Abstract
Pretreatment of brain synaptic membrane homogenates with Triton X-100 resulted in a drastic disclosure of [3H] glutamate (Glu) binding activity which was sensitive to one of the central Glu receptor agonists, N-methyl-D-aspartic acid (NMDA). The NMDA-sensitive binding was inversely dependent on the incubation temperature, and was a reversible and saturable process. Scatchard analysis revealed that Triton X-100 treatment yielded in a significant enhancement of the affinity with a concomitant increment of the density of binding sites. Electrophysiologically identified agonists and antagonists for the NMDA receptors all significantly inhibited the binding to Triton-treated membranes. These results suggest that Triton-treatment may disclose NMDA-sensitive [3H] Glu binding sites in brain synaptic membranes.
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