Coexpression of Multiple Metabotropic Glutamate Receptors in Axon Terminals of Single Suprachiasmatic Nucleus Neurons

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J Neurophysiol 80: 1932-1938, 1998;
0022-3077/98 $5.00

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The Journal of Neurophysiology Vol. 80 No. 4 October 1998, pp. 1932-1938
Copyright ©1998 The American Physiological Society

Coexpression of Multiple Metabotropic Glutamate Receptors in Axon Terminals of Single Suprachiasmatic Nucleus Neurons

Gong Chen and Anthony N. van den Pol

Department of Neurosurgery, Yale University Medical School, New Haven, Connecticut 06520

Chen, Gong and Anthony N. van den Pol. Coexpression of multiple metabotropic glutamate receptors in axon terminalsof single suprachiasmatic nucleus neurons. J. Neurophysiol. 80:1932-1938, 1998. Glutamate is the primary excitatory transmitterin axons innervating the hypothalamic suprachiasmatic nucleus(SCN) and is responsible for light-induced phase shifts of circadianrhythms generated by the SCN. By using self-innervating singleneuron cultures and patch-clamp electrophysiology, we studiedmetabotropic glutamate receptors (mGluRs) expressed by SCN neurons.The selective agonists for group I (3,5-dihydroxy-phenylglycine),group II ((S)-4-carboxy-3-hydroxyphenylglycine), and group III(L(+)-2-amino-4-phosphonobutyric acid) mGluRs all depressed theevoked IPSC in a subset (33%) of single autaptic neurons, suggestinga coexpression of all three groups of mGluRs in the same axonterminals of a single neuron. Other neurons showed a variety ofcombinations of mGluRs, including an expression of only one groupof mGluR (18%) or coexpression of two groups of mGluRs (27%).Some neurons had no response to any of the three agonists (22%).The three mGluR agonists had no effect on postsynaptic $gamma$ -aminobutyricacid (GABA) receptor responses, indicating a presynaptic modulationof GABA release by mGluRs. We conclude that multiple mGluRs thatact through different second messenger pathways are coexpressedin single axon terminals of SCN neurons where they modulate therelease of GABA presynaptically, usually inhibiting release.

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