References A-F

Aizenman E; Lipton SA; Loring RH; (1989) Selective modulation of NMDA responses by reduction and oxidation. Neuron 2:1257-1263.

Aoki E; Semba R; Mikoshiba K; Kashiwamata S; (1991) Predominant localization in glial cells of free L-arginine. Immunocytochemical evidence. Brain Research 547: 190-192.

Baskys A; Malenka RC; (1991) Agonists at metabotropic glutamate receptors presynaptically inhibit EPSCs in neonatal rat hippocampus. Journal of Physiology 444:687-701.

Batchelor AM; Madge DJ; Garthwaite J; (1994) Synaptic activation of metabotropic glutamate receptors in the parallel fibre-Purkinje cell pathway in rat cerebellar slices. Neuroscience 63:911-915.

Bettler B; Egebjerg J; Sharma G; Pecht G; Hermans-Borgmeyer I; Moll C; Stevens CF; Heinemann S; (1992) Cloning of a putative glutamate receptor: A low affinity kainate-binding subunit. Neuron 8:257-265.

Bickford ME; Guenluek AE; Guido W; Sherman SM; (1993) Evidence that cholinergic axons from the parabrachial region of the brainstem are the exclusive source of nitric oxide in the lateral geniculate nucleus of the cat. Journal of Comparative Neurology 318:410-430.

Birch PJ; Grossman CJ; Hayes AG; (1988) 6,7-dinitro-quinoxaline-2,3-dion and 6-nitro,7-cyano-quinoxaline-2,3-dion antagonise responses to NMDA in the rat spinal cord via an action at the strychnine-insensitive glycine receptor. European Journal of Pharmacology 156: 177-180.

Blankenfeld GV; Kettenmann H; (1992) Glutamate and GABA receptors in vertebrate glial cells. Molecular Neurobiology 5:31-43.

Boss V; Nutt KM; Conn PJ; (1994) L-cysteine sulfinic acid as an endogenous agonist of a novel metabotropic receptor coupled to stimulation of phospholipase D activity. Molecular Pharmacology 45:1177-1182.

Boss V; Boaten AS; (1995) An L-cysteine sulfinic acid-sensitive metabotropic receptor mediates increased cAMP accumulation in hippocampal slices. Neuroscience Letters 184:1-4.

Bredt DS; Snyder SH; (1992) Nitric Oxide, a Novel Neuronal Messenger. Neuron 8: 3-11.

Broman J; (1994) Neurotransmitters in subcortical somatosensory pathways. Anatomy and Embryology 189:181-214.

Buller AL; Larson HC; Schneider BE; Beaton JA; Morrisett RA; Monaghan DT; (1994) The molecular basis of NMDA receptor subtypes: Native receptor diversity is predicted by subunit composition. Journal of Neuroscience 14:5471-5484.

Burke JP; Hablitz JJ; (1994) Presynaptic depression of synaptic transmission mediated by activation of metabotropic glutamate receptors in rat neocortex. Journal of Neuroscience 14:5120-5130.

Calabresi P; Mercuri NB; Bernardi G; (1992) Activation of quisqualate metabotropic receptors reduces glutamate and GABA-mediated synaptic potentials in the rat striatum. Neuroscience Letters 139:41-44.

Canzek V; Wolfensberger M; Amsler U; Cuénod M; (1981) In vivo release of glutamate and aspartate following optic nerve stimulation. Nature 293: 572-574.

Catania MV; Landwehrmeyer GB; Testa CM; Standaert DG; Penney JB; Young AB; (1994) Metabotropic glutamate receptors are differentially regulated during development. Neuroscience 61:481-495.

Chiu SY; Kriegler S; (1994) Neurotransmitter-mediated signaling between axons and glial cells. Glia 11:191-200.

Clements JD; Lester RAJ; Tong G; Jahr CE; Westbrook GL; (1992) The time course of glutamate in the synaptic cleft. Science 258: 1498-1501.

Condes-Lara M; Zapata IO; (1988) Supression of noxious thermal evoked responses in thalamic central lateral nucleus by cortical spreading depression. Pain 35: 199-204.

Crunelli V; Kelly JS; Leresche N; Pirchio M; (1987) On the excitatory postsynaptic potential evoked by stimulation of the optic tract in the rat lateral geniculate nucleus. Journal of Physiology 384: 603-618.

Crunelli V; Leresche N; (1991) A role for GABAB receptors in excitation and inhibition of thalamocortical cells. Trends in Neurosciences 14: 16-21.

Cudeiro J; Grieve KL; Rivadulla C; Rodriguez R; Martinez-Conde S; Acuna C; (1994) The role of nitric oxide in the transformation of visual information within the dorsal lateral geniculate nucleus of the cat. Neuropharmacology 33:1413-1418.

