gamma-Aminobutyric acid-A (GABAA) agonists down-regulate GABAA/benzodiazepine receptor polypeptides from the surface of chick cortical neurons

Abstract

The impermeant SH-cleavable reagent, 125I-labeled 3,3'-dithiopropionyl 1-sulfosuccinimidyl 1'-glycyltyrosine (DPSgt) and specific immunoprecipitation were used to quantitate gamma-aminobutyric acid-A (GABAA) receptor polypeptides with domains exposed on the surface of chick cortical neurons. The 125I label incorporated into 50- and 53-kDa receptor subunits was completely removed by washing the cells with glutathione (GSH) buffer. A single dose of 100 microns GABA or GABA agonist was added to the neurons, and after 5 days in culture the cells were washed and labeled with 125I-DPSgt. This treatment with GABA or isoguvacine reduced the level of the receptor 125I-labeled subunits by 50-60%, while the reduction by 4,5,6,7-tetrahydroisoazolo[5,4-c]pyridin-3-ol was less than 17%. The subunit down-regulation by agonist was prevented by the GABAA antagonist 3 alpha-hydroxy-16-imino-5 beta-17-aza-androstan-11-one (R5135). Direct iodination of membranes isolated from treated cells revealed a similar loss of subunits, indicating that the down-regulated polypeptides are not retained intracellularly. Furthermore, the level of intracellular [3H]flunitrazepam binding (per mg of protein) did not change significantly during chronic GABA treatment, while the fraction of intracellular binding rose from 7% to 15% of the total, owing to a decline in surface binding. The fate of the surface subunits during acute agonist exposure was examined by labeling intact neurons with 125I-DPSgt at 0 degrees C, incubating with GABA for 2-4 h at 37 degrees C and then washing with GSH buffer. Of the 50-53-kDa receptor peptides originally on the surface, 16 +/- 2% became protected from GSH during the 2-h GABA treatment. This sequestration was not found in cells incubated without GABA, with GABA + R5135, or with GABA at 0 degree C. A consistently lower level of sequestered subunits was recovered after a 4- versus 2-h GABA treatment at 37 degrees C, suggesting polypeptide degradation. Overall, the results indicate that GABAA receptor sequestration and subsequent degradation play an important role in agonist-dependent down-regulation.