The role of neurosteroids and nongenomic effects of progestins in the ventral tegmental area in mediating sexual receptivity of rodents

Progesterone (P(4)) in the ventromedial hypothalamus (VMH) and ventral tegmental (VTA) is important for facilitation of lordosis; however, P(4)'s actions in these brain areas are different. Using lordosis in rodents as in vivo experimental models, we have examined the effects progestins exert in the midbrain and hypothalamus. Localization and blocker studies indicate that P(4)'s actions in the VMH require intracellular progestin receptors (PRs) but in the VTA they do not. Progestins that have rapid, membrane effects, and/or are devoid of affinity for PRs, facilitate lordosis when applied to the VTA. Manipulation of GABA and/or GABA(A)/benzodiazepine receptor complexes (GBRs) in the VTA alter lordosis, which suggests that progestins may interact with GBRs to facilitate receptivity by enhancing the function of GABAergic neurons. Interfering with P(4)'s metabolism to 5 alpha-pregnan-3 alpha-ol-20-one (3 alpha,5 alpha-THP), the most effective endogenous positive modulator of GBRs, or the biosynthesis of the neurosteroid 3 alpha,5 alpha-THP in the VTA attenuates female sexual behavior in rodents. Stimulation of mitochondrial benzodiazepine receptors (MBRs), which enhance neurosteroid production, by infusions of a MBR agonist to the VTA enhances lordosis. 3 alpha,5 alpha-THP is increased in the midbrain of mated > proestrous > diestrous rodents. These data suggest that 3 alpha,5 alpha-THP has a proximate modulatory role on lordosis. In summary, the actions of P(4) in the VTA are different from those in the VMH that involve PRs. In the VTA, P(4) may facilitate lordosis following metabolism to and/or biosynthesis of 3 alpha,5 alpha-THP, which may have subsequent actions at GBRs and/or MBRs to acutely modulate female sexual behavior in rodents.     

Progestins Can Have a Membrane-Mediated Action in Rat Midbrain for Facilitation of Sexual Receptivity

In rats, progesterone (P) facilitates sexual receptivity by interacting with intracellular progestin receptors in the ventromedial hypothalamus (VMH). This experiment concerns whether P can also facilitate receptivity in rats by acting extragenomically within the ventral tegmental area (VTA). Ovariectomized rats (n= 10) with bilateral guide cannulas over the VMH and VTA were primed with 2 μg subcutaneous estradiol benzoate 44 hr prior to testing. After a pretest for sexual receptivity, animals received implants to the VMH of P, P conjugated to bovine serum albumin (P:BSA), or cholesterol control (CHOL), and were retested. Two hours later, animals were again tested for receptivity, and P, P:BSA, the P metabolite 5α-pregnan-3α-ol-20-one (3α,5α-THP), or CHOL implants were applied to the VTA. Subjects were retested immediately, 30, 90, and 150 min later. Animals that received P in the VMH and had P, P:BSA, or 3α,5α-THP applied to the VTA exhibited facilitated receptivity at all time points compared with all other combination implants. That P:BSA and P were equally effective when applied to the VTA, but not the VMH, suggests that in the VTA P's membrane-mediated actions are sufficient to facilitate receptivity, whereas in the VMH they are not. Since the steroid (P) and its metabolite (3α,5α-THP) are similarly effective when applied to the VTA, given P application to the VMH earlier, P's effects in the VTA may be subsequent to metabolism and/or actions at GABA receptors. Overall, these data suggest that in rats P can act at the membrane of neurons within the VTA to modulate lordosis and that these effects may be subsequent to P's metabolism and/or actions at GABA receptors.     

Induction of lordosis in the female hamster utilizing metabolites of progesterone

Progesterone, 6α-methyl-17α-OHP, and several progesterone metabolites were administered to ovariectomized, estrogen-primed female hamsters. Progesterone was most effective in the facilitation of sexual receptivity. 5α-Pregnan-3,20-dione was significantly more effective than the other progestins, which were no more effective than oil.     

