Electrical activity and calcium channels in neuroendocrine cells.

Similar to neuronal cells, neuroendocrine cells express voltage-dependent ion channels and fire action potentials. Ca2+ influx through voltage-dependent Ca2+ channels couples changes in membrane potential to Ca(2+)-dependent cellular processes, such as hormone release. Using the patch-clamp technique, we studied the spontaneous electrical activity as well as voltage-dependent Ca2+ channels in cholecystokinin-producing pancreatic cells (RIN 1056E cell line), in prolactin-secreting pituitary cells (GH3 cell line), and in calcitonin-secreting cells of the thyroid (rMTC 44-2 cell line). All three cell types displayed spontaneous electrical activity, that is, they spontaneously produced action potentials. RIN 1056E cells, GH3 cells, and rMTC cells exhibited (various types of) voltage-dependent Ca2+ channels that were regulated by various neurotransmitters and hormones, such as somatostatin.