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铁调节蛋白1的铁反应性降解不需要铁硫簇。

Iron-responsive degradation of iron-regulatory protein 1 does not require the Fe-S cluster.

作者信息

Clarke Stephen L, Vasanthakumar Aparna, Anderson Sheila A, Pondarré Corinne, Koh Cheryl M, Deck Kathryn M, Pitula Joseph S, Epstein Charles J, Fleming Mark D, Eisenstein Richard S

机构信息

Department of Nutritional Sciences, University of Wisconsin, Madison, WI 53706, USA.

出版信息

EMBO J. 2006 Feb 8;25(3):544-53. doi: 10.1038/sj.emboj.7600954. Epub 2006 Jan 19.

DOI:10.1038/sj.emboj.7600954
PMID:16424901
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1383537/
Abstract

The generally accepted role of iron-regulatory protein 1 (IRP1) in orchestrating the fate of iron-regulated mRNAs depends on the interconversion of its cytosolic aconitase and RNA-binding forms through assembly/disassembly of its Fe-S cluster, without altering protein abundance. Here, we show that IRP1 protein abundance can be iron-regulated. Modulation of IRP1 abundance by iron did not require assembly of the Fe-S cluster, since a mutant with all cluster-ligating cysteines mutated to serine underwent iron-induced protein degradation. Phosphorylation of IRP1 at S138 favored the RNA-binding form and promoted iron-dependent degradation. However, phosphorylation at S138 was not required for degradation. Further, degradation of an S138 phosphomimetic mutant was not blocked by mutation of cluster-ligating cysteines. These findings were confirmed in mouse models with genetic defects in cytosolic Fe-S cluster assembly/disassembly. IRP1 RNA-binding activity was primarily regulated by IRP1 degradation in these animals. Our results reveal a mechanism for regulating IRP1 action relevant to the control of iron homeostasis during cell proliferation, inflammation, and in response to diseases altering cytosolic Fe-S cluster assembly or disassembly.

摘要

铁调节蛋白1(IRP1)在协调铁调节mRNA命运方面的公认作用取决于其胞质乌头酸酶和RNA结合形式通过其铁硫簇的组装/拆卸进行的相互转化,而不会改变蛋白质丰度。在此,我们表明IRP1的蛋白质丰度可以受到铁的调节。铁对IRP1丰度的调节不需要铁硫簇的组装,因为所有与簇结合的半胱氨酸都突变为丝氨酸的突变体经历了铁诱导的蛋白质降解。IRP1在S138处的磷酸化有利于RNA结合形式并促进铁依赖性降解。然而,S138处的磷酸化对于降解不是必需的。此外,S138磷酸模拟突变体的降解不会被与簇结合的半胱氨酸的突变所阻断。这些发现在胞质铁硫簇组装/拆卸存在遗传缺陷的小鼠模型中得到了证实。在这些动物中,IRP1的RNA结合活性主要受IRP1降解的调节。我们的结果揭示了一种在细胞增殖、炎症以及对改变胞质铁硫簇组装或拆卸的疾病作出反应期间调节与铁稳态控制相关的IRP1作用的机制。

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