Abstract
Mitochondrial Ca(2+) uptake is usually thought to occur only when intracellular Ca(2+) concentration ([Ca(2+)](i)) is high. We investigated whether mitochondrial Ca(2+) removal participates in shaping [Ca(2+)](i) signals in arterial smooth muscle over a low [Ca(2+)](i) range. [Ca(2+)](i) was measured using fura 2-loaded, voltage-clamped cells from rat femoral arteries. Both diazoxide and carbonyl cyanide m-chlorophenylhydrazone (CCCP) depolarized the mitochondria. Diazoxide application increased resting [Ca(2+)](i), suggesting that Ca(2+) is sequestered in mitochondria. Over a low [Ca(2+)](i) range, diazoxide and CCCP slowed Ca(2+) removal rate, determined after a brief depolarization. When [Ca(2+)](i) was measured during sustained depolarization to -30 mV, CCCP application increased [Ca(2+)](i). When Ca(2+) transients were repeatedly evoked by caffeine applications, CCCP application elevated resting [Ca(2+)](i). Caffeine-induced Ca(2+) transients were compared before and after CCCP application using the half decay time, or time required to reduce increase in [Ca(2+)](i) by 50% (t((1/2))). CCCP treatment significantly increased t((1/2)). These results suggest that Ca(2+) removal to mitochondria in arterial smooth muscle cells may be important at a low [Ca(2+)](i).
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