| pubmed-article:8384989 | pubmed:abstractText | We have previously reported that GnRH induces rhythmic hyperpolarizations in male rat (35- to 45-day-old) gonadotropes by periodically opening apamin-sensitive Ca(2+)-activated K+ channels. Using the whole cell recording technique, we now show that these gonadotropes, identified with the reverse hemolytic plaque assay, express tetrodotoxin-sensitive Na+ channels and omega-conotoxin-insensitive, high voltage-activated Ca2+ channels that are partially sensitive to dihydropyridines. We found no low voltage-activated Ca2+ channels in these cells. At the normal resting potential, about 93% of the Na+ channels and 50% of the Ca2+ channels are inactivated. The GnRH-induced hyperpolarizations transiently remove the resting inactivation of Na+ and Ca2+ channels, enabling them to initiate action potentials at the termination of each hyperpolarization. Opening of Na+ channels accounts for the high rate of rise and the positive peak of the action potential. In addition, a significant fraction of Ca2+ channels should be activated during the action potentials, allowing a voltage-gated entry of extracellular Ca2+ that can enhance the frequency and amplitude of GnRH-induced intracellular Ca2+ oscillations. Therefore, we envision the following role for action potentials in GnRH-stimulated Ca2+ responses: action potentials will open voltage-gated Ca2+ channels that allow entry of extracellular Ca2+, which can help to replenish the intracellular Ca2+ store and act as a coactivator in the stimulation of intracellular Ca2+ release from the inositol 1,4,5-trisphosphate-sensitive store. | lld:pubmed |