Curtis DR; Davis R; (1962) Pharmacological studies upon neurones of the lateral geniculate nucleus of the cat. British Journal of Pharmacology 18:217-246.

De Biasi S; Amadeo A; Spreafico R; Rustioni A; (1994) Enrichment of glutamate immunoreactivity in lemniscal terminals in the ventropostero lateral thalamic nucleus of the rat: An immunogold and WGA-HRP study. Anatomical Record 240:131-140.

De Curtis M; Spreafico R; Avanzini G; (1989) Excitatory amino acids mediate responses elicited in vitro by stimulation of cortical afferents to reticularis thalami neurons of the rat. Neuroscience 33: 275-283.

Deschênes M; Hu B; (1990) Electrophysiology and pharmacology of the corticothalamic input to lateral thalamic nuclei: an intracellular study in the cat. European Journal of Neuroscience 2:140-152.

Do KQ; Mattenberger M; Streit P; Cuénod M; (1986) In vitro release of endogenous excitatory sulfur-containing amino acids from various rat brain regions. Journal of Neurochemistry 46: 779-786.

Do KQ; Grandes P; Hansel C; Jiang ZP; Klancnik J; Streit P; Tschopp P; Zaengerle L; Cuénod M; (1992) Sulphur containing excitatory amino acids: release, activity and localization. Molecular Neuropharmacology 2: 39-42.

Do KQ; Binns KE; Salt TE; (1994) Release of the nitric oxide precursor, arginine, from the thalamus upon sensory afferent stimulation, and its effect on thalamic neurons in vivo. Neuroscience 60: 581-586.

Eaton SA; Salt TE; (1989) Modulatory effects of serotonin on excitatory amino acid responses and sensory synaptic transmission in the ventrobasal thalamus. Neuroscience 33: 285-292.

Eaton SA; Salt TE; (1990) Thalamic NMDA receptors and nociceptive sensory synaptic transmission. Neuroscience Letters 110: 297-302.

Eaton SA; Salt TE; (1991) Membrane and action potential responses evoked by excitatory amino acids acting at N-methyl-D-aspartate receptors and non-N-methyl-D-aspartate receptors in the rat thalamus in vivo. Neuroscience 44: 277-286.

Eaton SA; Salt TE; (1992) Actions of four endogenous excitatory amino acids on NMDA receptors of rat ventrobasal thalamic neurones in vivo. British Journal of Pharmacology 105: 15P.

Eaton SA; Salt TE; Sunter DC; Udvarhelyi PM; Watkins JC; (1992) Antagonism of nociceptive responses of rat thalamic neurones in vivo by novel antagonists of (1S,3R)-ACPD. British Journal of Pharmacology 107:244P.

Eaton SA; Birse EF; Wharton B; Sunter DC; Udvarhelyi PM; Watkins JC; Salt TE; (1993) Mediation of thalamic sensory responses in vivo by ACPD-activated excitatory amino acid receptors. European Journal of Neuroscience 5: 186-189.

Eaton SA; Salt TE; (1995) Reduction of cortico-thalamic EPSPs in vivo by antagonists acting at metabotropic glutamate receptors (mGluRs) and NMDA receptors. Society for Neuroscience Abstracts 21:250.2.

Esguerra M; Kwon YH; Sur M; (1992) Retinogeniculate EPSPs recorded intracellularly in the ferret lateral geniculate nucleus in vitro: Role of NMDA receptors. Visual Neuroscience 8:545-555.

Flatman JA; Schwindt PC; Crill WE; Stafstrom CE; (1983) Multiple actions of N-methyl-D-aspartate on cat neocortical neurons in vitro. Brain Research 266: 169-173.

Forsythe ID; Clements JD; (1990) Presynaptic glutamate receptors depress excitatory monosynaptic transmission between mouse hippocampal neurones. Journal of Physiology 429: 1-16.

Foster GA; Roberts PJ; (1981) Stimulation of rat cerebellar guanosine 3',5'-cyclic monophosphate (cyclic GMP) levels: effects of amino acid antagonists. British Journal of Pharmacology 74:723-729.

Fotuhi M; Sharp AH; Glatt CE; Hwang PM; Von Krosigk M; Snyder SH; Dawson TM; (1993) Differential localization of phosphoinositide-linked metabotropic glutamate receptor (mGluR1) and the inositol 1,4,5-trisphosphate receptor in rat brain. Journal of Neuroscience 13: 2001-2012.

Funke K; Eysel UT; FitzGibbon T; (1991) Retinogeniculate transmission by NMDA and non-NMDA receptors in the cat. Brain Research 547:229-238.

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