Abstract
Rationale
Previous work has shown that adult female rats are more sensitive than adult male rats to the reinforcing effects of cocaine, an effect that appears to be due, at least in part, to ovarian hormones.
Objective
In this study, we examine sex differences in cocaine self-administration during adolescence, a period of marked hormonal change.
Materials and methods
Adolescent male and female Sprague–Dawley rats were trained to self-administer cocaine (0.75 mg/kg per infusion) under a fixed ratio 1 schedule (i.e., each response was reinforced by an infusion of cocaine) beginning on postnatal day 30. After acquisition, responding was assessed under a progressive-ratio schedule until postnatal day 50 with blood sampling occurring before the first five sessions to determine the relationship between gonadal hormones (i.e., estradiol, progesterone, and testosterone) and motivation for cocaine. Estrous cycle phase was monitored throughout the study. Separate groups of adolescent male and female rats were compared on the acquisition of and progressive-ratio responding for sucrose reinforcement.
Results
Females acquired cocaine self-administration more readily than did males, and a greater percentage of females acquired self-administration. Under progressive-ratio testing conditions, adolescent females responded at higher levels than adolescent males to obtain cocaine infusions, and in females, responding was positively associated with levels of estradiol and greatest during estrus. No sex differences were observed for sucrose reinforcement.
Conclusion
These findings suggest that sex differences are relevant during adolescence with evidence implicating circulating estradiol level as a factor that contributes to the enhanced sensitivity in females to the reinforcing effects of cocaine.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Advis JP, Ojeda SR (1978) Hyperprolactinemia-induced precocious puberty in the female rat: ovarian site of action. Endocrinology 103(3):924–935
Advis JP, White SS, Ojeda SR (1981) Delayed puberty induced by chronic suppression of prolactin release in the female rat. Endocrinology 109(5):1321–1330
Anglin MD, Hser YI, McGlothlin WH (1987) Sex differences in addict careers. 2. Becoming addicted. Am J Drug Alcohol Abuse 13(1–2):59–71
Arnold JM, Roberts DC (1997) A critique of fixed and progressive ratio schedules used to examine the neural substrates of drug reinforcement. Pharmacol Biochem Behav 57(3):441–447
Becker JB (1999) Gender differences in dopaminergic function in striatum and nucleus accumbens. Pharmacol Biochem Behav 64(4):803–812
Becker JB, Hu M (2007) Sex differences in drug abuse. Front Neuroendocrinol (in press)
Belluzzi JD, Wang R, Leslie FM (2005) Acetaldehyde enhances acquisition of nicotine self-administration in adolescent rats. Neuropsychopharmacology 30(4):705–712
Brady KT, Randall CL (1999) Gender differences in substance use disorders. Psychiatr Clin North Am 22(2):241–252
Brecht ML, O’Brien A, von Mayrhauser C, Anglin MD (2004) Methamphetamine use behaviors and gender differences. Addict Behav 29(1):89–106
Burnet FR, MacKinnon PC (1975) Restoration by oestradiol benzoate of a neural and hormonal rhythm in the ovariectomized rat. J Endocrinol 64(1):27–35
Caine SB, Bowen CA, Yu G, Zuzga D, Negus SS, Mello NK (2004) Effect of gonadectomy and gonadal hormone replacement on cocaine self-administration in female and male rats. Neuropsychopharmacology 29(5):929–942
Campbell UC, Morgan AD, Carroll ME (2002) Sex differences in the effects of baclofen on the acquisition of intravenous cocaine self-administration in rats. Drug Alcohol Depend 66(1):61–69
Carroll ME, Lac ST (1997) Acquisition of i.v. amphetamine and cocaine self-administration in rats as a function of dose. Psychopharmacology 129(3):206–214
Carroll ME, Morgan AD, Lynch WJ, Campbell UC, Dess NK (2002) Intravenous cocaine and heroin self-administration in rats selectively bred for differential saccharin intake: phenotype and sex differences. Psychopharmacology 161(3):304–313
