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Author:
Date:
2018-01-20
[Abstract] To efficiently colonize the nasopharyngeal epithelium, the human restricted pathogen Neisseria meningitidis follows a multistep adhesion cascade. First, the bacteria adhere to host cells and aggregate into spherical shaped structures called microcolonies. Several hours later, single bacteria start dispersing from the microcolonies and form a monolayer on top of the host cells. Once in proximity to host cells meningococci can adhere tightly to the epithelial surface or become internalized. This can eventually result in invasion of the mucosal surfaces and gain access to the ...
[摘要] 为了有效地定居鼻咽上皮,人类限制性病原体脑膜炎奈瑟氏球菌遵循多步粘附级联。首先,细菌粘附到宿主细胞并聚集成称为微菌落的球形结构。几个小时后,单细菌开始从微菌落分散并在宿主细胞上形成单层。一旦接近宿主细胞,脑膜炎球菌可紧密地粘附在上皮表面或内化。这最终可能导致粘膜表面的侵入并进入血液,导致危及生命的疾病。乳酸是一种来源于人类上皮细胞的代谢物,之前已被证明能诱导N的快速分散。 meningitidis 来自微菌落。在这里,我们描述基于活细胞成像的宿主细胞自由方法来检查宿主来源的乳酸对N的时间的影响。 meningitides microcolony扩散。虽然在这个协议中我们使用乳酸盐,它可以很容易地修改,以测试其他分子的影响。
【背景】ñ。脑膜炎是引起败血症和/或脑膜炎的专性人类病原体。鼻咽上皮的初始附着和随后形成的小菌落是建立感染的第一步。为了导致疾病N。脑膜炎奈瑟球必须穿过鼻咽粘膜上皮屏障,其天然储库,并进入血液(Stephens,2009; ...
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