Modulation of [3H]Diazepam Binding in Rat Cortical Membranes by GABAA Agonists

GABAA receptor agonists modulate 3H]diazepam binding in rat cortical membranes with different efficacies. At 23 degrees C, the relative potencies for enhancement of 3H]diazepam binding by agonists parallel their potencies in inhibiting 3H]gamma-aminobutyric acid ( 3H]GABA) binding. The agonist concentrations needed for enhancement of 3H]diazepam binding are up to 35 times higher than for 3H]GABA binding and correspond closely to the concentrations required for displacement of 3H]bicuculline methochloride (BMC) binding. The maximum enhancement of 3H]diazepam varied among agonists: muscimol = GABA greater than isoguvacine greater than 3-aminopropane sulphonic acid (3APS) = imidazoleacetic acid (IAA) greater than 4,5,6,7-tetrahydroisoxazolo (4,5,6)-pyridin-3-ol (THIP) = taurine greater than piperidine 4-sulphonic acid (P4S). At 37 degrees C, the potencies of agonists remained unchanged, but isoguvacine, 3 APS, and THIP acquired efficacies similar to GABA, whereas IAA, taurine, and P4S maintained their partial agonist profiles. At both temperatures the agonist-induced enhancement of 3H]diazepam binding was reversible by bicuculline methobromide and by the steroid GABA antagonist RU 5135. These results stress the importance of studying receptor-receptor interaction under near-physiological conditions and offer an in vitro assay that may predict the agonist status of putative GABA receptor ligands.