A fostering study of the effects of prenatal cocaine exposure: II. Offspring behavioral measures

Cocaine-induced neurodevelopmental deficits and underlying mechanisms

Exposure to drugs early in life has complex and long-lasting implications for brain structure and function. This review summarizes work to date on the immediate and long-term effects of prenatal exposure to cocaine. In utero cocaine exposure produces disruptions in brain monoamines, particularly dopamine, during sensitive periods of brain development, and leads to permanent changes in specific brain circuits, molecules, and behavior. Here, we integrate clinical studies and significance with mechanistic preclinical studies, to define our current knowledge base and identify gaps for future investigation. Birth Defects Research (Part C) 108:147-173, 2016. © 2016 Wiley Periodicals, Inc.

Expanding the test set: Chemicals with potential to disrupt mammalian brain development

High-throughput test methods including molecular, cellular, and alternative species-based assays that examine critical events of normal brain development are being developed for detection of developmental neurotoxicants. As new assays are developed, a "training set" of chemicals is used to evaluate the relevance of individual assays for specific endpoints. Different training sets are necessary for each assay that would comprise a developmental neurotoxicity test battery. In contrast, evaluation of the predictive ability of a comprehensive test battery requires a set of chemicals that have been shown to alter brain development after in vivo exposure ("test set"). Because only a small number of substances have been well documented to alter human neurodevelopment, we have proposed an expanded test set that includes chemicals demonstrated to adversely affect neurodevelopment in animals. To compile a list of potential developmental neurotoxicants, a literature review of compounds that have been examined for effects on the developing nervous system was conducted. The search was limited to mammalian studies published in the peer-reviewed literature and regulatory studies submitted to the U.S. EPA. The definition of developmental neurotoxicity encompassed changes in behavior, brain morphology, and neurochemistry after gestational or lactational exposure. Reports that indicated developmental neurotoxicity was observed only at doses that resulted in significant maternal toxicity or were lethal to the fetus or offspring were not considered. As a basic indication of reproducibility, we only included a chemical if data on its developmental neurotoxicity were available from more than one laboratory (defined as studies originating from laboratories with a different senior investigator). Evidence from human studies was included when available. Approximately 100 developmental neurotoxicity test set chemicals were identified, with 22% having evidence in humans.

Tone conditioning potentiates rather than overshadows context fear in adult animals following adolescent ethanol exposure

We have shown that adults exposed to ethanol during adolescence exhibit a deficit in the retention of context fear, reminiscent of that normally seen in preweanling rats. However, preweanlings have been reported to exhibit a potentiation of context fear when they are conditioned in the presence of a tone. Therefore, this study examined context retention 24 hr after tone or context conditioning in male Sprague-Dawley rats exposed intragastrically to 4 g/kg ethanol or water every 48 hr (total of 11 exposures) during adolescence [Postnatal day (P) 28-48] or adulthood (P70-90). Approximately 3 weeks following exposure, retention of fear to the context in animals exposed to ethanol during adolescence was attenuated after context conditioning, but enhanced after tone conditioning. Comparable adult ethanol exposure groups showed typical overshadowing of context fear retention after tone conditioning. These data suggest that adolescent ethanol exposure may induce an immature pattern of cognitive processing.

Prenatal and gestational cocaine exposure: Effects on the oxytocin system and social behavior with implications for addiction

Drug abuse during pregnancy is a major public health concern, with negative consequences throughout development. Prenatal cocaine exposure (PCE) in rats produces social behavior deficits with corresponding changes in neuroendocrine and monoaminergic signaling. The relevance of parental care in social behavior maturity cannot be ignored, and gestational exposure to cocaine severely disrupts parental care, thus impacting the early environment of the offspring. Oxytocin (Oxt) is critical in regulating social behaviors and central levels are disrupted following acute and chronic cocaine (CC) treatment in postpartum rat dams, coincident with deficits in maternal care. We will discuss studies aimed to determine the relative contribution of PCE and CC-induced deficits in maternal care to social behaviors and Oxt signaling across development. PCE results in decreased social (including parental) behaviors in adolescence and adulthood. PCE is also associated with increased aggression in adults. Rearing by CC-exposed mothers synergistically increases the behavioral effects of PCE. Rearing by CC-exposed mothers, but not PCE, disrupts Oxt levels and mRNA in regions relevant to social behavior, but does not affect receptors in postpartum adult offspring. Preliminary work indicates that PCE/CC rearing has dynamic effects on Oxt levels and receptors in neonatal rat pups, suggesting very early regulation of Oxt signaling. This work highlights how the interactive role of Oxt signaling and behavioral context throughout development can be derailed by drug abuse during pregnancy. The relevance of disrupted Oxt to intergenerational transmission of addiction is briefly discussed.

