Abstract

Functional and behavioral tolerance to chronic benzodiazepine (BZ) exposure has been associated with an uncoupling of the BZ and GABA binding sites. As in rats exposed to BZ for periods of a week or longer, recombinant GABA(A) receptors (GABARs) expressed in Sf9 cells lose the normally observed allosteric enhancement of [3H]flunitrazepam binding by GABA agonists, which is measured in homogenized membranes after a few hours exposure to pharmacological doses of agonist BZ. Treatment of Sf9 cells expressing recombinant GABAR with various drugs that inhibit protein kinase A (PKA), but not protein kinase C (PKC), resulted in an uncoupling of the BZ and GABA binding sites; whereas promotion of phosphorylation by PKA, but not PKC, favored coupling and recoupling. However, mutation of the only PKA phosphorylation site expressed from among the subunits proved that direct phosphorylation of the GABAR was not involved in either coupling after chronic BZ exposure or reversal of uncoupling after exposure to the competitive BZ antagonist, flumazenil. Osmotic-shock of cell membrane homogenates to lyse intracellular compartments reversed uncoupling, and uncoupling can be replicated in untreated cells by performing membrane binding assays in an acidic environment, suggesting that GABARs become internalized into an acidic intracellular environment where normal BZ binding occurs, but that potentiation by GABA is hindered. The internalization of receptors was shown by immunofluorescence after chronic exposure to either BZ or the PKA inhibitor H-89.

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