Mitochondria fine-tune the slow Ca2+ transients induced by electrical stimulation of skeletal myotubes

Mitochondria sense cytoplasmic Ca2+ signals in many cell types In mammalian skeletal myotubes depolarizing stimuli induce two independent cytoplasmic Ca2+ signals a fast signal associated with contraction and a slow signal that propagates to the nucleus and regulates gene expression How mitochondria sense and possibly affect these cytoplasmic Ca2+ signals has not been reported We investigated here (a) the emergence of mitochondrial Ca2+ signals in response to electrical stimulation of myotubes (b) the contribution of mitochondrial Ca2+ transients to ATP generation and (c) the influence of mitochondria as modulators of cytoplasmic and nuclear Ca2+ signals Rhod2 and Fluo3 fluorescence determinations revealed composite Ca2+ signals associated to the mitochondrial compartment in electrically stimulated (400 pulses 45 Hz) skeletal myotubes Similar Ca2+ signals were detected when using a mitochondria-targeted pericam The fast mitochondrial Ca2+ rise induced by stimulation was inhibited by pre-incubation with ryanodine whereas the phospholipase C inhibitor U73122 blocked the slow mitochondrial Ca2+ signal showing that mitochondria sense the two cytoplasmic Ca2+ signal components The fast but not the slow Ca2+ transient enhanced mitochondrial ATP production Inhibition of the mitochondrial Ca2+ uniporter prevented the emergence of mitochondrial Ca2+ transients and significantly increased the magnitude of slow cytoplasmic Ca2+ signals after stimulation Precluding mitochondrial Ca2+ extrusion with the Na+/Ca2+ exchanger inhibitor CGP37157 decreased mitochondrial potential increased the magnitude of the slow cytoplasmic Ca2+ signal and decreased the rate of Ca2+ signal propagation from one nucleus to the next Over expression of the mitochondrial fission protein Drp-1 decreased mitochondrial size and the slow Ca2+ transient in mitochondria but enhanced cytoplasmic and nuclear slow transients The present results indicate that mitochondria play a central role in the regulation of Ca2+ signals involved in gene expression in myotubes (C) 2010 Elsevier Ltd All rights reserved