Carroll ME, Lynch WJ, Roth ME, Morgan AD, Cosgrove KP (2004) Sex and estrogen influence drug abuse. Trends Pharmacol Sci 25(5):273–279
Centers for disease control and prevention (2003) Leading causes charts (National Center for Injury and Prevention Control). http://www.cdc.gov/ncipc/osp/charts.htm
Döhler KD, Wuttke W (1974) Serum LH, FSH, prolactin and progesterone from birth to puberty in female and male rats. Endocrinology 94(4):1003–1008
Döhler KD, Wuttke W (1976) Circadian fluctuations of serum hormone levels in prepubertal male and female rats. Acta Endocrinol 83(2):269–279
Evans SM, Foltin RW (2006) Exogenous progesterone attenuates the subjective effects of smoked cocaine in women, but not in men. Neuropsychopharmacology 31(3):659–674
Feltenstein MW, See RE (2007) Plasma progesterone levels and cocaine-seeking in freely cycling female rats across the estrous cycle. Drug Alcohol Depend 89(2–3):183–189
Ferdman N, Murmu RP, Bock J, Braun K, Leshem M (2007) Weaning age, social isolation, and gender, interact to determine adult explorative and social behavior, and dendritic and spine morphology in prefrontal cortex of rats. Behav Brain Res 180(2):174–182
Frantz KJ, O’Dell LE, Parsons LH (2007) Behavioral and neurochemical responses to cocaine in periadolescent and adult rats. Neuropsychopharmacology 32(3):625–637
Griffin ML, Weiss RD, Mirin SM, Lange U (1989) A comparison of male and female cocaine abusers. Arch Gen Psychiatry 46(2):122–126
Haney M, Maccari S, Le Moal M, Simon H, Piazza PV (1995) Social stress increases the acquisition of cocaine self-administration in male and female rats. Brain Res 698(1–2):46–52
Hecht GS, Spear NE, Spear LP (1999) Changes in progressive ratio responding for intravenous cocaine throughout the reproductive process in female rats. Dev Psychobiol 35(2):136–145
Hernandez-Avila CA, Rounsaville BJ, Kranzler HR (2004) Opioid-, cannabis- and alcohol-dependent women show more rapid progression to substance abuse treatment. Drug Alcohol Depend 74(3):265–272
Hu M, Crombag HS, Robinson TE, Becker JB (2004) Biological basis of sex differences in the propensity to self-administer cocaine. Neuropsychopharmacology 29(1):81–85
Jackson LR, Robinson TE, Becker JB (2006) Sex differences and hormonal influences on acquisition of cocaine self-administration in rats. Neuropsychopharmacology 31(1):129–138
Kantak KM, Goodrich CM, Uribe V (2007) Influence of sex, estrous cycle, and drug-onset age on cocaine self-administration in rats (Rattus norvegicus). Exp Clin Psychopharmacol 15(1):37–47
Kato S, Wakasa Y, Yanagita T (1987) Relationship between minimum reinforcing doses and injection speed in cocaine and pentobarbital self-administration in crab-eating monkeys. Pharmacol Biochem Behav 28(3):407–410
Kerstetter KA, Kantak KM (2007) Differential effects of self-administered cocaine in adolescent and adult rats on stimulus-reward learning. Psychopharmacology 194(3):403–411
King TS, Schenken RS, Kang IS, Javors MA, Riehl RM (1990) Cocaine disrupts estrous cyclicity and alters the reproductive neuroendocrine axis in the rat. Neuroendocrinology 51(1):15–22
Kuhn CM, Walker QD, Kaplan KA, Li ST (2001) Sex, steroids, and stimulant sensitivity. Ann N Y Acad Sci 937:188–201
Leslie FM, Loughlin SE, Wang R, Perez L, Lotfipour S, Belluzzia JD (2004) Adolescent development of forebrain stimulant responsiveness: insights from animal studies. Ann N Y Acad Sci 1021:148–159
Lynch WJ (2006) Sex differences in vulnerability to drug self-administration. Exp Clin Psychopharmacol 14(1):34–41
Lynch WJ, Carroll ME (1999) Sex differences in the acquisition of intravenously self-administered cocaine and heroin in rats. Psychopharmacology 144(1):77–82
Lynch WJ, Roth ME, Mickelberg JL, Carroll ME (2001) Role of estrogen in the acquisition of intravenously self-administered cocaine in female rats. Pharmacol Biochem Behav 68(4):641–646
Lynch WJ, Roth ME, Carroll ME (2002) Biological basis of sex differences in drug abuse: preclinical and clinical studies. Psychopharmacology 164(2):121–137
