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Journal of Receptor Research Volume 6, 1986 - Issue 5-6
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Research Article

Specific Binding of L-[3h]-Glutamic Acid to Rat Substantia Nigra Synaptic Membranes

Jenny L. Fiedler Department of Cell Biology Laboratory of Biochemical Pharmacology, Pontificia Universidad Católica de Chile, Santiago, Chile
,
Luis Arqueros Department of Cell Biology Laboratory of Biochemical Pharmacology, Pontificia Universidad Católica de Chile, Santiago, Chile
&
Gonzalo Bustos Department of Cell Biology Laboratory of Biochemical Pharmacology, Pontificia Universidad Católica de Chile, Santiago, Chile
Pages 339-360 | Published online: 26 Sep 2008

References

  • Afifi A. K., Bahuth N. B., Kaelber W. W., Mikhael E., Nassar A. The corticonigral fibre tract. An experimental Fink-Haimer Study in cats. J. Anat. 1974; 118: 469–476
  • Beckstead R. M. An autoradiographic examination of corticocortical and subcortical projections of the mediodorsal-projection (prefrontal) cortex in the rat. J. Comp. Neurol. 1979; 184: 43–62
  • Kunzle J. An autoradiographic analysis of the efferent connecctions from premotor and adjacent prefrontal regions (areas 6 and 9) in Macaca fascicularis. Brain Behav. Evol. 1978; 15: 185–234
  • Kornhuber J., Kim J. S., Kornhuber M. E., Kornhuber H. H. The cortico-nigral projection: reduced glutamate content in the substantia nigra following frontal cortex ablation in the rat. Brain Res. 1984; 322: 124–126
  • Carter C. J. Glutamatergic pathways from the medial prefrontal accumbens and substantia nigra. Br. J. Pharmac. 1980; 70: 508
  • Fonnum F., Soreida A., Krale I., Walker J., Walaas I. Glutamate in cortical fibers. Adv. Biochem. Psychopharmac. 1981; 27: 19–42
  • Abarca J., Bustos G. Release of D-[3H]Aspartic acid from the rat substantia nigra: effect of veratridine-evoked depolarization and cortical ablation. Neurochem. Int. 1985; 7: 229–236
  • Porceddu M. L., Piacente B., Morelli M., Di Chiara G. Opposite turning effects of kainic acid and Ibotenic acid injected in the rat substantia nigra. Neuroscience Letters. 1979; 15: 271–276
  • Collingridge G. L., Davies J. An evaluation of D-α-Aminoadipate and D- (and DL-) α-Aminosuberate as selective antagonists of excitatory amino acids in the substantia Nigra and Mesencephalic reticular formation of the rat. Neurophar-macology 1979; 18: 193–199
  • Fiedler J. L., Arqueros L., Bustos G. Specific binding of L-Glutamic acid to synaptic membranes obtained from rat substantia nigra. Arch. Biol. Med. Exp. 1984; 17: R-137
  • Zukin S. R., Young A. B., Snyder S. H. Gamma-aminobutyric acid binding to receptor sites in the rat central nervous system. Proc. Natl. Acad. Sci. USA 1974; 71: 4802–4807
  • Lowry O. H., Rosenbrough N. J., Farr A. L., Randall R. J. Protein measurement with the Folin phenol reagent. J. Biol. Chem. 1951; 193: 265–275
  • Rudolph M. I., Bustos G. Search of a L-glutamate receptor related to modulation of neurotransmission in the rat corpus striatum. Neurochem. Int. 1986; 8: 481–492
  • Scatchard G. The attractions of proteins for small molecules and ions. Ann. New York. Acad. Sci. 1949; 51: 660–672
  • Bennett J. P., Jr. Methods in Binding Studies. Neurotrans-mitter Receptor Binding, H. I. Yamamura, S. J. Enna, M. J. Kuhar. Raven Press, New York 1978; 57–90
  • de Lean A., Hancock A. A., Lefkowitz R. J. Validation and statistical analysis of radioligand binding data for mixtures of pharmacological receptor sybtypes. Mol. Pharmac. 1982; 21: 5–16
