Ischaemic accumulation of succinate controls reperfusion injury through mitochondrial ROS

活性氧 线粒体ROS 再灌注损伤 线粒体 缺血 柠檬酸循环 化学 琥珀酸脱氢酶 细胞生物学 生物 体内 生物化学 药理学 内科学 新陈代谢 医学 生物技术
作者
Edward T. Chouchani,Victoria R. Pell,Edoardo Gaude,Dunja Aksentijević,Stephanie Y. Sundier,Ellen L. Robb,Angela Logan,Sergiy M. Nadtochiy,Emily Ord,Anthony C. Smith,Filmon Eyassu,Rachel Shirley,Chou-Hui Hu,Anna Dare,Andrew M. James,Sebastian Rogatti,Richard C. Hartley,Simon Eaton,Ana S.H. Costa,Paul S. Brookes
出处
期刊:Nature [Nature Portfolio]
卷期号:515 (7527): 431-435 被引量:2790
标识
DOI:10.1038/nature13909
摘要

Ischaemia-reperfusion injury occurs when the blood supply to an organ is disrupted and then restored, and underlies many disorders, notably heart attack and stroke. While reperfusion of ischaemic tissue is essential for survival, it also initiates oxidative damage, cell death and aberrant immune responses through the generation of mitochondrial reactive oxygen species (ROS). Although mitochondrial ROS production in ischaemia reperfusion is established, it has generally been considered a nonspecific response to reperfusion. Here we develop a comparative in vivo metabolomic analysis, and unexpectedly identify widely conserved metabolic pathways responsible for mitochondrial ROS production during ischaemia reperfusion. We show that selective accumulation of the citric acid cycle intermediate succinate is a universal metabolic signature of ischaemia in a range of tissues and is responsible for mitochondrial ROS production during reperfusion. Ischaemic succinate accumulation arises from reversal of succinate dehydrogenase, which in turn is driven by fumarate overflow from purine nucleotide breakdown and partial reversal of the malate/aspartate shuttle. After reperfusion, the accumulated succinate is rapidly re-oxidized by succinate dehydrogenase, driving extensive ROS generation by reverse electron transport at mitochondrial complex I. Decreasing ischaemic succinate accumulation by pharmacological inhibition is sufficient to ameliorate in vivo ischaemia-reperfusion injury in murine models of heart attack and stroke. Thus, we have identified a conserved metabolic response of tissues to ischaemia and reperfusion that unifies many hitherto unconnected aspects of ischaemia-reperfusion injury. Furthermore, these findings reveal a new pathway for metabolic control of ROS production in vivo, while demonstrating that inhibition of ischaemic succinate accumulation and its oxidation after subsequent reperfusion is a potential therapeutic target to decrease ischaemia-reperfusion injury in a range of pathologies.
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