Selective Blockade of P/Q-Type Calcium Channels by the Metabotropic Glutamate Receptor Type 7 Involves a Phospholipase C Pathway in Neurons

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The Journal of Neuroscience, November 1, 2000, 20(21):7896-7904

Selective Blockade of P/Q-Type Calcium Channels by the Metabotropic Glutamate Receptor Type 7 Involves a Phospholipase C Pathway in Neurons
Julie Perroy¹, Laurent Prezeau¹, Michel De Waard², Ryuichi Shigemoto³, Joel Bockaert¹, and Laurent Fagni¹
¹ Centre National de la Recherche Scientifique, Unité Propre de Recherche 9023, Centre CNRS-INSERM de Pharmacologie et d'Endocrinologie, 34000 Montpellier, France, ² Institut National de la Santé et de la Recherche Médicale, U-464, Faculté de Médecine Nord, 13916 Marseilles, France, and ³ Laboratory of Cerebral Structure, National Institute for Physiological Sciences, CREST Japan Science and Technology Corporation, Myodaiji, Okazaki 444-8585, Japan
Although presynaptic localization of mGluR7 is well established, the mechanism by which the receptor may control Ca²⁺ channels in neurons is still unknown. We show here that culturedcerebellar granule cells express native metabotropic glutamatereceptor type 7 (mGluR7) in neuritic processes, whereas transfectedmGluR7 was also expressed in cell bodies. This allowed us to studythe effect of the transfected receptor on somatic Ca²⁺ channels. In transfected neurons, mGuR7 selectively inhibitedP/Q-type Ca²⁺ channels. The effect was mimicked by GTP $gamma$ S and blocked by pertussistoxin (PTX) or a selective antibody raised against the G-protein $alpha$ o subunit, indicating the involvement of a G_o-like protein. ThemGuR7 effect did not display the characteristics of a direct interactionbetween G-protein $beta$ $gamma$ subunits and the $alpha$ 1A Ca²⁺ channel subunit, but was abolished by quenching $beta$ $gamma$ subunits withspecific intracellular peptides. Intracellular dialysis of G-protein $beta$ $gamma$ subunits did not mimic the action of mGluR7, suggesting thatboth G-protein $beta$ $gamma$ and $alpha$ o subunits were required to mediate theeffect. Inhibition of phospholipase C (PLC) blocked the inhibitoryaction of mGluR7, suggesting that a coincident activation of PLCby the G-protein $beta$ $gamma$ with $alpha$ o subunits was required. The Ca²⁺ chelator BAPTA, as well as inhibition of either the inositoltrisphosphate (IP₃) receptor or protein kinase C (PKC) abolishedthe mGluR7 effect. Moreover, activation of native mGluR7 induceda PTX-dependent IP₃ formation. These results indicated that IP₃-mediatedintracellular Ca²⁺ release was required for PKC-dependent inhibition of the Ca²⁺ channels. Possible control of synaptic transmission by the presentmechanisms isdiscussed.

Key words: mGluR7; Ca²⁺ channels; G-protein; PLC; cerebellar granule cells; transfection
Copyright © 2000 Society for Neuroscience 0270-6474/00/20217896-09$05.00/0

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