Neuroactive steroids are positive allosteric modulators of gamma-aminobutyric acidA (GABAA) receptor complexes. Synthetic modification generally does not increase neuroactive steroid potency beyond that of the naturally occurring progesterone metabolite, 3alpha-hydroxy-5alpha-pregnan-20-one (3alpha,5alpha-P). Recently, it has been shown that introduction of appropriately para-substituted phenylethynyl groups at the 3beta-position of 5beta steroids increases receptor potency. The present report presents the synthesis and pharmacological profile of an analogous series of 5alpha steroids. The most striking feature of this series is the further enhancement of in vitro and in vivo potency obtained. In particular, 3beta-(p-acetylphenylethynyl)-3alpha-hydroxy-5alpha-pr egnan-20-one (Co 152791) was 11-, 16- and 49-fold more potent than 3alpha, 5alpha-P in modulating the binding of [35S]TBPS, [3H]flunitrazepam and [3H]muscimol, respectively, in rat brain membranes (Co 152791 IC50 or EC50 = 2-7.5 nM). Similarly, Co 152791 was 3- to 20-fold more potent than 3alpha,5alpha-P as an inhibitor of [35S]TBPS binding in human recombinant receptor combinations containing alpha1, alpha2, alpha3 or alpha5 and beta2gamma2L subunits (Co 152791 IC50 1.4-5.7 nM). Co 152791 displayed low efficacy and 3alpha,5alpha-P had low potency at alpha4/6beta3gamma2L GABAA receptor complexes. Interestingly, Co 152791 demonstrated remarkable potency as a potentiator of GABA-evoked currents in Xenopus oocytes expressing alpha1beta2gamma2L receptors (EC50 0.87 nM), being 184-fold more potent than 3alpha,5alpha-P. High in vitro potency was also reflected in enhanced in vivo activity in that Co 152791 exhibited exceptional anticonvulsant potency, protecting mice from pentylenetetrazol-induced seizures at a approximately 5-fold lower dose than 3alpha,5alpha-P after i.p. administration (Co 152791 ED50 0.6 mg/kg). Moreover, Co 152791 was orally active (ED50 1.1 mg/kg) and exhibited a therapeutic index of 7 relative to rotorod impairment. The remarkable potency of Co 152791 as a positive allosteric modulator of GABAA receptors may be explained by its interaction with an auxiliary binding pocket in the neuroactive steroid binding site. In addition, modification at the 3beta-position probably hinders metabolism of the 3alpha-hydroxy group contributing to the exceptional anticonvulsant potency of this compound relative to other neuroactive steroids.