IBA57招募ISCA2以形成一个由[2Fe-2S]簇介导的复合物。

IBA57 Recruits ISCA2 to Form a [2Fe-2S] Cluster-Mediated Complex.

作者信息

Gourdoupis Spyridon, Nasta Veronica, Calderone Vito, Ciofi-Baffoni Simone, Banci Lucia

机构信息

Magnetic Resonance Center CERM , University of Florence , Via Luigi Sacconi 6 , 50019 Sesto Fiorentino, Florence , Italy.

Department of Chemistry , University of Florence , Via della Lastruccia 3 , 50019 Sesto Fiorentino, Florence , Italy.

出版信息

J Am Chem Soc. 2018 Oct 31;140(43):14401-14412. doi: 10.1021/jacs.8b09061. Epub 2018 Oct 17.

DOI:10.1021/jacs.8b09061

PMID:30269484

Abstract

The maturation of mitochondrial iron-sulfur proteins requires a complex protein machinery. Human IBA57 protein was proposed to act in a late phase of this machinery, along with GLRX5, ISCA1, and ISCA2. However, a molecular picture on how these proteins cooperate is not defined yet. We show here that IBA57 forms a heterodimeric complex with ISCA2 by bridging a [2Fe-2S] cluster, that [2Fe-2S] cluster binding is absolutely required to promote the complex formation, and that the cysteine of the conserved motif characterizing IBA57 protein family and the three conserved cysteines of the ISCA protein family act as cluster ligands. The [2Fe-2S] heterodimeric complex is the final product when IBA57 is either exposed to [2Fe-2S] ISCA2 or in the presence of [2Fe-2S] GLRX5 and apo ISCA2. We also find that the [2Fe-2S] ISCA2-IBA57 complex is resistant to highly oxidative environments and is capable of reactivating apo aconitase in vitro. Collectively, our data delinate a [2Fe-2S] cluster transfer pathway involving three partner proteins of the mitochondrial ISC machinery, that is, GLRX5, ISCA2 and IBA57, which leads to the formation of a [2Fe-2S] ISCA2-IBA57 complex.

摘要

线粒体铁硫蛋白的成熟需要复杂的蛋白质机制。人类IBA57蛋白被认为在该机制的后期与GLRX5、ISCA1和ISCA2一起发挥作用。然而，关于这些蛋白质如何协同作用的分子图景尚未明确。我们在此表明，IBA57通过桥接一个[2Fe-2S]簇与ISCA2形成异二聚体复合物，促进复合物形成绝对需要[2Fe-2S]簇结合，并且IBA57蛋白家族特征性保守基序的半胱氨酸以及ISCA蛋白家族的三个保守半胱氨酸作为簇配体。当IBA57暴露于[2Fe-2S] ISCA2或在[2Fe-2S] GLRX5和脱辅基ISCA2存在的情况下，[2Fe-2S]异二聚体复合物是最终产物。我们还发现，[2Fe-2S] ISCA2-IBA57复合物对高氧化环境具有抗性，并且能够在体外重新激活脱辅基乌头酸酶。总体而言，我们的数据描绘了一条涉及线粒体ISC机制的三种伙伴蛋白（即GLRX5、ISCA2和IBA57）的[2Fe-2S]簇转移途径，该途径导致形成[2Fe-2S] ISCA2-IBA57复合物。

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IBA57招募ISCA2以形成一个由[2Fe-2S]簇介导的复合物。

IBA57 Recruits ISCA2 to Form a [2Fe-2S] Cluster-Mediated Complex.

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