Abstract 517: Substrate Dependence of Mitochondrial Supercomplex Abundance in Murine Heart

Abstract

Mitochondrial supercomplexes are prominent in mammalian tissues that have high energy demand. Nevertheless, the mechanisms that regulate supercomplex formation and abundance remain unclear. In this study, we examined how myocardial fuel preference regulated by constitutive changes in phosphofructokinase (PFK) activity in vivo or by differential substrate provision to isolated mitochondria affect mitochondrial supercomplexes. Protein complexes from digitonin-solubilized cardiac mitochondria were resolved by blue-native polyacrylamide gel electrophoresis and were identified by mass spectrometry and immunoblotting to contain Complexes I, III, and IV as well as accessory proteins. Mitochondria from hearts with low PFK activity (Glyco Lo hearts) had higher mitochondrial supercomplex abundance and activity compared with mitochondria from wild-type (WT) or Glyco Hi hearts. Incubation of WT mitochondria with fatty acyl carnitine promoted higher supercomplex formation than did incubation with pyruvate, suggesting that substrate utilization is sufficient to regulate mitochondrial supercomplex abundance. These data are consistent with the hypothesis that mitochondrial supercomplex abundance is regulated in a substrate-dependent manner and suggest that metabolic scenarios favoring fat oxidation may promote supercomplex abundance.