Effects of cocaine on maternal behavior and neurochemistry

Drug addiction is a chronic relapsing disorder that involves drug seeking and abuse despite the negative social and health consequences. While the potential effects of cocaine on child development have been extensively studied over the last 30 years, few researchers have focused on the effects of cocaine on maternal behavior, which includes offspring care and maternal aggression towards an unfamiliar individual. In humans, maternal cocaine use can lead to child neglect, abuse, and disrupt the mother-child bond. While it has been argued the developmental effects of maternal cocaine use on children were initially overstated, it is clear that disruptions of typical maternal behavior (i.e. postpartum depression, anxiety disorders) are detrimental to the physical and emotional health of offspring. Cocaine use in mothers is commonly associated with psychological disorders, including depression and anxiety, and it is postulated that many of the negative effects of maternal cocaine use on offspring are mediated through changes in maternal behavior. This review will summarize research on cocaine and maternal behavior in animal and human studies, discuss potential mechanisms, and suggest therapeutic strategies for treating cocaine-affected maternal behavior which may improve the physical and behavioral health of both mother and child. The primary objective is to stimulate future communication, cooperation, and collaboration between researchers who use animals and humans to study cocaine and maternal behavior.

Prenatal Cocaine Disrupts Serotonin Signaling-Dependent Behaviors: Implications for Sex Differences, Early Stress and Prenatal SSRI Exposure

Prenatal cocaine (PC) exposure negatively impacts the developing nervous system, including numerous changes in serotonergic signaling. Cocaine, a competitive antagonist of the serotonin transporter, similar to selective serotonin reuptake inhibitors (SSRIs), also blocks dopamine and norepinephrine transporters, leaving the direct mechanism through which cocaine disrupts the developing serotonin system unclear. In order to understand the role of the serotonin transporter in cocaine's effect on the serotonergic system, we compare reports concerning PC and prenatal antidepressant exposure and conclude that PC exposure affects many facets of serotonergic signaling (serotonin levels, receptors, transporters) and that these effects differ significantly from what is observed following prenatal SSRI exposure. Alterations in serotonergic signaling are dependent on timing of exposure, test regimens, and sex. Following PC exposure, behavioral disturbances are observed in attention, emotional behavior and stress response, aggression, social behavior, communication, and like changes in serotonergic signaling, these effects depend on sex, age and developmental exposure. Vulnerability to the effects of PC exposure can be mediated by several factors, including allelic variance in serotonergic signaling genes, being male (although fewer studies have investigated female offspring), and experiencing the adverse early environments that are commonly coincident with maternal drug use. Early environmental stress results in disruptions in serotonergic signaling analogous to those observed with PC exposure and these may interact to produce greater behavioral effects observed in children of drug-abusing mothers. We conclude that based on past evidence, future studies should put a greater emphasis on including females and monitoring environmental factors when studying the impact of PC exposure.

Social behavior of offspring following prenatal cocaine exposure in rodents: a comparison with prenatal alcohol

