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Assembly of The Mitochondrial Complex I Assembly Complex Suggests a Regulatory Role for Deflavination

Gabriele Giachin, Matthew Jessop, Romain Bouverot, Samira Acajjaoui, Melissa Saïdi, Anaïs Chretien, Maria Bacia‐Verloop, Luca Signor, Philippe J. Mas, Adrien Favier, Eve Borel Meneroud, Michael Hons, Darren J. Hart, Eaazhisai Kandiah, Elisabetta Boeri Erba, Alain Buisson, Gordon A. Leonard, Irina Gutsche, Montserrat Soler‐López

2020Angewandte Chemie International Edition24 citationsDOIOpen Access PDF

Abstract

Fatty acid β-oxidation (FAO) and oxidative phosphorylation (OXPHOS) are mitochondrial redox processes that generate ATP. The biogenesis of the respiratory Complex I, a 1 MDa multiprotein complex that is responsible for initiating OXPHOS, is mediated by assembly factors including the mitochondrial complex I assembly (MCIA) complex. However, the organisation and the role of the MCIA complex are still unclear. Here we show that ECSIT functions as the bridging node of the MCIA core complex. Furthermore, cryo-electron microscopy together with biochemical and biophysical experiments reveal that the C-terminal domain of ECSIT directly binds to the vestigial dehydrogenase domain of the FAO enzyme ACAD9 and induces its deflavination, switching ACAD9 from its role in FAO to an MCIA factor. These findings provide the structural basis for the MCIA complex architecture and suggest a unique molecular mechanism for coordinating the regulation of the FAO and OXPHOS pathways to ensure an efficient energy production.

Topics & Concepts

BiogenesisOxidative phosphorylationCell biologyMitochondrionMultiprotein complexMitochondrial biogenesisChemistryMitochondrial respiratory chainBiologyBiochemistryCoenzyme Q – cytochrome c reductaseBiophysicsGeneCytochrome cMitochondrial Function and PathologyMetabolism and Genetic DisordersATP Synthase and ATPases Research
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