data have identified outer membrane vesicles, β-hemolysin, hyaluronidase, and Cas9 of GBS as major virulence factors leading to preterm births. Most of these factors drive inflammation through activation of NLRP3 and elevated production of IL1-β. However, the absence of one of the factors from the pathogen reduces but does not completely abolish the pathogenesis of GBS suggesting the involvement of more than one factor in causing preterm birth. This makes further exploration of other virulence factors of GBS pathogenesis important in gaining an insight into the mechanistic basis of GBS-mediated preterm births.

Lay summary: Group B Streptococcus (GBS) is a pathogenic bacteria whose infection in the reproductive tract during pregnancy can cause premature delivery. This bacterial infection is one of the major causes of death of mother and baby during pregnancy, and the bacteria is prevalent in all parts of the world. This makes the research on GBS so important and many of the mechanisms behind GBS infection during pregnancy still remain unexplored. In this review, we have outlined how various animal models contributed in finding the mechanism of GBS pathogenesis. The review also focuses on compiling various virulence factors which makes GBS pathogenic in the vulnerable. Understanding the mechanisms of infection by GBS will be crucial in developing drugs and vaccines to protect against the harmful effects of the bacteria.

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B组链球菌介导早产的机制:从动物模型中吸取的教训。
B群链球菌(GBS)是一种机会性致病细菌,在女性生殖道定植后可导致早产、胎儿损伤和死亡。到目前为止,通过使用从小鼠到非人灵长类动物的动物模型进行的研究,已经探索了GBS发病机制的几个决定因素。这些实验数据的结果表明,GBS的外膜小泡、β-溶血素、透明质酸酶和Cas9是导致早产的主要毒力因素。这些因素大多通过激活NLRP3和提高IL1-β的产生来驱动炎症。然而,病原体中没有一种因素可以减少但并不能完全消除GBS的发病机制,这表明导致早产的因素不止一种。这使得进一步探索GBS发病机制的其他毒力因素对于深入了解GBS介导的早产的机制基础具有重要意义。概述:B组链球菌(GBS)是一种致病菌,其在妊娠期间生殖道感染可导致早产。这种细菌感染是导致母亲和婴儿在怀孕期间死亡的主要原因之一,这种细菌在世界各地都很普遍。这使得对GBS的研究变得如此重要,并且妊娠期GBS感染背后的许多机制仍有待探索。在这篇综述中,我们概述了各种动物模型如何有助于发现GBS发病机制。该综述还侧重于汇编使GBS在易感人群中致病的各种毒力因子。了解GBS的感染机制对于开发药物和疫苗以抵御细菌的有害影响至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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