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在应对饮食缺铁和急性铁过载时,5' IRE 内含子 mRNA 的差异翻译调控。

Differential translational control of 5' IRE-containing mRNA in response to dietary iron deficiency and acute iron overload.

机构信息

University of Wisconsin-Madison, Department of Nutritional Sciences, 1415 Linden Drive, Madison, WI 53706, USA.

出版信息

Metallomics. 2020 Dec 23;12(12):2186-2198. doi: 10.1039/d0mt00192a.

DOI:10.1039/d0mt00192a
PMID:33325950
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8057200/
Abstract

Iron regulatory proteins (IRPs) are iron-responsive RNA binding proteins that dictate changes in cellular iron metabolism in animal cells by controlling the fate of mRNAs containing iron responsive elements (IREs). IRPs have broader physiological roles as some targeted mRNAs encode proteins with functions beyond iron metabolism suggesting hierarchical regulation of IRP-targeted mRNAs. We observe that the translational regulation of IRP-targeted mRNAs encoding iron storage (L- and H-ferritins) and export (ferroportin) proteins have different set-points of iron responsiveness compared to that for the TCA cycle enzyme mitochondrial aconitase. The ferritins and ferroportin mRNA were largely translationally repressed in the liver of rats fed a normal diet whereas mitochondrial aconitase mRNA is primarily polysome bound. Consequently, acute iron overload increases polysome association of H- and L-ferritin and ferroportin mRNAs while mitochondrial aconitase mRNA showed little stimulation. Conversely, mitochondrial aconitase mRNA is most responsive in iron deficiency. These differences in regulation were associated with a faster off-rate of IRP1 for the IRE of mitochondrial aconitase in comparison to that of L-ferritin. Thus, hierarchical control of mRNA translation by IRPs involves selective control of cellular functions acting at different states of cellular iron status and that are critical for adaptations to iron deficiency or prevention of iron toxicity.

摘要

铁调节蛋白(IRP)是一种铁反应性 RNA 结合蛋白,通过控制含有铁反应元件(IRE)的 mRNA 的命运,调节动物细胞中的细胞内铁代谢变化。IRP 具有更广泛的生理作用,因为一些靶向 mRNA 编码的蛋白质具有铁代谢以外的功能,这表明 IRP 靶向的 mRNA 受到分级调控。我们观察到,铁储存(L-和 H-铁蛋白)和铁输出(亚铁蛋白)蛋白的 IRP 靶向 mRNA 的翻译调控与三羧酸循环酶线粒体顺乌头酸酶的铁反应性有不同的设定点。在正常饮食喂养的大鼠肝脏中,铁蛋白和亚铁蛋白 mRNA 主要被翻译抑制,而线粒体顺乌头酸酶 mRNA 主要与多核糖体结合。因此,急性铁过载会增加 H-和 L-铁蛋白和亚铁蛋白 mRNA 的多核糖体结合,而线粒体顺乌头酸酶 mRNA 的刺激作用较小。相反,在铁缺乏时,线粒体顺乌头酸酶 mRNA 的反应性最强。这些调节差异与 IRP1 对线粒体顺乌头酸酶 IRE 的解联速率与 L-铁蛋白相比更快有关。因此,IRP 对 mRNA 翻译的分级控制涉及到对细胞功能的选择性控制,这些功能在细胞铁状态的不同状态下发挥作用,对于适应铁缺乏或防止铁毒性至关重要。

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3
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4
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5
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6
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