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MICOS assembly controls mitochondrial inner membrane remodeling and crista junction redistribution to mediate cristae formation

Till Stephan, Christian Brüser, Markus Deckers, Anna M. Steyer, Francisco Balzarotti, Mariam Barbot, Tiana S Behr, Gudrun Heim, Wolfgang Hübner, Peter Ilgen, F. de Lange, David Pacheu‐Grau, Jasmin K. Pape, Stefan Stoldt, Thomas Huser, Stefan W. Hell, Wiebke Möbius, Peter Rehling, Dietmar Riedel, Stefan Jakobs

2020The EMBO Journal271 citationsDOIOpen Access PDF

Abstract

Abstract Mitochondrial function is critically dependent on the folding of the mitochondrial inner membrane into cristae; indeed, numerous human diseases are associated with aberrant crista morphologies. With the MICOS complex, OPA1 and the F 1 F o ‐ATP synthase, key players of cristae biogenesis have been identified, yet their interplay is poorly understood. Harnessing super‐resolution light and 3D electron microscopy, we dissect the roles of these proteins in the formation of cristae in human mitochondria. We individually disrupted the genes of all seven MICOS subunits in human cells and re‐expressed Mic10 or Mic60 in the respective knockout cell line. We demonstrate that assembly of the MICOS complex triggers remodeling of pre‐existing unstructured cristae and de novo formation of crista junctions (CJs) on existing cristae. We show that the Mic60‐subcomplex is sufficient for CJ formation, whereas the Mic10‐subcomplex controls lamellar cristae biogenesis. OPA1 stabilizes tubular CJs and, along with the F 1 F o ‐ATP synthase, fine‐tunes the positioning of the MICOS complex and CJs. We propose a new model of cristae formation, involving the coordinated remodeling of an unstructured crista precursor into multiple lamellar cristae.

Topics & Concepts

CristaBiologyInner membraneRedistribution (election)Cell biologyInner mitochondrial membraneMitochondrionBiophysicsPolitical sciencePoliticsLawMitochondrial Function and PathologyATP Synthase and ATPases ResearchMetabolism and Genetic Disorders
MICOS assembly controls mitochondrial inner membrane remodeling and crista junction redistribution to mediate cristae formation | Litcius