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  • Title: Relation of the [3H] gamma-hydroxybutyric acid (GHB) binding site to the gamma-aminobutyric acidB (GABAB) receptor in rat brain.
    Author: Snead OC.
    Journal: Biochem Pharmacol; 1996 Oct 25; 52(8):1235-43. PubMed ID: 8937431.
    Abstract:
    gamma-Hydroxybutyric acid (GHB) is a naturally occurring compound that has the ability to induce generalized absence seizures when given to animals. GHB has been hypothesized to induce this effect via the postsynaptic gamma-aminobutyric acidB (GABAB) receptor. We sought to test this hypothesis by examining the affinity of GABAB agonists and antagonists for the [3H]GHB binding site, the affinity of GHB and a GHB antagonist for the [3H]GABAB binding site, and the effect of guanine nucleotides and pertussis toxin on both, using autoradiographic binding assays. GHB and its antagonist, NCS 382, did not compete for [3H]GABAB binding, nor did (-)-baclofen or the [3H]GABAB antagonists, CGP 35348 or SCH 50911, compete for [3H]GHB binding; however, the GABAB agonist 3-amino-propylphosphinic acid (3-APPA), and the GABAB antagonists phaclofen and 2-hydroxysaclofen (2-OH saclofen) did show a weak affinity for [3H]GHB binding in frontal cortex. GTP and the nonhydrolyzable GTP analogues, GTP gamma S and Gpp(NH)p, depressed [3H]GABAB binding throughout the brain, but increased [3H]GHB binding in frontal cortex and thalamus, those regions involved in GHB-induced absence seizures. Pertussis toxin significantly depressed [3H]GABAB binding throughout the brain, but attenuated [3H]GHB binding only in frontal cortex, and to a lesser degree than [3H]GABAB binding. The guanine nucleotide-induced changes in [3H]GHB and [3H]GABAB binding were due to a change in KD for both. Moreover, GTP gamma S reversed the ability of 3-APPA, phaclofen, and 2-OH saclofen to compete for [3H]GHB binding. These data do not support the hypothesis that GHB acts through the postsynaptic GABAB receptor to produce absence seizures. Rather, they raise the possibility either that the [3H]GHB binding site may be an isoform of the presynaptic GABAB receptor or that an independent GHB site is operative in the GHB model of absence seizures.
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