Signaling hypoxia by hypoxia-inducible factor protein hydroxylases: a historical overview and future perspectives

T. Bishop, P. Ratcliffe
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引用次数: 39

Abstract

By the early 1900s, the close matching of oxygen supply with demand was recognized to be a fundamental requirement for physiological function, and multiple adaptive responses to environment hypoxia had been described. Nevertheless, the widespread operation of mechanisms that directly sense and respond to levels of oxygen in animal cells was not appreciated for most of the twentieth century with investigators generally stressing the regulatory importance of metabolic products. Work over the last 25 years has overturned that paradigm. It has revealed the existence of a set of “oxygen-sensing” 2-oxoglutarate dependent dioxygenases that catalyze the hydroxylation of specific amino acid residues and thereby control the stability and activity of hypoxia-inducible factor. The hypoxia-inducible factor hydroxylase pathway regulates a massive transcriptional cascade that is operative in essentially all animal cells. It transduces a wide range of responses to hypoxia, extending well beyond the classical boundaries of hypoxia physiology. Here we review the discovery and elucidation of these pathways, and consider the opportunities and challenges that have been brought into focus by the findings, including new implications for the integrated physiology of hypoxia and therapeutic approaches to ischemic/hypoxic disease.
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缺氧诱导因子蛋白羟化酶的缺氧信号:历史回顾和未来展望
到20世纪初,氧气供给与需求的密切匹配被认为是生理功能的基本要求,并描述了对环境缺氧的多种适应性反应。然而,在20世纪的大部分时间里,由于研究人员普遍强调代谢产物的调节重要性,直接感知和响应动物细胞中氧气水平的机制的广泛运作并没有得到重视。过去25年的工作颠覆了这种模式。揭示了一组“感氧”的2-氧戊二酸依赖双加氧酶的存在,这些酶能催化特定氨基酸残基的羟基化,从而控制缺氧诱导因子的稳定性和活性。缺氧诱导因子羟化酶途径调节了大量的转录级联反应,基本上在所有动物细胞中都有效。它对缺氧的反应范围很广,远远超出了缺氧生理学的经典界限。在这里,我们回顾了这些途径的发现和阐明,并考虑了这些发现所带来的机遇和挑战,包括对缺氧综合生理学和缺血性/缺氧疾病治疗方法的新含义。
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