A Voltage-Independent Calcium Current Inhibitory Pathway Activated by Muscarinic Agonists in Rat Sympathetic Neurons Requires Both Galpha q/11 and Gbeta gamma

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The Journal of Neuroscience, August 1, 2000, 20(15):5623-5629

A Voltage-Independent Calcium Current Inhibitory Pathway Activated by Muscarinic Agonists in Rat Sympathetic Neurons Requires Both G $alpha$ _q/11 and G $beta$ $gamma$
Paul J. Kammermeier, Victor Ruiz-Velasco, and Stephen R. Ikeda
Laboratory of Molecular Physiology, Guthrie Research Institute, Sayre, Pennsylvania 18840
Calcium current modulation by the muscarinic cholinergic agonist oxotremorine methiodide (oxo-M) was examined in sympatheticneurons from the superior cervical ganglion of the rat. Oxo-Mstrongly inhibited calcium currents via voltage-dependent (VD)and voltage-independent (VI) pathways. These pathways could beseparated with the use of the specific M₁ acetylcholine receptorantagonist M₁-toxin and with pertussis toxin (PTX) treatment.Expression by nuclear cDNA injection of the regulator of G-proteinsignaling (RGS2) or a phospholipase C $beta$ 1 C-terminal construct (PLC $beta$ -ct)selectively reduced VI oxo-M modulation in PTX-treated and untreatedcells. Expression of the G $beta$ $gamma$ buffers transducin (G $alpha$ _tr) and a G-protein-coupled-receptorkinase (GRK3) construct (MAS-GRK3) eliminated oxo-M modulation.Activation of the heterologously expressed neurokinin type 1 receptor,a G $alpha$ _q/11-coupled receptor, resulted in VI calcium current modulation.This modulation was eliminated with coexpression of G $alpha$ _tr or MAS-GRK3.Cells expressing G $beta$ ₁ $gamma$ ₂ were tonically inhibited via the VD pathway.Application of oxo-M to these cells produced VI modulation andreduced the amount of current inhibited via the VD pathway. Together,these results confirm the requirement for G $beta$ $gamma$ in VD modulationand implicate G $alpha$ _q-GTP and G $beta$ $gamma$ as components in the potentiallynovel VIpathway.

Key words: N-type calcium channel; ion channel modulation; voltage dependent; sympathetic neurons; SCG; G-protein
Copyright © 2000 Society for Neuroscience 0270-6474/00/20155623-07$05.00/0

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