Alteration of cardiolipin-dependent mitochondrial coupling in muscle protects against obesity

  1. Alexandre Prola
  2. Jordan Blondelle
  3. Aymeline Vandestienne
  4. Jérôme Piquereau
  5. Raphaël GP Denis
  6. Stéphane Guyot
  7. Hadrien Chauvin
  8. Arnaud Mourier
  9. Martine Letheule
  10. Marie Maurer
  11. Céline Henry
  12. Nahed Khadhraoui
  13. Guillaume Courtin
  14. Nicolas Blanchard-Gutton
  15. Laurent Guillaud
  16. Inès Barthélémy
  17. Mélanie Gressette
  18. Audrey Solgadi
  19. Florent Dumont
  20. Julien Castel
  21. Julien Ternacle
  22. Jean Demarquoy
  23. Alexandra Malgoyre
  24. Nathalie Koulmann
  25. Geneviève Derumeaux
  26. Marie-France Giraud
  27. Stéphane Blot
  28. Frédéric Joubert
  29. Vladimir Veksler
  30. Serge Luquet
  31. Frédéric Relaix
  32. Laurent Tiret
  33. Fanny Pilot-Storck
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Abstract

The tubular shape of mitochondrial cristae depends upon a specific composition of the inner mitochondrial membrane, including cardiolipin that allows strong curvature and promotes optimal organization of ATP synthase. Here we identifyHacd1,which encodes an enzyme involved in very long chain fatty acid biosynthesis, as a key regulator of composition, structure and functional properties of mitochondrial membranes in muscle. InHacd1-deficient mice, the reduced cardiolipin content was associated with dilation of cristae and caused defective phosphorylating respiration, characterized by absence of proton leak and oxidative stress.

The skeletal muscle-specific mitochondrial coupling defect produced a global elevation in basal energy expenditure with increased carbohydrate and lipid catabolism, despite decreased muscle mass and locomotor capacities. Mice were protected against diet-induced obesity despite reduced muscle activity, providing anin vivoproof of concept that reducing mitochondrial coupling efficiency in skeletal muscle might be an actionable mechanism in metabolic disease conditions.

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