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通过获得补体抑制剂实现免疫逃逸:霉菌曲霉菌可结合H因子和C4b结合蛋白。

Immune evasion by acquisition of complement inhibitors: the mould Aspergillus binds both factor H and C4b binding protein.

作者信息

Vogl G, Lesiak I, Jensen D B, Perkhofer S, Eck R, Speth C, Lass-Flörl C, Zipfel P F, Blom A M, Dierich M P, Würzner R

机构信息

Department for Hygiene, Microbiology & Social Medicine, Innsbruck Medical University, Austria.

出版信息

Mol Immunol. 2008 Mar;45(5):1485-93. doi: 10.1016/j.molimm.2007.08.011. Epub 2007 Oct 25.

DOI:10.1016/j.molimm.2007.08.011
PMID:17915330
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5654503/
Abstract

Pathogenic fungi represent a major threat particularly to immunocompromised hosts, leading to severe, and often lethal, systemic opportunistic infections. Although the impaired immune status of the host is clearly the most important factor leading to disease, virulence factors of the fungus also play a role. Factor H (FH) and its splice product FHL-1 represent the major fluid phase inhibitors of the alternative pathway of complement, whereas C4b-binding protein (C4bp) is the main fluid phase inhibitor of the classical and lectin pathways. Both proteins can bind to the surface of various human pathogens conveying resistance to complement destruction and thus contribute to their pathogenic potential. We have recently shown that Candida albicans evades complement by binding both Factor H and C4bp. Here we show that moulds such as Aspergillus spp. bind Factor H, the splicing variant FHL-1 and also C4bp. Immunofluorescence and flow cytometry studies show that the binding of Factor H and C4bp to Aspergillus spp. appears to be even stronger than to Candida spp. and that different, albeit possibly nearby, binding moieties mediate this surface attachment.

摘要

致病真菌尤其对免疫功能低下的宿主构成重大威胁,可导致严重且往往致命的系统性机会性感染。虽然宿主免疫状态受损显然是导致疾病的最重要因素,但真菌的毒力因子也起作用。补体H因子(FH)及其剪接产物FHL-1是补体替代途径的主要液相抑制剂,而C4b结合蛋白(C4bp)是经典途径和凝集素途径的主要液相抑制剂。这两种蛋白均可结合多种人类病原体表面,赋予病原体对补体破坏的抗性,从而促进其致病潜能。我们最近发现,白色念珠菌通过结合补体H因子和C4bp来逃避补体。在此我们表明,曲霉属等霉菌可结合补体H因子、剪接变体FHL-1以及C4bp。免疫荧光和流式细胞术研究表明,补体H因子和C4bp与曲霉属的结合似乎比与念珠菌属的结合更强,并且不同的(尽管可能相邻)结合部分介导了这种表面附着。

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