肾皮质丙酮酸作为急性肾损伤的潜在关键介质。

Nephron Clinical Practice Pub Date : 2014-01-01 Epub Date: 2014-09-24 DOI:10.1159/000363547
Ali C M Johnson, Richard A Zager
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引用次数: 13

摘要

丙酮酸是有氧和无氧能量代谢的关键中介。此外,越来越多的实验文献表明,它还可以显著影响氧化、促炎和细胞保护途径。总而言之,这些行为可以防止各种形式的组织损伤。然而,在急性肾损伤(AKI)的发展过程中丙酮酸的命运仍然不明确。最近的实验研究表明,在缺血性或肾毒性肾损伤后,明显和持续的丙酮酸耗竭结果。虽然这种丙酮酸损失可能涉及多种潜在机制,但实验数据表明,乳酸盐(丙酮酸的主要前体)的损失和糖异生的增强(即丙酮酸的利用)有关。丙酮酸盐治疗可以减轻多种实验性AKI的观察结果强调了丙酮酸盐耗竭对AKI发病机制的重要性。这种保护可能源于组织炎症的减少、抗炎防御的改善和细胞能量代谢的增强。本简短报告将讨论导致这些结论的各种资料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Renal cortical pyruvate as a potentially critical mediator of acute kidney injury.

Pyruvate is a key intermediary in both aerobic and anaerobic energy metabolisms. In addition, a burgeoning body of experimental literature indicates that it can also dramatically impact oxidant, proinflammatory, and cytoprotective pathways. In sum, these actions can confer protection against diverse forms of tissue damage. However, the fate of pyruvate during the evolution of acute kidney injury (AKI) has remained ill defined. Recent experimental studies have indicated that following either ischemic or nephrotoxic renal injury, marked and sustained pyruvate depletion results. While multiple potential mechanisms for this pyruvate loss may be involved, experimental data suggest that a loss of lactate (a dominant pyruvate precursor) and enhanced gluconeogenesis (i.e. pyruvate utilization) are involved. The importance of pyruvate depletion for AKI pathogenesis is underscored by observations that pyruvate therapy can attenuate diverse forms of experimental AKI. This protection may stem from reductions in tissue inflammation, improved anti-inflammatory defenses, and an enhanced cellular energy metabolism. The pieces of information that give rise to these conclusions are discussed in this brief report.

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来源期刊
Nephron Clinical Practice
Nephron Clinical Practice 医学-泌尿学与肾脏学
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