Hypoxia decreases mitochondrial ROS production in cells

IF 7.1 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Free Radical Biology and Medicine Pub Date : 2024-08-13 DOI:10.1016/j.freeradbiomed.2024.08.016

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Abstract

We re-examined the reported increase in mitochondrial ROS production during acute hypoxia in cells. Using the Amplex Ultrared/horseradish peroxidase assay we found a decrease, not increase, in hydrogen peroxide release from HEK293 cells under acute hypoxia, at times ranging from 1 min to 3 h. The rates of superoxide/hydrogen peroxide production from each of the three major sites (site I_Q in complex I and site III_Qo in complex III in mitochondria, and NADH oxidases (NOX) in the cytosol) were decreased to the same extent by acute hypoxia, with no change in the cells’ ability to degrade added hydrogen peroxide. A similar decrease in ROS production under acute hypoxia was found using the diacetyldichlorofluorescein assay. Using a HIF1α reporter cell line we confirmed earlier observations that suppression of superoxide production by site III_Qo decreases HIF1α expression, and found similar effects of suppressing site I_Q or NOX. We conclude that increased mitochondrial ROS do not drive the response of HIF1α to acute hypoxia, but suggest that cytosolic H₂O₂ derived from site I_Q, site III_Qo and NOX in cells is necessary to permit HIF1α stabilization by other signals.

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缺氧会减少细胞线粒体 ROS 的产生。

我们重新研究了细胞急性缺氧时线粒体 ROS 生成增加的报道。使用 Amplex Ultrared/辣根过氧化物酶检测法，我们发现 HEK293 细胞在急性缺氧状态下的过氧化氢释放量从 1 分钟到 3 小时不等，不是增加而是减少。三个主要位点（线粒体中复合体 I 的 IQ 位点和复合体 III 的 IIIQo 位点，以及细胞质中的 NADH 氧化酶 (NOX)）产生超氧化物/过氧化氢的速率都因急性缺氧而下降到相同的程度，细胞降解添加的过氧化氢的能力没有变化。使用二乙酰二氯荧光素检测法发现，在急性缺氧条件下，ROS 的产生也有类似的减少。通过使用 HIF1α 报告细胞系，我们证实了之前的观察结果，即抑制位点 IIIQo 产生超氧化物会降低 HIF1α 的表达，并发现抑制位点 IQ 或 NOX 也有类似的效果。我们的结论是，线粒体 ROS 的增加并不驱动 HIF1α 对急性缺氧的反应，但表明细胞中来自 IQ 位点、IIIQo 位点和 NOX 的细胞膜 H2O2 是允许其他信号稳定 HIF1α 的必要条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Free Radical Biology and Medicine 医学-内分泌学与代谢

CiteScore

14.00

自引率

4.10%

发文量

850

审稿时长

22 days

期刊介绍： Free Radical Biology and Medicine is a leading journal in the field of redox biology, which is the study of the role of reactive oxygen species (ROS) and other oxidizing agents in biological systems. The journal serves as a premier forum for publishing innovative and groundbreaking research that explores the redox biology of health and disease, covering a wide range of topics and disciplines. Free Radical Biology and Medicine also commissions Special Issues that highlight recent advances in both basic and clinical research, with a particular emphasis on the mechanisms underlying altered metabolism and redox signaling. These Special Issues aim to provide a focused platform for the latest research in the field, fostering collaboration and knowledge exchange among researchers and clinicians.