Progesterone does not affect cocaine-induced conditioned place preference or locomotor activity in male rats.

Introduction: The present study aimed to determine if, as occurs in female rats, progesterone attenuates cocaine-induced reward and psychomotor responses in male rats.

Methods: The role of progesterone in the acquisition and/or expression of cocaine-induced conditioned place preference (CPP) and locomotor responses of intact male rats was studied. For chronic progesterone treatment, rats received Silastic capsules with either progesterone (100%) or vehicle 1 week prior to conditioning.

Testosterone differentially alters cocaine-induced ambulatory and rearing behavioral responses in adult and adolescent rats.

Little is known about the physiological and behavioral effects of testosterone when co-administered with cocaine during adolescence. The present study aimed to determine whether exogenous testosterone administration differentially alters psychomotor responses to cocaine in adolescent and adult male rats. To this end, intact adolescent (30-days-old) and adult (60-day-old) male Fisher rats were pretreated with vehicle (sesame oil) or testosterone (5 or 10mg/kg) 45 min prior to saline or cocaine (20mg/kg) administration.

Effects of RU 486 and tamoxifen on cocaine-induced behavioral and endocrinologic activations in male and female Fischer rats.

Evidence suggests that sex differences in response to cocaine administration may be regulated by activation of progesterone and estrogen receptors. To test this hypothesis, rats were pretreated with either RU 486 (progesterone antagonist; 0, 3, or 25 mg/kg), tamoxifen (estrogen antagonist; 0, 1, or 3 mg/kg), or vehicle followed by saline or cocaine administration (15 mg/kg). Although RU 486 did not affect cocaine-induced locomotor activity in female rats, it dose-dependently decreased such activity in males (3 mg/kg significantly attenuated locomotor responses in cocaine-treated rats as compared with vehicle treatment or 25 mg/kg of RU 486).

Coadministration of estrogen and progesterone differentially affects locomotor responses to cocaine in rats.

Fluctuations in ovarian hormones throughout the estrous cycle may underlie sex differences in behavior. In this study, estrogen plus progesterone were coadministered at different ratios to determine whether the interaction of those hormones during the estrous cycle contributes to cocaine-induced alterations in behavior. Before cocaine (15 mg/kg) or saline administration, ovariectomized female rats received either vehicle or estrogen (10 microg or 50 microg) and progesterone (100 microg or 500 microg).

Progesterone attenuates cocaine-induced conditioned place preference in female rats.

Progesterone replacement attenuates the intensity of cocaine-induced conditioned place preference (CPP) behaviors in female rats. The present study aimed to expand that finding by (i) determining the role of progesterone in the acquisition and/or expression of cocaine-induced CPP and (ii) determining if progesterone's effects might be meditated through learning and memory. To this end, female rats were administered progesterone during cocaine conditioning or object recognition tasks; rats received subcutaneous injections of progesterone (500 microg) or vehicle (sesame oil) 4 h before saline or cocaine (5 mg/kg) on conditioning days (acquisition phase) or before testing (expression phase or object recognition tasks).

Effects of short- and long-term estrogen and progesterone replacement on behavioral responses and c-fos mRNA levels in female rats after acute cocaine administration.

It is well established that there are estrous cycle differences in cocaine-induced behavioral activity, implicating fluctuations in levels of estrogen and progesterone throughout the cycle in these alterations in behavior. However, the mechanisms by which steroids alter cocaine-induced behavioral responses have yet to be determined. The aim of this study was to determine whether short- or long-term estrogen and progesterone administration differentially alters behavioral responses to cocaine.

Estrogen and progesterone affect cocaine pharmacokinetics in female rats.

Several studies have reported sex differences in behavioral responses to cocaine whereby females display a greater degree of locomotor activity. Fluctuations in estrogen and progesterone during the estrous cycle have been postulated to underlie these behavioral differences. In this study, we tested the hypothesis that hormonal replacement (estrogen or progesterone) in ovariectomized rats affects cocaine pharmacokinetics.

Cocaine-induced sex differences in D1 receptor activation and binding levels after acute cocaine administration.

Although it is established that female rats have a more robust behavioral response to acute cocaine administration than male rats, the neurobiological mechanisms underlying these differences remain unclear. The purpose of the present study was to determine whether dopamine (DA) receptor activation influences sex differences in cocaine-induced behaviors. A second study was performed to determine sex differences in D1/D2 receptor levels prior to and post-cocaine administration.

Progesterone inhibits behavioral responses and estrogen increases corticosterone levels after acute cocaine administration.

Accumulating evidence suggests that estrogen and progesterone contribute to the sexually dimorphic behavioral response to cocaine. In this study, we tested the hypothesis that varying the level of estrogen or progesterone affects cocaine-induced locomotive behavior in female rats. Ovariectomized (OVX) rats received estrogen (0, 5, 10, 20, or 50 microg) 48 h or progesterone (0, 50, 100, 250, or 500 microg) 24 h before acute saline or cocaine (15 mg/kg) administration.

Sex differences in cocaine-induced behavioral responses, pharmacokinetics, and monoamine levels.

Female rats display a more robust behavioral response to acute cocaine administration than do male rats. However, a clear understanding of the biological mechanisms underlying these differences remains elusive. The present study investigated whether sexual dimorphisms in cocaine-induced motor behavior might be based on monoaminergic levels and/or cocaine pharmacokinetics.

Effects of cocaine on c-fos and preprodynorphin mRNA levels in intact and ovariectomized Fischer rats.

Psychostimulants such as cocaine have been shown to regulate c-fos and opioid gene expression in male rats. However, little information is available on cocaine effects in female rats or how the ovarian hormones, estrogen and progesterone, modulate these effects. In this study we used quantitative solution hybridization assays to measure c-fos and preprodynorphin (PDYN) mRNA levels after cocaine administration in the caudate/putamen of intact male and female rats or ovariectomized (OVX) female rats that were pretreated with vehicle, estrogen and/or progesterone.