Eisenstein R S, Blemings K P
Department of Nutritional Sciences, University of Wisconsin-Madison, Madison, WI 53706, USA.
J Nutr. 1998 Dec;128(12):2295-8. doi: 10.1093/jn/128.12.2295.
The discovery of iron regulatory proteins (IRPs) has provided a molecular framework from which to more fully understand the coordinate regulation of vertebrate iron metabolism. IRPs bind to iron responsive elements (IREs) in specific mRNAs and regulate their utilization. The targets of IRP action now appear to extend beyond proteins that function in the storage (ferritin) or cellular uptake (transferrin receptor) of iron to include those involved in other aspects of iron metabolism as well as in the tricarboxylic acid cycle. To date, it appears that IRPs modulate the utilization of six mammalian mRNAs. Current studies are aimed at defining the mechanisms responsible for the hierarchical regulation of these mRNAs by IRPs. In addition, much interest continues to focus on the signaling pathways through which IRP function is regulated. Multiple factors modulate the RNA binding activity of IRP1 and/or IRP2 including iron, nitric oxide, phosphorylation by protein kinase C, oxidative stress and hypoxia/reoxygenation. Because IRPs are key modulators of the uptake and metabolic fate of iron in cells, they are focal points for the modulation of cellular iron homeostasis in response to a variety of agents and circumstances.
铁调节蛋白(IRPs)的发现提供了一个分子框架,借此能更全面地理解脊椎动物铁代谢的协调调节。IRPs与特定mRNA中的铁反应元件(IREs)结合并调节其利用。现在看来,IRP作用的靶点不仅包括在铁储存(铁蛋白)或细胞摄取(转铁蛋白受体)中起作用的蛋白质,还包括参与铁代谢其他方面以及三羧酸循环的蛋白质。迄今为止,IRPs似乎调节六种哺乳动物mRNA的利用。目前的研究旨在确定IRPs对这些mRNA进行分级调节的机制。此外,人们仍对调节IRP功能的信号通路十分关注。多种因素可调节IRP1和/或IRP2的RNA结合活性,包括铁、一氧化氮、蛋白激酶C的磷酸化、氧化应激和缺氧/复氧。由于IRPs是细胞中铁摄取和代谢命运的关键调节因子,它们是响应各种因素和情况调节细胞铁稳态的焦点。
