The mechanism of the decrease in cytosolic Ca2+ concentrations induced by angiotensin II in the high K(+)-depolarized rabbit femoral artery.

1. Using front-surface fluorometry of fura-2-loaded strips, and measuring the transmembrane 45Ca2+ fluxes of ring preparations of the rabbit femoral artery, the mechanism underlying a sustained decrease in the cytosolic Ca2+ concentration ([Ca2+]i) induced by angiotensin II (AT-II) was investigated. 2. The application of AT-II during steady-state 118 mM K(+)-induced contractions caused a sustained decrease in [Ca2+]i following a rapid and transient increase in [Ca2+]i, while the tension was transiently enhanced. 3. When the intracellular Ca2+ stores were depleted by thapsigargin, the initial rapid and transient increase in [Ca2+]i was abolished, however, neither the sustained decrease in [Ca2+]i nor the enhancement of tension were affected. 4. Depolarization with 118 mM K+ physiological salt solution containing 1.25 mM Ba2+ induced a sustained increase in both the cytosolic Ba2+ concentration ([Ba2+]i) level and tension. However, the application of 10(-6) M AT-II during sustained Ba(2+)-contractions was found to have no effect on [Ba2+]i, but it did enhance tension. 5. After thapsigargin treatment, AT-II neither decreased nor increased the enhanced Ca2+ efflux rate induced by 118 mM K(+)-depolarization, whereas AT-II did increase the enhanced 45Ca2+ influx and the 45Ca2+ net uptake induced by 118 mM K(+)-depolarization. 6. Pretreatment with calphostin-C, partially, but significantly inhibited the decrease in [Ca2+]i induced by AT-II. 7. These findings therefore suggest that AT-II stimulates Ca2+ sequestration into the thapsigargin-insensitive Ca2+ stores, and thus induces a decrease in [Ca2+]i in the high external K(+)-stimulated rabbit femoral artery.