调控铁-铜相互作用的分子介质。
Molecular mediators governing iron-copper interactions.
作者信息
Gulec Sukru, Collins James F
机构信息
Food Science and Human Nutrition Department, University of Florida, Gainesville, Florida 32611; email:
出版信息
Annu Rev Nutr. 2014;34:95-116. doi: 10.1146/annurev-nutr-071812-161215. Epub 2014 Jun 2.
Abstract
Given their similar physiochemical properties, it is a logical postulate that iron and copper metabolism are intertwined. Indeed, iron-copper interactions were first documented over a century ago, but the homeostatic effects of one on the other has not been elucidated at a molecular level to date. Recent experimental work has, however, begun to provide mechanistic insight into how copper influences iron metabolism. During iron deficiency, elevated copper levels are observed in the intestinal mucosa, liver, and blood. Copper accumulation and/or redistribution within enterocytes may influence iron transport, and high hepatic copper may enhance biosynthesis of a circulating ferroxidase, which potentiates iron release from stores. Moreover, emerging evidence has documented direct effects of copper on the expression and activity of the iron-regulatory hormone hepcidin. This review summarizes current experimental work in this field, with a focus on molecular aspects of iron-copper interplay and how these interactions relate to various disease states.
摘要
鉴于铁和铜具有相似的理化性质,一个合乎逻辑的假设是铁和铜的代谢相互关联。事实上,铁与铜的相互作用早在一个多世纪前就有记载,但迄今为止,二者之间的稳态效应在分子水平上尚未阐明。然而,最近的实验工作已开始为铜如何影响铁代谢提供机制上的见解。在缺铁期间,在肠黏膜、肝脏和血液中观察到铜水平升高。铜在肠细胞内的积累和/或重新分布可能影响铁的转运,而肝脏中高铜含量可能会增强循环铁氧化酶的生物合成,从而促进铁从储存部位释放。此外,新出现的证据表明铜对铁调节激素铁调素的表达和活性有直接影响。本综述总结了该领域目前的实验工作,重点关注铁与铜相互作用的分子层面以及这些相互作用与各种疾病状态的关系。
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