Skeletal muscle mitochondria of NDUFS4-/- mice display normal maximal pyruvate oxidation and ATP production

Mohammad T. Alam, Ganesh R. Manjeri, Richard J. Rodenburg, Jan A.M. Smeitink, Richard A. Notebaart, Martijn Huynen, Peter H.G.M. Willems, Werner J.H. Koopman

Research output: Contribution to journalArticlepeer-review

21 Citations (Scopus)


Abstract: Mitochondrial ATP production is mediated by the oxidative phosphorylation (OXPHOS) system, which consists of four multi-subunit complexes (CI-CIV) and the FoF1-ATP synthase (CV). Mitochondrial disorders including Leigh Syndrome often involve CI dysfunction, the pathophysiological consequences of which still remain incompletely understood. Here we combined experimental and computational strategies to gain mechanistic insight into the energy metabolism of isolated skeletal muscle mitochondria from 5-week-old wild-type (WT) and CI-deficient NDUFS4-/- (KO) mice. Enzyme activity measurements in KO mitochondria revealed a reduction of 79% in maximal CI activity (Vmax), which was paralleled by 45-72% increase in Vmax of CII, CIII, CIV and citrate synthase. Mathematical modeling of mitochondrial metabolism predicted that these Vmax changes do not affect the maximal rates of pyruvate (PYR) oxidation and ATP production in KO mitochondria. This prediction was empirically confirmed by flux measurements. In silico analysis further predicted that CI deficiency altered the concentration of intermediate metabolites, modestly increased mitochondrial NADH/NAD+ ratio and stimulated the lower half of the TCA cycle, including CII. Several of the predicted changes were previously observed in experimental models of CI-deficiency. Interestingly, model predictions further suggested that CI deficiency only has major metabolic consequences when its activity decreases below 90% of normal levels, compatible with a biochemical threshold effect. Taken together, our results suggest that mouse skeletal muscle mitochondria possess a substantial CI overcapacity, which minimizes the effects of CI dysfunction on mitochondrial metabolism in this otherwise early fatal mouse model.

Original languageEnglish
Article number47428
Pages (from-to)526-533
Number of pages8
JournalBiochimica et Biophysica Acta - Bioenergetics
Issue number6-7
Publication statusPublished - 2015
Externally publishedYes


  • CI
  • complex I
  • electron transport chain
  • ETC
  • IMS
  • inter-membrane space
  • MIM
  • mitochondrial inner membrane
  • mitochondrial outer membrane
  • MOM
  • ODE
  • ordinary differential equation

ASJC Scopus subject areas

  • Biophysics
  • Biochemistry
  • Cell Biology


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