Ca2+ and phosphatidylinositol 4,5-bisphosphate stabilize a Gbeta gamma-sensitive state of Ca V2 Ca 2+ channels |
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Authors: | Rousset Matthieu Cens Thierry Gouin-Charnet Annie Scamps Frédérique Charnet Pierre |
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Affiliation: | Centre de Recherche de Biochimie Macromoléculaire, CNRS-FRE 2593, 1919 Route de Mende, 34293 Montpellier, France. |
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Abstract: | Direct interactions between G-protein betagamma subunits and N- or P/Q-type Ca(2+) channels mediate the inhibitory action of several neurotransmitters in the brain. Membrane potential, channel phosphorylation, or auxiliary subunit association tightly regulate these interactions and the consequent inhibition of Ca(2+) current. We now provide evidence that intracellular Ca(2+) concentration and phosphoinositides play a stabilizing role in this direct voltage-dependent inhibition. Lowering resting cytosolic Ca(2+) concentration in Xenopus oocytes expressing Ca(V)2Ca(2+) channels strongly decreased basal as well as phasic, agonist-dependent inhibition of Ca(2+) channels by G-proteins. Decreasing phosphoinositide levels also suppressed G-protein inhibition and completely occluded the effects of a subsequent injection of Ca(2+) chelator. Similar regulations are observed in mouse dorsal root ganglia neurons. Alteration of G-protein block by these agents is independent of protein phosphorylation, cytoskeleton dynamics, and GTPase or GDP/GTP exchange activity, suggesting a direct action at the level of the Ca(2+) channel/Gbetagamma-protein interaction. Moreover, affinity binding experiments of intracellular loops of the Ca(V)2.1 Ca(2+) channels to different phospholipids revealed specific interactions between the C-terminal tail of the channel and phosphoinositides. Taken together these data indicate that a Ca(2+)-sensitive interaction of the C-terminal tail of P/Q channels with the plasma membrane is important for G-protein regulation. |
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