Store-operated Ca2+ influx and voltage-gated Ca2+ channels coupled to exocytosis in pheochromocytoma (PC12) cells

Abstract

Microamperometry was used to monitor quantal catecholamine release from individual PC12 cells in response to raised extracellular K+ and caffeine. K+-evoked exocytosis was entirely dependent on Ca2+ influx through voltage-gated Ca2+ channels, and of the subtypes of such channels present in these cells, influx through N-type was primarily responsible for triggering exocytosis. L-type channels played a minor role in mediating K+- evoked secretion, whereas P/Q-type channels did not appear to be involved in secretion at all. Caffeine also evoked catecholamine release from PC12 cells, but only in the presence of extracellular Ca2+. Application of caffeine in Ca2+-free solutions evoked large, transient rises of [Ca2+](i), but did not trigger exocytosis. When Ca2+ was restored to the extracellular solution (in the absence of caffeine), store-operated Ca2+ influx was observed, which evoked exocytosis. The amount of secretion evoked by this influx pathway was far greater than release triggered by influx through L- type Ca2+ channels, but less than that caused by Ca2+ influx through N- type channels. Our results indicate that exocytosis may be regulated even in excitable cells by Ca2+ influx through pathways other than voltage-gated Ca2+ channels.