Lynch WJ, Mangini LD, Taylor JR (2005) Neonatal isolation stress potentiates cocaine seeking behavior in adult male and female rats. Neuropsychopharmacology 30(2):322–329
McCormick CM, Mathews IZ (2007) HPA function in adolescence: role of sex hormones in its regulation and the enduring consequences of exposure to stressors. Pharmacol Biochem Behav 86(2):220–233
McCormick CM, Robarts D, Gleason E, Kelsey JE (2004) Stress during adolescence enhances locomotor sensitization to nicotine in adulthood in female, but not male, rats. Horm Behav 46(4):458–466
McCormick CM, Robarts D, Kopeikina K, Kelsey JE (2005) Long-lasting, sex- and age-specific effects of social stressors on corticosterone responses to restraint and on locomotor responses to psychostimulants in rats. Horm Behav 48(1):64–74
McCormick CM, Smith C, Mathews IZ (2007) Effects of chronic social stress in adolescence on anxiety and neuroendocrine response to mild stress in male and female rats. Behav Brain Res (in press)
Mello NK, Knudson IM, Mendelson JH (2007) Sex and menstrual cycle effects on progressive ratio measures of cocaine self-administration in cynomolgus monkeys. Neuropsychopharmacology 32(9):1956–1966
Ojeda SR, Andrews WW, Advis JP, White SS (1980) Recent advances in the endocrinology of puberty. Endocr Rev 1(3):228–257
Perry JL, Anderson MM, Nelson SE, Carroll ME (2007) Acquisition of i.v. cocaine self-administration in adolescent and adult male rats selectively bred for high and low saccharin intake. Physiol Behav 91(1):126–133
Raap DK, Morin B, Medici CN, Smith RF (2000) Adolescent cocaine and injection stress effects on the estrous cycle. Physiol Behav 70(5):417–424
Roberts DC, Bennett SA, Vickers GJ (1989) The estrous cycle affects cocaine self-administration on a progressive ratio schedule in rats. Psychopharmacology 98(3):408–411
Russo SJ, Festa ED, Fabian SJ, Gazi FM, Kraish M, Jenab S, Quinones-Jenab V (2003) Gonadal hormones differentially modulate cocaine-induced conditioned place preference in male and female rats. Neuroscience 120(2):523–533
Sisk CL, Zehr JL (2005) Pubertal hormones organize the adolescent brain and behavior. Front Neuroendocrinol 26(3–4):163–174
Södersten P (1975) Receptive behavior in developing female rats. Horm Behav 6(4):307–317
Sofuoglu M, Mitchell E, Kosten TR (2004) Effects of progesterone treatment on cocaine responses in male and female cocaine users. Pharmacol Biochem Behav 78(4):699–705
Substance Abuse and Mental Health Services Administration (2007) Overview of findings from the 2006 National Survey on Drug Use and Health. Office of Applied Studies, NHSDA Series H-21, DHHS Publication No SMA 03-3774, Rockville, MD, USA
Terner JM, de Wit H (2006) Menstrual cycle phase and responses to drugs of abuse in humans. Drug Alcohol Depend 84(1):1–13
Weiss IC, Domeney AM, Heidbreder CA, Moreau JL, Feldon J (2001) Early social isolation, but not maternal separation, affects behavioral sensitization to amphetamine in male and female adult rats. Pharmacol Biochem Behav 70(2–3):397–409
Westermeyer J, Boedicker AE (2000) Course, severity, and treatment of substance abuse among women versus men. Am J Drug Alcohol Abuse 26(4):523–535
White TL, Justice AJ, de Wit H (2002) Differential subjective effects of D-amphetamine by gender, hormone concentrations and menstrual cycle phase. Pharmacol Biochem Behav 73(4):729–741
Yajie D, Lin K, Baoming L, Lan M (2005) Enhanced cocaine self-administration in adult rats with adolescent isolation experience. Pharmacol Biochem Behav 82(4):673–677
Acknowledgments
We would like to acknowledge the Research and Development Program at the University of Virginia. We thank Florence Breslin for her excellent technical assistance. This work was supported by NIDA grant R03 DA018978.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Lynch, W.J. Acquisition and maintenance of cocaine self-administration in adolescent rats: effects of sex and gonadal hormones. Psychopharmacology 197, 237–246 (2008). https://doi.org/10.1007/s00213-007-1028-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00213-007-1028-0