氧稳态与铁代谢相互作用的分子基础的新观点

S. Recalcati, Elena Gammella, G. Cairo
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引用次数: 14

摘要

从(生物)化学的观点来看,氧和铁是密切相关的两种元素。此外,它们的共同特点是对生命不可或缺,同时也有潜在的毒性。因此,它们的水平受到严格监控,复杂的途径已经进化到面对任何一个元素的变化。此外,参与铁和氧代谢的蛋白质的表达主要受铁水平和氧可用性的蛋白质(即脯氨酸羟化酶、缺氧诱导因子和铁调节蛋白)的复杂相互作用控制,并反过来激活反馈机制以重建体内平衡。在这篇综述中,我们描述了细胞和生物体如何利用这些复杂的网络来调节对氧和铁水平变化的反应。我们还探讨了这些途径在一些病理生理环境中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New perspectives on the molecular basis of the interaction between oxygen homeostasis and iron metabolism
Oxygen and iron are two elements closely related from a (bio)chemical point of view. Moreover, they share the characteristic of being indispensable for life, while also being potentially toxic. Therefore, their level is strictly monitored, and sophisticated pathways have evolved to face variations in either element. In addition, the expression of proteins involved in iron and oxygen metabolism is mainly controlled by a complex interplay of proteins that sense both iron levels and oxygen availability (ie, prolyl hydroxylases, hypoxia inducible factors, and iron regulatory proteins), and in turn activate feedback mechanisms to re-establish homeostasis. In this review, we describe how cells and organisms utilize these intricate networks to regulate responses to changes in oxygen and iron levels. We also explore the role of these pathways in some pathophysiological settings.
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