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通过与 GW 结构域的相互作用,细胞壁磷壁酸的 l-鼠李糖基化促进李斯特菌毒力因子 InlB 和 Ami 的有效表面结合。

l-Rhamnosylation of wall teichoic acids promotes efficient surface association of Listeria monocytogenes virulence factors InlB and Ami through interaction with GW domains.

机构信息

i3S - Instituto de Investigação e Inovação em Saúde, Universidade do Porto, Porto, Portugal.

Group of Molecular Microbiology, IBMC - Instituto de Biologia Molecular e Celular, Universidade do Porto, Porto, Portugal.

出版信息

Environ Microbiol. 2018 Nov;20(11):3941-3951. doi: 10.1111/1462-2920.14351. Epub 2018 Jul 31.

DOI:10.1111/1462-2920.14351
PMID:29984543
Abstract

Wall teichoic acids (WTAs) are important surface glycopolymers involved in various physiological processes occurring in the Gram-positive cell envelope. We previously showed that the decoration of Listeria monocytogenes (Lm) WTAs with l-rhamnose conferred resistance against antimicrobial peptides. Here, we show that WTA l-rhamnosylation also contributes to physiological levels of autolysis in Lm through a mechanism that requires efficient association of Ami, a virulence-promoting autolysin belonging to the GW protein family, to the bacterial cell surface. Importantly, WTA l-rhamnosylation also controls the surface association of another GW protein, the invasin internalin B (InlB), that promotes Lm invasion of host cells. Whereas WTA N-acetylglucosaminylation is not a prerequisite for GW protein surface association, lipoteichoic acids appear to also play a role in the surface anchoring of InlB. Strikingly, while the GW domains of Ami, InlB and Auto (another autolysin contributing to cell invasion and virulence) are sufficient to mediate surface association, this is not the case for the GW domains of the remaining six uncharacterized Lm GW proteins. Overall, we reveal WTA l-rhamnosylation as a bacterial surface modification mechanism that contributes to Lm physiology and pathogenesis by controlling the surface association of GW proteins involved in autolysis and infection.

摘要

细胞壁磷壁酸(WTAs)是参与革兰氏阳性菌细胞包膜中各种生理过程的重要表面糖聚合物。我们之前的研究表明,李斯特菌(Lm)WTAs 上的 l-鼠李糖修饰赋予了其对抗菌肽的抗性。在这里,我们发现 WTA l-鼠李糖基化也通过一种机制促进了 Lm 的生理水平自溶,这种机制需要促进毒力的自溶酶 Ami(属于 GW 蛋白家族)与细菌表面的有效结合。重要的是,WTA l-鼠李糖基化还控制了另一种 GW 蛋白侵袭素内蛋白 B(InlB)的表面结合,促进了 Lm 对宿主细胞的侵袭。虽然 WTA N-乙酰氨基葡萄糖基化不是 GW 蛋白表面结合的先决条件,但脂磷壁酸似乎也在 InlB 的表面锚定中发挥作用。引人注目的是,虽然 Ami、InlB 和 Auto(另一种有助于细胞入侵和毒力的自溶酶)的 GW 结构域足以介导表面结合,但其余六个未表征的 Lm GW 蛋白的 GW 结构域并非如此。总的来说,我们揭示了 WTA l-鼠李糖基化作为一种细菌表面修饰机制,通过控制参与自溶和感染的 GW 蛋白的表面结合,促进了 Lm 的生理和发病机制。

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