【 摘 要 】

Background-Troglitazone (TRO), a novel antidiabetic drug, has been reported to decrease blood pressure and relax vascular strips. The mechanism of relaxation induced by TRO was determined in terms of Ca2+ signaling in smooth muscle cells. Methods and Results-Front-surface fluorometry and fura 2-loaded medial strips of porcine coronary artery were used to examine the effects of TRO on cytosolic Ca2+ concentrations ([Ca2+](i)) and contractions. The sustained contraction induced by 100 nmol/L U46619 was similar to that induced by 60 mmol/L K+ depolarization (60K(+)). TRO concentration dependently decreased [Ca2+](i) and the force of these contractions. The concentration of TRO required to induce 50% inhibition of U46619-induced force (2.9 mu mol/L) was significantly lower than that required in the case of 60K(+)-induced force (7.3 mu mol/L). Replacing extracellular Ca2+ with Mn2+ gradually quenched fluorescence at 360 Mm excitation. This decline was accelerated by 100 nmol/L U46619 and 30K(+) to a similar extent, indicating a similar activation of Ca2+ influx. TRO completely inhibited U46619-activated influx but partly inhibited depolarization-activated influx. Cumulative applications of extracellular Ca2+ during stimulations with U46619 or 118K(+) induced stepwise increases in [Ca2+](i) and force. TRO shifted the [Ca2+](i)-force relation to the right during both stimulations. Conclusions-TRO relaxes coronary artery by decreasing [Ca2+](i) and Ca2+ sensitivity of contractile apparatus. inhibition of Ca2+ influx was important in decreasing [Ca2+](i). TRO more effectively inhibits receptor-operated Ca2+ influx than voltage-operated Ca2+ channels.

【 授权许可】

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