In the ventral tegmental area, progestins have actions at D1 receptors for lordosis of hamsters and rats that involve GABA A receptors

In the ventral tegmental area (VTA), progestins facilitate lordosis via actions at gamma-aminobutyric acid (GABA)(A)/benzodiazepine receptor complexes (GBRs) and dopamine type 1 receptors (D1). The relationship between progestins' actions at GBRs and D1 in the VTA for facilitating sexual behavior of hamsters and rats was examined. Ovariectomized (ovx), estradiol (E(2); 10 microg)+progesterone (P; 250 microg; SC)-primed hamsters, with bilateral guide cannulae to the VTA, were pre-tested for sexual and motor behavior and infused with the GBR antagonist bicuculline (100 ng/side) or vehicle. Thirty minutes later, hamsters were re-tested and then infused with the D1 agonist SKF38393 (100 ng/side) or vehicle. Hamsters were post-tested 30 min later. Ovx, E(2) (10 microg)-primed rats were pre-tested, infused first with bicuculline or vehicle, second with SKF38393 or vehicle, third with 5alpha-pregnan-3alpha-ol-20-one (3alpha,5alpha-THP; 0, 100, or 200 ng) and were post-tested 10 and 60 min after 3alpha,5alpha-THP infusions. VTA infusions of SKF38393 increased lordosis of hamsters or rats. Bicuculline pretreatment reduced SKF38393- and/or progesterone-mediated increases in lordosis of E2-primed hamsters. In E2-primed rats, bicuculline blocked SKF38393- and/or 3alpha,5alpha-THP-mediated increases in lordosis. There were no effects on motor behavior. Thus, in the VTA, GBR activity modulates D1-mediated actions for lordosis of hamsters and rats.     

Conjugated estradiol increases female sexual receptivity in response to oxytocin infused into the medial preoptic area and medial basal hypothalamus

The ovarian steroid estradiol (E) has been found to increase both receptor affinity and release of the neuropeptide oxytocin (OT) in plasma membrane preparations. Therefore, we hypothesized that E conjugated to bovine serum albumin at position 6 (E-6-BSA) would increase behavioral responsiveness to OT. Preliminary results showed that 200 ng/microl of E-6-BSA increased sexual receptivity slightly, but not significantly. Therefore, this dose was used as a subthreshold dose to test whether it would increase sexual responsiveness when infused in combination with 100 ng/microl OT. After recovery from cannula implantation surgery animals were injected with 0.5 microg E benzoate daily for 3 days before testing. On the fourth day, after a baseline preinfusion test rats were infused bilaterally with E-6-BSA alone or with OT, OT with BSA, or conjugated progesterone, luteinizing hormone-releasing hormone equimolar to OT alone, or with E-6-BSA or conjugated progesterone alone. When infused into either the medial preoptic area-anterior hypothalamus or the medial basal hypothalamus the combination of OT and E-6-BSA significantly increased sexual receptivity over receptivity after artificial cerebrospinal fluid control infusions. Neither bilateral infusions of OT in combination with conjugated progesterone nor E-6-BSA in combination with luteinizing hormone-releasing hormone enhanced sexual receptivity. Results presented here strongly support the conclusion that some of the effects that E has in sensitizing brain systems to the facilitating effects of OT occur at the membrane level in the medial preoptic area-anterior hypothalamus and medial basal hypothalamus.     

Oxytocin immunoreactivity in the hypothalamus of female hamsters

In Syrian hamsters (Mesocricetus auratus), oxytocin (OXT) activity within the medial preoptic-anterior hypothalamus (MPOA-AH) and the ventromedial hypothalamus (VMH) plays an important role in the expression of sexual receptivity. Immunocytochemical analysis with OXT-specific antibodies was used to identify the distribution of OXT-containing cell bodies and fibers in female hamster brain and to determine the possible sources of OXT important for sexual receptivity. Oxytocin-immunoreactive cell bodies and fibers were found in several regions of the preoptic area, including the medial preoptic area, the medial preoptic nucleus, and the bed nucleus of the stria terminalis. Large numbers of cell bodies and fibers were localized within the paraventricular and supraoptic nuclei, and in anterior hypothalamus. OXT-immunoreactive fibers were observed in the VMH and the ventral tegmental area. The anatomical data from the present study support the hypothesis that OXT activity in the MPOA-AH and the VMH plays an important role in the regulation of sexual receptivity in hamsters.     

