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生理钙浓度调节钙调蛋白与腺苷酸环化酶外毒素的结合及催化作用。

Physiological calcium concentrations regulate calmodulin binding and catalysis of adenylyl cyclase exotoxins.

作者信息

Shen Yuequan, Lee Young-Sam, Soelaiman Sandriyana, Bergson Pamela, Lu Dan, Chen Alice, Beckingham Kathy, Grabarek Zenon, Mrksich Milan, Tang Wei-Jen

机构信息

Ben-May Institute for Cancer Research, The University of Chicago, Chicago, IL 60637, USA.

出版信息

EMBO J. 2002 Dec 16;21(24):6721-32. doi: 10.1093/emboj/cdf681.

DOI:10.1093/emboj/cdf681
PMID:12485993
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC139101/
Abstract

Edema factor (EF) and CyaA are calmodulin (CaM)-activated adenylyl cyclase exotoxins involved in the pathogenesis of anthrax and whooping cough, respectively. Using spectroscopic, enzyme kinetic and surface plasmon resonance spectroscopy analyses, we show that low Ca(2+) concentrations increase the affinity of CaM for EF and CyaA causing their activation, but higher Ca(2+) concentrations directly inhibit catalysis. Both events occur in a physiologically relevant range of Ca(2+) concentrations. Despite the similarity in Ca(2+) sensitivity, EF and CyaA have substantial differences in CaM binding and activation. CyaA has 100-fold higher affinity for CaM than EF. CaM has N- and C-terminal globular domains, each binding two Ca(2+) ions. CyaA can be fully activated by CaM mutants with one defective C-terminal Ca(2+)-binding site or by either terminal domain of CaM while EF cannot. EF consists of a catalytic core and a helical domain, and both are required for CaM activation of EF. Mutations that decrease the interaction of the helical domain with the catalytic core create an enzyme with higher sensitivity to Ca(2+)-CaM activation. However, CyaA is fully activated by CaM without the domain corresponding to the helical domain of EF.

摘要

水肿因子(EF)和百日咳毒素(CyaA)是钙调蛋白(CaM)激活的腺苷酸环化酶外毒素,分别参与炭疽病和百日咳的发病机制。通过光谱分析、酶动力学分析和表面等离子体共振光谱分析,我们发现低浓度的Ca(2+)会增加CaM对EF和CyaA的亲和力,从而导致它们的激活,但高浓度的Ca(2+)会直接抑制催化作用。这两种情况都发生在生理相关的Ca(2+)浓度范围内。尽管在Ca(2+)敏感性方面存在相似性,但EF和CyaA在CaM结合和激活方面存在显著差异。CyaA对CaM的亲和力比EF高100倍。CaM具有N端和C端球状结构域,每个结构域结合两个Ca(2+)离子。CyaA可以被具有一个缺陷C端Ca(2+)结合位点的CaM突变体或CaM的任何一个末端结构域完全激活,而EF则不能。EF由一个催化核心和一个螺旋结构域组成,两者都是CaM激活EF所必需的。降低螺旋结构域与催化核心相互作用的突变会产生一种对Ca(2+)-CaM激活更敏感的酶。然而,CyaA在没有与EF螺旋结构域相对应结构域的情况下也能被CaM完全激活。

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