Abstract
The objective of the present study was to further investigate the ionic mechanism of the action of GHRP-6 on male rat pituitary cells in culture. A synthetic hexapeptide, GHRP-6 stimulates the secretion of growth hormone both in vivo and in vitro. It is generally accepted that Ca2+ and protein kinase C but not cAMP are involved in the signal transduction pathway of the action of GHRP-6. Ca2+-influx through voltage-gated Ca2+ channels and mobilization of internal stored Ca2+ are thought to be responsible for an increase in cytosolic Ca2+ concentration. For activation of the voltage-gated Ca2+ channels, however, it is not determined whether the membrane Na+ permeability plays a role. To answer this question, we measured intracellular Na+ concentration of the pituitary cells with ion imaging technique. We found that GHRP-6 increased [Na+]i; the Na+ response depended on the presence of extracellular Na+ and was blocked by Gd3+, known as a blocker of nonselective cation channels but not by tetrodotoxin, a blocker of the voltage-gated Na+ channel; thapsigargin, an inhibitor of endoplasmic reticulum Ca2+ ATPase, had no effect on the response; Ca2+ chelating agent, BAPTA had no inhibitory effect on the response; ouabain, an inhibitor of Na+-K+ ATPase, did not block the rise in [Na+]i induced by GHRP-6; somatostatin, which hyperpolarizes the cells by activating K+ channels, suppressed the response. These data clearly showed that GHRP-6 increased [Na+]i in the rat pituitary cells including somatotrophs. The rise in [Na+]i is likely to be due to an increase in the membrane Na+ permeability which should depolarize the cells, thereby activating the voltage-gated Ca2+ channels. This process leads to an influx of Ca2+ and subsequent increase in [Ca2+]i which results in an exocytotic release of GH.
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