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Mitochondrial complex I ROS production and redox signaling in hypoxia

Chidozie Nwabuisi Okoye, Shon A. Koren, Andrew P. Wojtovich

2023Redox Biology278 citationsDOIOpen Access PDF

Abstract

Mitochondria are a main source of cellular energy. Oxidative phosphorylation (OXPHOS) is the major process of aerobic respiration. Enzyme complexes of the electron transport chain (ETC) pump protons to generate a protonmotive force (Δp) that drives OXPHOS. Complex I is an electron entry point into the ETC. Complex I oxidizes nicotinamide adenine dinucleotide (NADH) and transfers electrons to ubiquinone in a reaction coupled with proton pumping. Complex I also produces reactive oxygen species (ROS) under various conditions. The enzymatic activities of complex I can be regulated by metabolic conditions and serves as a regulatory node of the ETC. Complex I ROS plays diverse roles in cell metabolism ranging from physiologic to pathologic conditions. Progress in our understanding indicates that ROS release from complex I serves important signaling functions. Increasing evidence suggests that complex I ROS is important in signaling a mismatch in energy production and demand. In this article, we review the role of ROS from complex I in sensing acute hypoxia.

Topics & Concepts

Oxidative phosphorylationReactive oxygen speciesMitochondrionElectron transport chainCellular respirationCell biologyMitochondrial ROSRedoxNicotinamide adenine dinucleotideElectron Transport Complex IATP synthaseBiochemistryRespiratory chainNAD+ kinaseChemistryHypoxia (environmental)EnzymeBiologyOxygenOrganic chemistryMitochondrial Function and PathologyATP Synthase and ATPases ResearchAutophagy in Disease and Therapy