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A salvage pathway maintains highly functional respiratory complex I

Karolina Szczepanowska, Katharina Senft, Juliana Heidler, Marija Herholz, Alexandra Kukat, Michaela Höhne, Eduard Hofsetz, Christina Becker, Sophie Kaspar, Heiko Giese, Klaus Zwicker, Sergio Guerrero‐Castillo, Linda C. Baumann, Johanna H.K. Kauppila, Anastasia Rumyantseva, Stefan Müller, Christian K. Frese, Ulrich Brandt, Jan Riemer, Ilka Wittig, Aleksandra Trifunović

2020Nature Communications122 citationsDOIOpen Access PDF

Abstract

Regulation of the turnover of complex I (CI), the largest mitochondrial respiratory chain complex, remains enigmatic despite huge advancement in understanding its structure and the assembly. Here, we report that the NADH-oxidizing N-module of CI is turned over at a higher rate and largely independently of the rest of the complex by mitochondrial matrix protease ClpXP, which selectively removes and degrades damaged subunits. The observed mechanism seems to be a safeguard against the accumulation of dysfunctional CI arising from the inactivation of the N-module subunits due to attrition caused by its constant activity under physiological conditions. This CI salvage pathway maintains highly functional CI through a favorable mechanism that demands much lower energetic cost than de novo synthesis and reassembly of the entire CI. Our results also identify ClpXP activity as an unforeseen target for therapeutic interventions in the large group of mitochondrial diseases characterized by the CI instability.

Topics & Concepts

Respiratory systemComputational biologyComputer scienceMedicineBioinformaticsBiologyInternal medicineNeuroscience of respiration and sleepNeonatal Respiratory Health ResearchMitochondrial Function and Pathology