Estradiol enhances behavioral sensitization to cocaine and amphetamine-stimulated striatal [ 3H]dopamine release

Abstract

Locomotor activity and stereotypy induced by cocaine is increased or ‘sensititized’ after repeated cocaine administration. This behavioral sensitization may be mediated by a persistent increase in dopamine (DA) transmission in mesolimbic and nigrostriatal pathways. Since the female estrous cycle and ovarian steroid hormones appear to affect both cocaine sensitization and DA transmission, studies were undertaken to determine the effects of ovarian steroids on sensitization of the behavioral responses to repeated cocaine injections and any concomitant effects on striatal DA release. Young female adult rats were ovariectomized and 2 weeks later were implanted with chronic release forms of estradiol (E), progesterone (P), both (EP) or vehicle (V). Locomotor and stereotypic behavior were rated after an initial injection of either saline or cocaine (10 mg/kg, i.p.) and after the 8th daily injection of saline or cocaine. A significant increase in both locomotor and stereotypic behaviors was seen after first cocaine injection relative to saline-injected animals and this response was not affected by steroid treatment. Repeated injections of cocaine caused sensitization of the initial behavioral response to cocaine (i.e. an increase in stereotypic and locomotor behavior) and the degree of cocaine sensitization was greatest in group E. Steroid treatment did not affect behavior in saline-treated rats. When striatal [ 3H]DA release was measured in vitro 1 or 7 days after the last injection, amphetamine-stimulated release was greater in vehicle-treated rats 7 days after cocaine injections but not 1 day after injections. In contrast, release was enhanced in group E both 1 and 7 days after cocaine. Combined EP treatment or P treatment alone did not enhance either behavioral sensitization of cocaine or amphetamine-stimulated release. Collectively these data indicate that E enhances both behavioral sensitization to cocaine and amphetamine-stimulated striatal DA release supporting the hypothesis that DA release may be E-modulated, neurochemical substrate of the behavioral effects of repeated cocaine exposure.