H2O2 generation is decreased by calcium in isolated brain mitochondria.

Release of H(2)O(2) in response to Ca(2+) loads (1-100 microM) was investigated using Amplex red fluorescent assay in isolated guinea-pig brain mitochondria respiring on glutamate plus malate or succinate. In mitochondria challenged with Ca(2+) (10 microM), in the absence of adenine nucleotides and inhibitors of the respiratory chain, the rate of H(2)O(2) release, taken as an indication of H(2)O(2) production, was decreased by 21.8+/-1.6% in the presence of NADH-linked substrates and by 86.5+/-1.8% with succinate. Parallel with this, a Ca(2+)-induced loss in NAD(P)H fluorescence, sustained depolarization, decrease in fluorescent light scattering signal and in calcein fluorescence were detected indicating an increased permeability and swelling of mitochondria, which were prevented by ADP (2 mM). In the presence of ADP H(2)O(2) release from mitochondria was decreased, but Ca(2+) no longer influenced the generation of H(2)O(2). We suggest that the decreased H(2)O(2) generation induced by Ca(2+) is related to depolarization and NAD(P)H loss resulting from a non-specific permeability increase of the mitochondrial inner membrane.