Changes in mitochondrial calcium concentration during the cardiac contraction cycle

OBJECTIVE: The aim was to examine whether mitochondrial Ca2+ fluxes are high enough to change mitochondrial and cytosolic calcium concentration during the contraction cycle. METHODS: Isolated guinea pig ventricular myocytes were stimulated with paired voltage clamp pulses until contractions were maximal (2 mM Ca2+]o, 36 degrees C). At defined times of diastole or systole, the cells were shock frozen. Electron-probe microanalysis measured the concentration of total calcium in mitochondria (sigma Ca(mito)) and surrounding cytosol (sigma Cac). Other experiments were performed to evaluate DNP sensitive mitochondrial Ca2+ uptake from depolarisation induced Ca2+]c transients (K5indo-1 fluorescence). RESULTS: At end of diastole, sigma Ca(mito) was 446 mumol.litre-1. During systole, sigma Ca(mito) increased with a 20 ms delay. A peak sigma Ca(mito) of 1050 mumol.litre-1 was measured 40 ms after start of systole, while 95 ms after start of systole sigma Ca(mito) had fallen to 530 mumol.litre-1. From the changes in sigma Ca(mito) the rates of net mitochondrial Ca2+ flux were estimated at 100 nmol.s-1 x mg-1 protein for Ca2+ influx and 36 nmol.s-1 x mg-1 protein for Ca2+ egress. Decay of sigma Ca(mito) was coupled to a rise in sigma Na(mito). sigma Cl(mito) and sigma K(mito) rose and fell in parallel with sigma Ca(mito), suggesting Ca2+ activation of mitochondrial anion and cation channels. Activation of the non-specific permeability can be excluded. Block of mitochondrial Ca2+ uptake with DNP (100 microM) or FCCP (10 microM) increased the amplitude of the Ca2+]c transients for 1-3 min by about 50%; evaluation of mitochondrial Ca2+ uptake from DNP sensitive difference signals, however, was hampered by sequestration of mitochondrial Ca2+ into the sarcoplasmic reticulum. CONCLUSIONS: Mitochondrial calcium content changes during each individual contraction cycle; a substantial amount of calcium is taken up during the systole and released during later systole and diastole.