Facilitation of sexual receptivity in hamsters by simultaneous progesterone implants into the VMH and ventral mesencephalon

Intracranial implantation experiments have shown that the ventromedial hypothalamus (VMH) is the most sensitive site for the facilitation of female sexual behavior by progesterone in estrogen-primed rats. However, similar implantation techniques have been much less successful in hamsters. Several lines of evidence indicate that both hypothalamic and midbrain structures are important for hamster lordosis. Therefore we compared the effect of progesterone (P) implants administered simultaneously to VMH and ventral midbrain on opposite sides of the brain to the effects of bilateral implants to each of these sites separately. Ovariectomized female hamsters were stereotaxically implanted with 24-gauge thin-wall guide tubes according to one of five patterns. Bilaterally symmetrical cannulae were aimed at VMH or ventral mesencephalon (vMES) or asymmetrical implants were aimed at one of the following pairs of sites, on opposite sides of the brain: VMH-vMES, VMH-preoptic area (VMH-POA), or anterior hypothalamus-anterior mesencephalon (AH-aMES). After recovery from surgery, females were primed with 10 micrograms estradiol benzoate and given pellets of P or cholesterol through a 30-gauge injector in the targeted sites. Latency, frequency, and duration of lordosis were recorded in 10-min tests with sexually active male hamsters. Sexual receptivity was significantly facilitated by simultaneous contralateral P implants into the VMH-vMES. P implants in any other combination of sites did not significantly facilitate lordosis compared to cholesterol control implants, nor did bilateral administration of this dose of P in either VMH or vMES have a reliable effect. The results support the hypothesis that P action is required in both VMH and vMES to reliably stimulate receptivity in hamsters.     

GABA influences the development of the ventromedial nucleus of the hypothalamus

The region that becomes the ventromedial nucleus of the hypothalamus (VMH) is surrounded by cells and fibers containing immunoreactive gamma‐aminobutyric acid (GABA) by embryonic day 13 (E13), several days before the nucleus emerges in Nissl stains. As GABA plays many roles during neural development, we hypothesized that it influences VMH development, perhaps by providing boundary information for migrating neurons. To test this hypothesis we examined the VMH in embryonic mice in which the β3 subunit of the GABA_A‐receptor, a receptor subunit that is normally highly expressed in this nucleus, was disrupted by gene targeting. In β3 ?/? embryos the VMH was significantly larger, and the distribution of cells containing immunoreactive estrogen receptor‐α was expanded compared to controls. Using in vitro brain slices from wild‐type C57BL/6J mice killed at E15 we found that treatment with the GABA_A antagonist bicuculline increased the number of cells migrating per video field analyzed in the VMH. In addition, treatment with either bicuculline or the GABA_A agonist muscimol altered the orientation of cell migration in particular regions of this nucleus. These data suggest that GABA is important for the organization of cells during VMH formation. © 2001 John Wiley & Sons, Inc. J Neurobiol 49: 264–276, 2001     

Progestin facilitation of lordosis in rodents involves adenylyl cyclase activity in the ventral tegmental area

Increasing cAMP, or activating dopamine type 1 (D(1)) or GABA(A)/benzodiazepine receptor complexes (GBRs), in the ventral tegmental area (VTA) enhances lordosis of rodents. Whether D(1)- and/or GBR-mediated increases in progestin-facilitated lordosis involve the cAMP-synthesizing enzyme, adenylyl cyclase, in the VTA, was investigated. In Experiment 1, ovariectomized estradiol (E(2); 10 microg at h 0)+progesterone (P; 250 microg at h 45)-primed hamsters first received bilateral infusions of the adenylyl cyclase inhibitor, 2',5'-dideoxyadenosine (DDA; 12 microM/side), or vehicle, and then were infused with the D(1) agonist, SKF38393 (100 ng/side), the GBR agonist, muscimol (100 ng/side), or vehicle, to the VTA. Lordosis was evaluated before and 30 min after each infusion. In Experiment 2, ovariectomized, E(2)-primed (10 microg at h 0) rats received VTA infusions of DDA (12 microM/side) or vehicle; SKF38393 (100 ng/side), muscimol (100 ng/side), or vehicle; and the neurosteroid, 5alpha-pregnan-3alpha-ol-20-one (3alpha,5alpha-THP; 100 or 200 ng/side), or beta-cyclodextrin vehicle. Lordosis was assessed before the series of infusions, immediately after drug infusions and 10 or 60 min after 3alpha,5alpha-THP infusions. Progestin- or progestin plus SKF38393-or muscimol-mediated increases in lordosis were blocked by DDA pretreatment. Thus, in the VTA, progestins' membrane action may involve adenylyl cyclase.     

