Single pituitary gonadotrophs exhibit episodes of spontaneous fluctuations in cytoplasmic calcium concentration [( Ca2+]i) due to entry through voltage-sensitive calcium channels (VSCC) and show prominent agonist-induced oscillations in [Ca2+]i that are generated by periodic release of intracellular Ca2+. Gonadotropin releasing hormone (GnRH) elicited three types of Ca2+ responses: at low doses, subthreshold, with an increase in basal [Ca2+]i; at intermediate doses, oscillatory, with dose-dependent modulation of spiking frequency; and at high doses, biphasic, without oscillations. Elevation of [Ca2+]i or activation of protein kinase C (PKC) did not influence the frequency of agonist-induced [Ca2+]i spikes but caused dose-dependent reductions in amplitude for all types of Ca2+ response. Stimulation of transient Ca2+ spikes by GnRH was followed by inhibition of the spontaneous fluctuations. GnRH also reduced the ability of high extracellular K+ to promote Ca2+ influx through VSCC. Activation of PKC by phorbol esters stimulated Ca2+ influx in quiescent cells but inhibited influx when VSCC were already activated, either spontaneously or by high K+. In contrast to their biphasic actions on [Ca2+]i, phorbol esters exerted only stimulatory actions on gonadotropin release, even when Ca2+ influx was concomitantly reduced. However, pituitary cells had to be primed with an appropriate [Ca2+]i level before exocytosis could be amplified by PKC. In PKC-depleted cells, all actions of phorbol esters on Ca2+ entry and amplitude modulation, and on LH release, were abolished. GnRH-induced LH secretion was also significantly reduced, especially the plateau phase of the response. These data indicate that Ca2+ and PKC serve as interacting signals during the cascade of cellular events triggered by agonist stimulation, in which Ca2+ turns cell responses on or off, and PKC amplifies the positive and negative effects of Ca2+
Stojilković, S., Iida, T., Merelli, F., Torsello, A., Krsmanović, L., Catt, K. (1991). Interactions between calcium and protein kinase C in the control of signaling and secretion in pituitary gonadotrophs. THE JOURNAL OF BIOLOGICAL CHEMISTRY, 266(16), 10377-10384.
Interactions between calcium and protein kinase C in the control of signaling and secretion in pituitary gonadotrophs
TORSELLO, ANTONIO BIAGIO;
1991
Abstract
Single pituitary gonadotrophs exhibit episodes of spontaneous fluctuations in cytoplasmic calcium concentration [( Ca2+]i) due to entry through voltage-sensitive calcium channels (VSCC) and show prominent agonist-induced oscillations in [Ca2+]i that are generated by periodic release of intracellular Ca2+. Gonadotropin releasing hormone (GnRH) elicited three types of Ca2+ responses: at low doses, subthreshold, with an increase in basal [Ca2+]i; at intermediate doses, oscillatory, with dose-dependent modulation of spiking frequency; and at high doses, biphasic, without oscillations. Elevation of [Ca2+]i or activation of protein kinase C (PKC) did not influence the frequency of agonist-induced [Ca2+]i spikes but caused dose-dependent reductions in amplitude for all types of Ca2+ response. Stimulation of transient Ca2+ spikes by GnRH was followed by inhibition of the spontaneous fluctuations. GnRH also reduced the ability of high extracellular K+ to promote Ca2+ influx through VSCC. Activation of PKC by phorbol esters stimulated Ca2+ influx in quiescent cells but inhibited influx when VSCC were already activated, either spontaneously or by high K+. In contrast to their biphasic actions on [Ca2+]i, phorbol esters exerted only stimulatory actions on gonadotropin release, even when Ca2+ influx was concomitantly reduced. However, pituitary cells had to be primed with an appropriate [Ca2+]i level before exocytosis could be amplified by PKC. In PKC-depleted cells, all actions of phorbol esters on Ca2+ entry and amplitude modulation, and on LH release, were abolished. GnRH-induced LH secretion was also significantly reduced, especially the plateau phase of the response. These data indicate that Ca2+ and PKC serve as interacting signals during the cascade of cellular events triggered by agonist stimulation, in which Ca2+ turns cell responses on or off, and PKC amplifies the positive and negative effects of Ca2+
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