Self-administration of progesterone and synthetic neuroactive steroids by male rhesus monkeys.

Background: Progesterone-derived neuroactive steroids have shown promise clinically (e.g., anti-seizure medications) but, as with other GABAA receptor modulators (e.g., benzodiazepines), may have the potential for abuse.

Methods: We evaluated the reinforcing effects of progesterone, a steroid precursor of endogenous neuroactive steroids, with and without pretreatments with the neuroactive steroid synthesis inhibitor, finasteride, in rhesus monkeys trained under a progressive-ratio (PR) schedule of i.v. midazolam injection. We also assessed reinforcing effects of the short-acting neuroactive steroid alphaxolone and the long-acting neuroactive steroid ganaxolone in comparison with the short-acting benzodiazepine triazolam and the long-acting benzodiazepine clonazepam.

Results: At least one dose of progesterone, alphaxolone, and ganaxolone was self-administered significantly above vehicle levels in all monkeys tested (n=4 for progesterone, n=3 for alphaxolone and ganaxolone). The 5α-reductase inhibitor finasteride attenuated progesterone self-administration, consistent with the reinforcing effects of progesterone being mediated by the in vivo synthesis of neuroactive steroids. The comparison drugs, triazolam and clonazepam, were self-administered significantly above vehicle by all monkeys. Although the maximum number of injections/session maintained by the neuroactive steroids was below that maintained by the midazolam training dose, analysis of break points (i.e., highest response requirement achieved) suggested modest differences in relative reinforcing effectiveness for neuroactive steroids compared with benzodiazepines.

Conclusions: Our results are consistent with endogenous and synthetic neuroactive steroids having reinforcing effects similar to that of benzodiazepines, with reinforcing effectiveness possibly lower for the neuroactive steroids compared with benzodiazepines based on some measures.