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

Abstract

The specific binding of L-[³H] -glutamic acid (GLU) was investigated in synaptic membranes from rat substantia nigra. L-[³H]-GLU binding to the membrane preparations occurred in a reversible and saturable way. The specific binding was stimulated by the presence of CaCl₂ and was reduced by freezing and thawing the membranes. Scatchard analysis of the saturation isotherms yielded a non-linear plot suggesting that the binding reaction does not occur through a simpla bimolecular association. Assuming non-interacting binding sites, a high (K_D1, 139 nM; Bmax1, 3.5 pmoles/mg protein) and a low (K_D2, 667 nM; Bmax2, 15.1 pmoles/mg protein) affinity L-[³H]-GLU binding site were obtained. The kinetics of dissociation of bound L-[³H]-GLU was biphasic; the respective dissociation rate constant (k-1) being 0.20 min⁻¹ and 0.013 min⁻¹. A series of amino acid receptor agonists and antagonists were tested as inhibitors of L-[³H]-GLU specific binding. Quisqualic acid, L-GLU and D-α-aminoadipate (D-α-AA) were the most potent inhibitors. DL-2-amino-4-phosphonobutyrate (APB), N-Methy1-D-aspartate (NMDA) and D-GLU were moderate inhibitors, whereas diamino-pimelic acid (DAPA) and glutamate diethyl ester (GDEE) exhibited the lowest relative potency. Kainic acid (KA), γ-aminobutyric acid (GABA) and bicuculline were not able to modify at any concentration used the specific binding of L-[³H]-GLU. These data demonstrate the presence of specific GLU binding sites in synaptic structures at substantia nigra level and support the idea that excitatory amino acids may play a role in synaptic transmission in this brain region.