Abstract
Chronic GABA exposure of mammalian primary cultured cortical neurons results in a downregulation of the GABA-benzodiazepine receptor complex. In the present study, the mRNA levels, as well as polypeptide expression, for the GABA A receptor α 2 and α 3 subunits in cultured embryonic mouse cerebral cortical neurons (7 day old) were examined using northern analysis and immunoblotting techniques following chronic GABA treatment. The α 1 subunit mRNA or polypeptide could not be detected in these neurons. The steady state levels of mRNA for the GABA A receptor α 2 and α 3 subunits showed a decrease in comparison with untreated neurons. There was no change in the level of the β actin or poly(A) + RNA under the same experimental conditions. This agonist-induced reduction in the GABA A receptor α 2 and α 3 subunit mRNA was blocked by the concomitant exposure of neurons to R 5135, an antagonist of GABA A receptor. The polypeptide expression for the GABA A receptor α 2 and α 3 subunits in chronically GABA-treated neurons also showed a decline and this change was also blocked by the concomitant exposure of cells to GABA and R 5135. These results indicate that the chronic exposure of the GABA A receptor complex to agonist downregulates the expression of the α subunits of the receptor complex, which may be related to an observed decreases in the number of binding sites and GABA-induced 36Cl-influx in the cortical neurons.
Published Version
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