Conformational States and kinetics of the calcium binding domain of NADPH oxidase 5.

Q3 Biochemistry, Genetics and Molecular Biology Open Biochemistry Journal Pub Date : 2010-05-18 DOI:10.2174/1874091X01004010059
Chin-Chuan Wei, Nicole Motl, Kelli Levek, Liu Qi Chen, Ya-Ping Yang, Tremylla Johnson, Lindsey Hamilton, Dennis J Stuehr
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引用次数: 15

Abstract

Superoxide generated by human NADPH oxidase 5 (NOX5) is of growing importance for various physiological and pathological processes. The activity of NOX5 appears to be regulated by a self-contained Ca(2+) binding domain (CaBD). Recently Bánfi et al. suggest that the conformational change of CaBD upon Ca(2+) binding is essential for domain-domain interaction and superoxide production. The authors studied its structural change using intrinsic Trp fluorescence and hydrophobic dye binding; however, their conformational study was not thorough and the kinetics of metal binding was not demonstrated. Here we generated the recombinant CaBD and an E99Q/E143Q mutant to characterize them using fluorescence spectroscopy. Ca(2+) binding to CaBD induces a conformational change that exposes hydrophobic patches and increases the quenching accessibilities of its Trp residues and AEDANS at Cys107. The circular dichroism spectra indicated no significant changes in the secondary structures of CaBD upon metal binding. Stopped-flow spectrometry revealed a fast Ca(2+) dissociation from the N-terminal half, followed by a slow Ca(2+) dissociation from the C-terminal half. Combined with a chemical stability study, we concluded that the C-terminal half of CaBD has a higher Ca(2+) binding affinity, a higher chemical stability, and a slow Ca(2+) dissociation. The Mg(2+)-bound CaBD was also investigated and the results indicate that its structure is similar to the apo form. The rate of Mg(2+) dissociation was close to that of Ca(2+) dissociation. Our data suggest that the N- and C-terminal halves of CaBD are not completely structurally independent.

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NADPH氧化酶钙结合结构域的构象状态和动力学。
人NADPH氧化酶5 (NOX5)产生的超氧化物在各种生理和病理过程中发挥着越来越重要的作用。NOX5的活性似乎是由一个自包含的Ca(2+)结合域(CaBD)调节的。最近Bánfi等人提出,Ca(2+)结合后CaBD的构象变化对于域-域相互作用和超氧化物的产生至关重要。利用本征色氨酸荧光和疏水染料结合研究了其结构变化;然而,它们的构象研究并不彻底,金属结合动力学也没有得到证实。在这里,我们产生了重组CaBD和E99Q/E143Q突变体,并使用荧光光谱对它们进行了表征。Ca(2+)与CaBD结合诱导构象变化,暴露疏水斑块,增加其Trp残基和Cys107上的AEDANS的猝灭可及性。圆二色性光谱表明,金属结合后CaBD的二级结构没有明显变化。停流光谱分析显示,Ca(2+)从n端快速解离,然后是Ca(2+)从c端缓慢解离。结合化学稳定性研究,我们得出CaBD的c端一半具有较高的Ca(2+)结合亲和力,较高的化学稳定性和缓慢的Ca(2+)解离。对Mg(2+)结合的CaBD进行了研究,结果表明其结构类似于载脂蛋白形式。Mg(2+)的解离速率与Ca(2+)的解离速率相近。我们的数据表明,CaBD的N端和c端在结构上不是完全独立的。
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来源期刊
Open Biochemistry Journal
Open Biochemistry Journal Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
1.50
自引率
0.00%
发文量
5
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