Intramitochondrial hydrogen sulfide production by 3‐mercaptopyruvate sulfurtransferase maintains mitochondrial electron flow and supports cellular bioenergetics

生物能学 硫转移酶 硫化氢 电子流 化学 细胞生物学 电子传输链 线粒体 生物物理学 生物化学 硫黄 生物 光合作用 有机化学 半胱氨酸
作者
Katalin Módis,Ciro Coletta,Katalin Erdélyi,Andreas Papapetropoulos,Csaba Szabó
出处
期刊:The FASEB Journal [Wiley]
卷期号:27 (2): 601-611 被引量:304
标识
DOI:10.1096/fj.12-216507
摘要

It is well established that exposure of mammalian cells to hydrogen sulfide (H(2)S) suppresses mitochondrial function by inhibiting cytochrome-c oxidase (CcOX; complex IV). However, recent experimental data show that administration of H(2)S to mammalian cells can serve as an electron donor and inorganic source of energy. The aim of our study was to investigate the role of endogenously produced H(2)S in the regulation of mitochondrial electron transport and oxidative phosphorylation in isolated liver mitochondria and in the cultured murine hepatoma cell line Hepa1c1c7. Low concentrations of H(2)S (0.1-1 μM) elicited a significant increase in mitochondrial function, while higher concentrations of H(2)S (3-30 μM) were inhibitory. The positive bioenergetic effect of H(2)S required a basal activity of the Krebs cycle and was most pronounced at intermediate concentrations of succinate. 3-mercaptopyruvate (3-MP), the substrate of the mitochondrial enzyme 3-mercaptopyruvate sulfurtransferase (3-MST) stimulated mitochondrial H(2)S production and enhanced mitochondrial electron transport and cellular bioenergetics at low concentrations (10-100 nM), while at higher concentrations, it inhibited cellular bioenergetics. SiRNA silencing of 3-MST reduced basal bioenergetic parameters and prevented the stimulating effect of 3-MP on mitochondrial bioenergetics. Silencing of sulfide quinone oxidoreductase (SQR) also reduced basal and 3-MP-stimulated bioenergetic parameters. We conclude that an endogenous intramitochondrial H(2)S-producing pathway, governed by 3-MST, complements and balances the bioenergetic role of Krebs cycle-derived electron donors. This pathway may serve a physiological role in the maintenance of mitochondrial electron transport and cellular bioenergetics.
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