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四胆固醇识别基序在腺苷酸环化酶毒素的孔形成和易位结构域中对于真核细胞的入侵和红细胞的溶解是必需的。

Four Cholesterol-Recognition Motifs in the Pore-Forming and Translocation Domains of Adenylate Cyclase Toxin Are Essential for Invasion of Eukaryotic Cells and Lysis of Erythrocytes.

机构信息

Department of Biochemistry and Molecular Biology, Faculty of Science and Technology, University of the Basque Country UPV/EHU, 48080 Bilbao, Spain.

Instituto Biofisika (UPV/EHU, CSIC), University of the Basque Country, 48940 Leioa, Spain.

出版信息

Int J Mol Sci. 2022 Aug 5;23(15):8703. doi: 10.3390/ijms23158703.

DOI:10.3390/ijms23158703
PMID:35955837
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9369406/
Abstract

Adenylate Cyclase Toxin (ACT or CyaA) is one of the important virulence factors secreted by , the bacterium causative of whooping cough. ACT debilitates host defenses by production of unregulated levels of cAMP into the cell cytosol upon delivery of its N-terminal domain with adenylate cyclase activity (AC domain) and by forming pores in the plasma membrane of macrophages. Binding of soluble toxin monomers to the plasma membrane of target cells and conversion into membrane-integrated proteins are the first and last step for these toxin activities; however, the molecular determinants in the protein or the target membrane that govern this conversion to an active toxin form are fully unknown. It was previously reported that cytotoxic and cytolytic activities of ACT depend on membrane cholesterol. Here we show that ACT specifically interacts with membrane cholesterol, and find in two membrane-interacting ACT domains, four cholesterol-binding motifs that are essential for AC domain translocation and lytic activities. We hypothesize that direct ACT interaction with membrane cholesterol through those four cholesterol-binding motifs drives insertion and stabilizes the transmembrane topology of several helical elements that ultimately build the ACT structure for AC delivery and pore-formation, thereby explaining the cholesterol-dependence of the ACT activities. The requirement for lipid-mediated stabilization of transmembrane helices appears to be a unifying mechanism to modulate toxicity in pore-forming toxins.

摘要

腺苷酸环化酶毒素(ACT 或 CyaA)是百日咳杆菌分泌的重要毒力因子之一。ACT 通过将具有腺苷酸环化酶活性的 N 端结构域(AC 结构域)递送至细胞胞质溶胶中,产生不受调节的 cAMP 水平,以及在巨噬细胞膜中形成孔,从而削弱宿主防御。可溶性毒素单体与靶细胞膜的结合以及转化为膜整合蛋白是这些毒素活性的第一步和最后一步;然而,控制这种转化为活性毒素形式的蛋白质或靶细胞膜中的分子决定因素尚完全未知。先前的研究表明,ACT 的细胞毒性和溶细胞活性依赖于膜胆固醇。在这里,我们表明 ACT 与膜胆固醇特异性相互作用,并在两个与膜相互作用的 ACT 结构域中发现了四个胆固醇结合基序,这些基序对于 AC 结构域易位和溶细胞活性是必需的。我们假设,通过这四个胆固醇结合基序,ACT 与膜胆固醇的直接相互作用驱动了几个螺旋元件的插入和稳定,这些元件最终构建了 ACT 结构,用于 AC 的传递和孔形成,从而解释了 ACT 活性的胆固醇依赖性。脂质介导的跨膜螺旋稳定的需求似乎是调节孔形成毒素毒性的一种统一机制。

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