Modulation of the arcuate nucleus–medial preoptic nucleus lordosis regulating circuit: A role for GABAB receptors

Estradiol rapidly activates a microcircuit in the arcuate nucleus of the hypothalamus (ARH) that is needed for maximal female sexual receptivity. Membrane estrogen receptor-α complexes with and signals through the metabotropic glutamate receptor-1a stimulating NPY release within the ARH activating proopiomelanocortin (POMC) neurons. These POMC neurons project to the medial preoptic nucleus (MPN) and release β-endorphin. Estradiol treatment induces activation/internalization of MPN μ-opioid receptors (MOR) to inhibit lordosis. Estradiol membrane action modulates ARH gamma-aminobutyric acid receptor-B (GABA_B) activity. We tested the hypothesis that ARH GABA_B receptors mediate estradiol-induced MOR activation and facilitation of sexual receptivity. Double-label immunohistochemistry revealed expression of GABA_B receptors in NPY, ERα and POMC expressing ARH neurons. Approximately 70% of POMC neurons expressed GABA_B receptors. Because estradiol initially activates an inhibitory circuit and maintains activation of this circuit, the effects of blocking GABA_B receptors were evaluated before estradiol benzoate (EB) treatment and after at the time of lordosis testing. Bilateral infusions of the GABA_B receptor antagonist, CGP52432, into the ARH prior to EB treatment of ovariectomized rats prevented estradiol-induced activation/internalization of MPN MOR, and the rats remained unreceptive. However, in EB-treated rats, bilateral CGP52432 infusions 30 min before behavior testing attenuated MOR internalization and facilitated lordosis. These results indicated that GABA_B receptors were located within the lordosis-regulating ARH microcircuit and are necessary for activation and maintenance of the estradiol inhibition of lordosis behavior. Although GABA_B receptors positively influence estradiol signaling, they negatively regulate lordosis behavior since GABA_B activity maintains the estradiol-induced inhibition.     

Autoradiographic localization of γ-aminobutyric acidA receptors within the ventral tegmental area

Destruction of intrinsic neurons in the ventral tegmental area (VTA) with the excitotoxin, quinolinic acid produced a significant decrease (80%) in [³H]muscimol binding to GABA_A receptors within the parabrachial pigmented and paranigral nuclei of the VTA. Selective destruction of the dopaminergic neurons with 6-hydroxydopamine (6-OHDA) did not reduce [³H]muscimol binding within the VTA. However, the destruction of dopaminergic neurons did produce an increase (20%) in [³H]muscimol binding contralateral to the lesion, suggesting a reduction in the GABAergic innervation to this region. Additionally, destruction of the VTA afferents with quinolinic acid injections in the medial accumbens failed to produce alterations in [³H]muscimol binding within the VTA. These results are consistent with the predominant localization of GABA_A receptors to non-dopaminergic neurons intrinsic to the VTA.Special issue dedicated to Dr. Frederick E. Samson     

Yellow Fluorescent Protein-Based Assay to Measure GABAA Channel Activation and Allosteric Modulation in CHO-K1 Cells

The γ-aminobutyric acid A (GABA_A) ion channels are important drug targets for treatment of neurological and psychiatric disorders. Finding GABA_A channel subtype selective allosteric modulators could lead to new improved treatments. However, the progress in this area has been obstructed by the challenging task of developing functional assays to support screening efforts and the generation of cells expressing functional GABA_A ion channels with the desired subtype composition. To address these challenges, we developed a yellow fluorescent protein (YFP)-based assay to be able to study allosteric modulation of the GABA_A ion channel using cryopreserved, transiently transfected, assay-ready cells. We show for the first time how the MaxCyte STX electroporation instrument can be used to generate CHO-K1 cells expressing functional GABA_A α2β3γ2 along with a halide sensing YFP-H148Q/I152L (YFP-GABA_A2 cells). As a basis for a cell-based assay capable of detecting allosteric modulators, experiments with antagonist, ion channel blocker and modulators were used to verify GABA_A subunit composition and functionality. We found that the I⁻ concentration used in the YFP assay affected both basal quench of YFP and potency of GABA. For the first time the assay was used to study modulation of GABA with 7 known modulators where statistical analysis showed that the assay can distinguish modulatory pEC₅₀ differences of 0.15. In conclusion, the YFP assay proved to be a robust, reproducible and inexpensive assay. These data provide evidence that the assay is suitable for high throughput screening (HTS) and could be used to discover novel modulators acting on GABA_A ion channels.     

