Hoe Nancy P, Ireland Robin M, DeLeo Frank R, Gowen Brian B, Dorward David W, Voyich Jovanka M, Liu Mengyao, Burns Eugene H, Culnan Derek M, Bretscher Anthony, Musser James M
Laboratory of Human Bacterial Pathogenesis, National Institute of Allergy and Infectious Diseases, National Institutes of Health, 903 South 4th Street, Hamilton, MT 59840, USA.
Proc Natl Acad Sci U S A. 2002 May 28;99(11):7646-51. doi: 10.1073/pnas.112039899.
Streptococcal inhibitor of complement (Sic) is a secreted protein made predominantly by serotype M1 Group A Streptococcus (GAS), which contributes to persistence in the mammalian upper respiratory tract and epidemics of human disease. Unexpectedly, an isogenic sic-negative mutant adhered to human epithelial cells significantly better than the wild-type parental strain. Purified Sic inhibited the adherence of a sic negative serotype M1 mutant and of non-Sic-producing GAS strains to human epithelial cells. Sic was rapidly internalized by human epithelial cells, inducing cell flattening and loss of microvilli. Ezrin and moesin, human proteins that functionally link the cytoskeleton to the plasma membrane, were identified as Sic-binding proteins by affinity chromatography and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis. Sic colocalized with ezrin inside epithelial cells and bound to the F-actin-binding site region located in the carboxyl terminus of ezrin and moesin. Synthetic peptides corresponding to two regions of Sic had GAS adherence-inhibitory activity equivalent to mature Sic and inhibited binding of Sic to ezrin. In addition, the sic mutant was phagocytosed and killed by human polymorphonuclear leukocytes significantly better than the wild-type strain, and Sic colocalized with ezrin in discrete regions of polymorphonuclear leukocytes. The data suggest that binding of Sic to ezrin alters cellular processes critical for efficient GAS contact, internalization, and killing. Sic enhances bacterial survival by enabling the pathogen to avoid the intracellular environment. This process contributes to the abundance of M1 GAS in human infections and their ability to cause epidemics.
补体链球菌抑制剂(Sic)是一种主要由A组M1型链球菌(GAS)分泌的蛋白质,它有助于在哺乳动物上呼吸道中持续存在并引发人类疾病的流行。出乎意料的是,一个同基因的sic阴性突变体比野生型亲本菌株更能显著地黏附于人类上皮细胞。纯化的Sic抑制了sic阴性M1型突变体和不产生Sic的GAS菌株对人类上皮细胞的黏附。Sic能被人类上皮细胞迅速内化,导致细胞变平并失去微绒毛。埃兹蛋白(ezrin)和膜突蛋白(moesin)是在功能上连接细胞骨架和质膜的人类蛋白质,通过亲和层析和基质辅助激光解吸/电离飞行时间质谱分析被鉴定为Sic结合蛋白。Sic在上皮细胞内与埃兹蛋白共定位,并与位于埃兹蛋白和膜突蛋白羧基末端的F-肌动蛋白结合位点区域结合。与Sic两个区域相对应的合成肽具有与成熟Sic相当的GAS黏附抑制活性,并抑制Sic与埃兹蛋白的结合。此外,sic突变体被人类多形核白细胞吞噬和杀死的能力明显优于野生型菌株,并且Sic在多形核白细胞的离散区域与埃兹蛋白共定位。这些数据表明,Sic与埃兹蛋白的结合改变了对GAS有效接触、内化和杀伤至关重要的细胞过程。Sic通过使病原体避免进入细胞内环境来提高细菌的存活率。这一过程有助于M1型GAS在人类感染中的大量存在及其引发流行的能力。