Communications Biology (Aug 2023)

IF1 promotes oligomeric assemblies of sluggish ATP synthase and outlines the heterogeneity of the mitochondrial membrane potential

  • Inés Romero-Carramiñana,
  • Pau B. Esparza-Moltó,
  • Sonia Domínguez-Zorita,
  • Cristina Nuevo-Tapioles,
  • José M. Cuezva

DOI
https://doi.org/10.1038/s42003-023-05214-1
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 16

Abstract

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Abstract The coexistence of two pools of ATP synthase in mitochondria has been largely neglected despite in vitro indications for the existence of reversible active/inactive state transitions in the F1-domain of the enzyme. Herein, using cells and mitochondria from mouse tissues, we demonstrate the existence in vivo of two pools of ATP synthase: one active, the other IF1-bound inactive. IF1 is required for oligomerization and inactivation of ATP synthase and for proper cristae formation. Immunoelectron microscopy shows the co-distribution of IF1 and ATP synthase, placing the inactive “sluggish” ATP synthase preferentially at cristae tips. The intramitochondrial distribution of IF1 correlates with cristae microdomains of high membrane potential, partially explaining its heterogeneous distribution. These findings support that IF1 is the in vivo regulator of the active/inactive state transitions of the ATP synthase and suggest that local regulation of IF1-ATP synthase interactions is essential to activate the sluggish ATP synthase.