The effects of progestins,mineralocorticoids, glucocorticoids,and steroid solubility on the induction of sexual receptivity in rats

In the first experiment, progesterone and its 5α-reduced metabolite, 5α-dihydroprogesterone, dissolved in two different vehicles were compared for their effectiveness in facilitating lordosis behavior in ovariectomized estrogen-primed rats. When dissolved in oil vehicle, 5α-dihydroprogesterone was less effective than progesterone. However, when dissolved in Tween 80 solution, the two progestins were equally effective. In the second experiment, adrenal corticoids dissolved in Tween 80 solution were tested for their relative ability to facilitate sexual receptivity. Progesterone, desoxycorticosterone, and desoxycorticosterone acetate were equally effective in facilitating sexual receptivity. Aldosterone, corticosterone, and corticosterone acetate were no more effective than the vehicle in facilitating sexual receptivity.     

Sex Steroids Effects on the Content of GAD, TH, GABAA, and Glutamate Receptors in the Olfactory Bulb of the Male Rat

Sex steroids exert multiple functions in the central nervous system. They modulate responses to olfactory information in mammals but their participation in the regulation of neurotransmission in the olfactory bulb is unknown. We studied by Western blot the effects of estradiol (E2), progesterone (P4), and allopregnanolone (Allo) on the content of glutamic acid decarboxylase (GAD), γ-aminobutyric acid A receptor α-2 subunit (GABA_AR α-2), glutamate receptor 2/3 (GlutR 2/3), and tyrosine hydroxylase (TH) in the olfactory bulb of gonadectomized male rats. GAD content was increased by all steroids administered alone. Interestingly, progestins reduced E2 effects on GAD content. Steroids increased the content of TH and GABA_AR α-2. In contrast, GlutR 2/3 content was decreased by E2 and P4, whereas Allo did not modify it. These results suggest that estrogens and progestins regulate olfactory bulb functions in the male rat by modulating the expression of key proteins involved in several neurotransmission systems. Special issue article in honor of Dr. Ricardo Tapia.     

GABAB receptor-mediated activation of astrocytes by gamma-hydroxybutyric acid

The gamma-aminobutyric acid (GABA) metabolite gamma-hydroxybutyric acid (GHB) shows a variety of behavioural effects when administered to animals and humans, including reward/addiction properties and absence seizures. At the cellular level, these actions of GHB are mediated by activation of neuronal GABA_B receptors (GABA_BRs) where it acts as a weak agonist. Because astrocytes respond to endogenous and exogenously applied GABA by activation of both GABA_A and GABA_BRs, here we investigated the action of GHB on astrocytes on the ventral tegmental area (VTA) and the ventrobasal (VB) thalamic nucleus, two brain areas involved in the reward and proepileptic action of GHB, respectively, and compared it with that of the potent GABA_BR agonist baclofen. We found that GHB and baclofen elicited dose-dependent (ED₅₀: 1.6 mM and 1.3 µM, respectively) transient increases in intracellular Ca²⁺ in VTA and VB astrocytes of young mice and rats, which were accounted for by activation of their GABA_BRs and mediated by Ca²⁺ release from intracellular store release. In contrast, prolonged GHB and baclofen exposure caused a reduction in spontaneous astrocyte activity and glutamate release from VTA astrocytes. These findings have key (patho)physiological implications for our understanding of the addictive and proepileptic actions of GHB.     

Membrane actions of progestins at dopamine type 1-like and GABAA receptors involve downstream signal transduction pathways

In the ventral tegmental area (VTA), progestins facilitate lordosis via rapid actions at membrane dopamine Type 1-like (D(1)) and/or GABA(A) receptors (GBRs), rather than via cognate, intracellular progestin receptors (PRs). Downstream signal transduction pathways involved in these effects were investigated using lordosis as a bioassay. If progestins' actions at D(1) and/or GBRs in the VTA require activation of G-proteins, adenylyl cyclase, cyclic AMP-dependent protein kinase A (PKA), phospholipase C (PLC), and/or PKC, then pharmacologically blocking these pathways would be expected to attenuate progestin-facilitated lordosis and its enhancement by D(1) and GBR activity. Ovariectomized, estradiol-primed rats were infused first with vehicle or signal transduction inhibitor, and second with vehicle, a D(1) or GBR agonist, and then with vehicle or progestins to the VTA. Rats were tested for lordosis following infusions. Results indicated that initiation of G-proteins, adenylyl cyclase, PKA, PLC, or PKC in the VTA is required for rapid effects of progestins through D(1) and/or GBRs to facilitate lordosis. As well, progestins' actions at n-methyl-d-aspartate receptors (NMDARs) may modulate activity at D(1) and/or GBRs and mitogen activated protein kinase (MAPK) may be a common signaling pathway. Findings from a microarray study demonstrated that there was upregulation of genes associated with steroid metabolism, GBRs, D(1), NMDARs and signal transduction factors in the midbrain VTA of naturally receptive mated compared to non-mated rats. Thus, in the VTA, progestins have rapid membrane-mediated actions via D(1), GBRs, NMDARs and their downstream signal transduction pathways.     

