Growth hormone-releasing factor reduces voltage-gated Ca2+ channel current in Rat GH3 cells

Summary The action of GRF on GH₃ cell membrane was examined by patch electrode techniques. Under current clamp with patch elecrtrode, spontaneous action potentials were partially to totally eliminated by application of GRF. In the case of partial elimination, the duration of remaining spontaneous action potentials was prolonged and the amplitude of afterhyperpolarization was decreased. The evoked actiion potential in the cells which did not show spontaneous action potentials was also eliminated by GRF. In order to examine what channels were affected by GRF, voltage-clamp analysis was performed. It was revealed that voltage-gated Ca²⁺ channel current and Ca²⁺-induced K⁺ channels current were decreased by GRF, while voltage-gated Na⁺ channel and delayed K⁺ channel current was considered to be a consequence of he decrease of voltage-gated Ca²⁺ channels current. Therefore it is likely that the effect of GRF on GH₃ cells was due to the block of voltage-gated Ca²⁺ channels. The elimination of action potential under current clamp corresponded to the block of voltage-gated Ca²⁺ channels and the prolongation of action potential could be explained by the decrease of Ca²⁺-induced K⁺ channel current. The amplitude decrease of afterhyperpolarization could also be explained by the reduction of Ca²⁺-induced K⁺ channel current. Thus the results under current clamp well coincide with the results under voltage clamp. Hormone secretion from GH₃ cells was not stimulated by GRF. However, the finding that GRF solely blocked voltage-gated Ca²⁺ channel suggested the specific action of GRF on GH₃ cell membranes.