Functional correlation between allopregnanolone and [35S]‐TBPS binding in the brain of rats exposed to isoniazid, pentylenetetrazol or stress

Abstract

1 The relation between changes in the cerebral cortical concentration of allopregnanolone and γ-aminobutyric acid (GABA) type A receptor function after intracerebroventricular injection of this neurosteroid was investigated in male rats. 2 Intracerebroventricular administration of allopregnanolone (1.25 to 15 μg) produced a maximal increase (100 fold at the highest dose) in cortical allopregnanolone concentration within 5 min; the concentration remained significantly increased at 15 and 30 min, before returning to control values by 60 min. 3 The same treatment induced a rapid and dose-dependent decrease in the binding of t-[³⁵S]-butylbicyclophosphorothionate ([³⁵S]-TBPS) to cerebral cortical membranes measured ex vivo, an effect mimicked by the benzodiazepine midazolam but not by the 3β-hydroxyepimer of allopregnanolone. The time course of changes in [³⁵S]-TBPS binding paralleled that of brain allopregnanolone concentration. 4 In a dose-dependent manner, allopregnanolone both delayed the onset of convulsions and inhibited the increase in [³⁵S]-TBPS binding to cortical membranes induced by isoniazid. The potency of allopregnanolone in inhibiting [³⁵S]-TBPS binding in isoniazid-treated rats was approximately four times that in control animals. 5 The ability of allopregnanolone to decrease [³⁵S]-TBPS binding in isoniazid-treated rats also correlated with its anticonvulsant activity against pentylenetetrazol-induced seizures as well as its inhibitory effect on the increase in [³⁵S]-TBPS binding induced by foot shock. 6 The results indicate that the ^{in vivo} administration of allopregnanolone enhances the function of GABA_A receptors in rat cerebral cortex and antagonizes the inhibitory action of stress and drugs that reduce GABAergic transmission.