Sexual receptivity in hamsters: brain nuclear estrogen and cytosolic progestin receptors after single and multiple steroid treatments and during the estrous cycle

This series of experiments investigated the relationship between various treatments consisting of estradiol benzoate (EB) and progesterone (P) on sexual receptivity and on concentrations of nuclear estrogen receptors (NER) and cytosolic progestin receptors (CPR) in the hypothalamus-preoptic area in female hamsters. The injection of 1 microgram EB at 0 and 24 hr resulted in higher levels of receptivity (after 0.25 or 0.5 mg P), NER and CPR compared to those obtained after a single injection of 2 micrograms EB. Animals treated with 5 micrograms EB at 0 and 24 hr displayed greater levels of receptivity (after 0.5 mg P) and had higher NER concentrations than animals given a single injection of 10 micrograms EB. Groups treated with either 1 microgram EB at 0 hr or 0.5 microgram EB at 0 and 24 hr did not differ and showed low levels of receptivity, NER and CPR, NER and CPR were also measured on each day of the estrous cycle. NER levels rose between Days 1 and 2, again between Days 2 and 3, and remained elevated on Day 4. CPR levels increased between Days 2 and 3, and there was no difference between Days 3 and 4. Taken together, these data suggest that receptivity in hamsters after estrogen exposure is correlated with the accumulation and maintenance of relatively high NER levels and on the induction of CPR. This can be accomplished by a single large injection of EB or by smaller split doses.     

Synthesis of novel cognition enhancers with pyrazolo[5,1-c][1,2,4]benzotriazine core acting at γ-aminobutyric acid type A (GABAA) receptor

Memory dysfunction associated with aging, neurodegenerative and psychiatric disorders represents an increasing medical need. Advances in research exploring the biological mechanisms underlying learning and memory have opened new potential approaches for development of memory-enhancing therapies addressed to selective neuronal targets. In this work, we synthesized some derivatives with a pyrazolo[5,1-c][1,2,4]benzotriazine core to identify ligands on GABA_A receptors subtype (benzodiazepine site on GABA_A-receptor) endowed with the potential of enhancing cognition activity without the side effects usually associated with non-selective GABA_A modulators. In fact, there is much evidence that GABA_A-R (γ-aminobutyric acid, type A receptor) subtype ligands have relevance in learning and memory. In vitro and in vivo tests have been performed. Pharmacological data indicate that compounds 7, 13, 14 and 22 act as dual functional modulators of GABA_A-Rs (promnemonic and anxiolytic agents) while only compounds 3 and 10 stand out as selectively displaying good antiamnesic and procognitive activity (1 and 3 mg/kg, respectively).     

Effect of progesterone on the expression of GABAA receptor subunits in the prefrontal cortex of rats: implications of sex differences and brain hemisphere

Progesterone is a neuroactive hormone with non‐genomic effects on GABA_A receptors (GABA_AR). Changes in the expression of GABA_AR subunits are related to depressive‐like behaviors in rats. Moreover, sex differences and depressive behaviors have been associated with prefrontal brain asymmetry in rodents and humans. Thus, our objective was to investigate the effect of progesterone on the GABA_AR α1 and γ2 subunits mRNA expression in the right and left prefrontal cortex of diestrus female and male rats exposed to the forced swimming test (FST). Male and female rats (n = 8/group) were randomly selected to receive a daily dose of progesterone (0·4 mg·kg^–1) or vehicle, during two complete female estrous cycles (8–10 days). On the experiment day, male rats or diestrus female rats were euthanized 30 min after the FST. Our results showed that progesterone significantly increased the α1 subunit mRNA in both hemispheres of male and female rats. Moreover, there was an inverse correlation between depressive‐like behaviors and GABA_AR α1 subunit mRNA expression in the right hemisphere in female rats. Progesterone decreased the GABA_AR γ2 mRNA expression only in the left hemisphere of male rats. Therefore, we conclude that the GABA_A system displays an asymmetric distribution according to sex and that progesterone, at lower doses, presents an antidepressant effect after increasing the GABA_AR α1 subunit expression in the right prefrontal cortex of female rats. Copyright © 2012 John Wiley & Sons, Ltd.