  • Rodbard D., Frazier G. R. Statistical analysis of radioligand assay data. Meth. Enzymol. 1975; 37: 3–22
  • Boeynaems J. M., Dumont J. E. Quantitative analysis of the binding of ligands to their receptors. J. Cyclic Nucleot. Res. 1975; 1: 123–142
  • Galper J. B., Klein W., Catterall W. A. Muscarinic acetylcholine receptors in developing chick heart. J. Biol. Chem. 1977; 252: 8692–8699
  • Watkins J. C., Evans R. H. Excitatory amino acid transmitters. Ann. Rev. Pharmac. Toxicol. 1981; 21: 165–204
  • McLennan H. On the nature of the receptors for various excitatory amino acids in the mammalian central nervous system. Adv. Biochem. Psychopharmac. 1981; 7: 253–262
  • Koerner J. F., Cotman C. W. Micromolar L-2-amino-4-phos-phonobutyric acid selectively inhibits perforant path synapses from the lateral entorhinal cortex. Brain Res. 1981; 216: 192–198
  • Slaughter M. M., Miller R. F. 2-Amino-4-phosphonobutyric acid: a new pharmacological tool for retina research. Science 1981; 211: 182–185
  • Davies J., Watkins J. C. Actions of D-and L-forms of 2-amino-5-phosphonovalerate and 2-amino-4-phosphonobutyrate in the cat spinal cord. Brain Res. 1982; 235: 378–386
  • Collins G. G.S. Some effects of excitatory amino acid receptor antagonists on synaptic transmission in rat olfactory cortex slice. Brain Res. 1982; 244: 311–318
  • Foster A. C., Fagg G. E. Acidic amino acid binding sites in mammalian neuronal membranes: their characteristics and relationship to synaptic receptors. Brain Res. Rev. 1984; 7: 103–164
  • Fagg G. E., Foster A. C., Mena E. E., Cotman C. W. Chloride and calcium ions reveal a pharmacologically-distinct population of L-glutamate binding sites in synaptic membranes: correspondence between biochemical and electrophysiological data. J. Neurosci. 1982; 2: 958–965
  • Fagg G. E., Mena E. E., Cotman C. W. L-glutamate receptor populations in synaptic membranes: effects of ions and pharmacological characteristics. Adv. Biochem. Psychopharmac. 1983; 37: 199–209
  • Butcher S. P., Collins J. F., Roberts P. J. Characterization of the binding of DL-[3H]-2-amino-4-phosphonobutyrate to L-glutamate-sensitive sites on rat brain synaptic membranes. Br. L. Pharmac. 1983; 80: 355–364
  • Butcher S. P., Roberts P. J., Collins J. F. Ionic regulation of the binding of DL-[3H] -2-amino-4-phosphonobutyrate to L-glutamate-sensitive sites on rat brain membranes. J. Neurochem. 1984; 43: 1039–1045
  • Fagg G. E., Mena E. E., Cotman C. W. Freezing eliminates a specific population of L-glutamate receptors in synaptic membranes. Neurosci. Lett. 1983; 38: 157–162
  • Werling L. L., Doman K. A., Nadler J. V. L-[3H]Glutamate binding to hippocampal synaptic membranes: two binding sites discriminated by their different affinities for quisqualate. J. Neurochem. 1983; 41: 586–593
  • Nadler J. V., Wang A., Werling L. L. Binding sites for L-[3H]Glutamate on hippocampal synaptic membranes: three populations differentially affected by chloride and calcium ions. J. Neurochem. 1985; 44: 1791–1798
  • Pin J.-P., Bockaert J., Recasens M. The Ca2+/Cl− -de-pendent L-[3H]glutamate binding: a new receptor or a particular transport process?. FEBS Lett. 1984; 175: 31–36
  • Fagg G. E., Lanthorn. Cl−/Ca2+ -dependent L-glutamate binding sites do not correspond to 2-amino-4-phosphonobutanoate-sensitive excitatory amino acid receptors. Br. J. Pharmac. 1985; 86: 743–751
  • Honoré T., Lauridsen J., Krogsgaard-Larsen P. The binding of [3H]AMPA, a structural analogue of glutamic acid, to rat brain membranes. J. Neurochem. 1982; 38: 173–178

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