Clinical and experimental reports suggest that prenatal cocaine exposure (PCE) alters the offsprings' social interactions with caregivers and conspecifics. Children exposed to prenatal cocaine show deficits in caregiver attachment and play behavior. In animal models, a developmental pattern of effects that range from deficits in play and social interaction during adolescence, to aggressive reactions during competition in adulthood is seen. This review will focus primarily on the effects of PCE on social behaviors involving conspecifics in animal models. Social relationships are critical to the developing organism; maternally directed interactions are necessary for initial survival. Juvenile rats deprived of play behavior, one of the earliest forms of non-mother directed social behaviors in rodents, show deficits in learning tasks and sexual competence. Social behavior is inherently complex. Because the emergence of appropriate social skills involves the interplay between various conceptual and biological facets of behavior and social information, it may be a particularly sensitive measure of prenatal insult. The social behavior surveyed include social interactions, play behavior/fighting, scent marking, and aggressive behavior in the offspring, as well as aspects of maternal behavior. The goal is to determine if there is a consensus of results in the literature with respect to PCE and social behaviors, and to discuss discrepant findings in terms of exposure models, the paradigms, and dependent variables, as well as housing conditions, and the sex and age of the offspring at testing. As there is increasing evidence that deficits in social behavior may be sequelae of developmental exposure alcohol, we compare changes in social behaviors reported for prenatal alcohol with those reported for prenatal cocaine. Shortcomings in the both literatures are identified and addressed in an effort to improve the translational value of future experimentation.

Teens with heavy prenatal cocaine exposure respond to experimental social provocation with escape not aggression

Preclinical data show that, compared to no exposure, prenatal cocaine exposure (PCE) has age-dependent effects on social interaction and aggression. The aim of this clinical study was to determine how heavy/persistent PCE--after controlling for other prenatal drug exposures, sex and postnatal factors--predicts behavioral sensitivity to provocation (i.e., reactive aggression) using a well-validated human laboratory model of aggression. African American teens (mean=14.2 years old) with histories of heavy/persistent PCE (maternal cocaine use ≥ 2 times/week during pregnancy, or positive maternal or infant urine/meconium test at delivery; n=86) or none/some exposure (NON: maternal cocaine use < 2 times/week during pregnancy; n=330) completed the Point Subtraction Aggression Paradigm. In this task, teens competed in a computer game against a fictitious opponent. There were three possible responses: (a) earn points, to exchange for money later; or (b) "aggress" against the fictitious opponent by subtracting their points; or (c) escape temporarily from point subtraction perpetrated by the fictitious opponent. The PCE group responded significantly more frequently on the escape option than the NON group, but did not differ in aggressive or money-earning responses. These data indicate that PCE-teens provoked with a social stressor exhibit a behavioral preference for escape (negative reinforcement) than for aggressive (retaliatory) or appetitive (point- or money-reinforced) responses. These findings are consistent with preclinical data showing that social provocation of adolescent or young adult offspring after PCE is associated with greater escape behavior, inferring greater submission, social withdrawal, or anxiety, as opposed to aggressive behavior.

Prenatal exposure to cocaine alters the development of conditioned place-preference to cocaine in adult mice

As addiction is increasingly formulated as a developmental disorder, identifying how early developmental exposures influence later responses to drugs of abuse is important to our understanding of substance abuse neurobiology. We have previously identified behavioral changes in adult mice following gestational exposure to cocaine that differ when assessed with methods employing contingent and non-contingent drug administration. We sought to clarify this distinction using a Pavlovian behavioral measure, conditioned place-preference. Adult mice exposed to cocaine in utero (40 or 20 mg/kg/day), vehicle and pair-fed controls were place-conditioned to either cocaine (5 mg/kg or 20 mg/kg, i.p.) or saline injections. The development of conditioned place-preference to cocaine was impaired in mice exposed to cocaine in utero, and was abolished by fetal malnutrition. A context-specific place-aversion to vehicle but not cocaine injection was observed in prenatally cocaine-exposed mice. Locomotor behavior did not differ among prenatal treatment groups. We conclude that early developmental exposure to cocaine may diminish the subsequent rewarding effects of cocaine in adulthood measured with classical conditioning techniques, and that this is not due to changes in locomotor behavior. Sensitivity to acute stress is also altered by prenatal cocaine exposure, consistent with earlier findings in this model.

Prenatal cocaine exposure alters spontaneous and cocaine-induced motor and social behaviors

The abuse of cocaine in pregnant women could affect emotional behaviors in their descendents. The aim of this work was to evaluate the effects of prenatal cocaine exposure on spontaneous and cocaine-induced motor and social behaviors in mice. Three kinds of prenatal treatment were used: non-treated animals; mice treated daily with physiological saline during the last week of pregnancy; and finally, those treated with cocaine (25 mg/kg) during the same period. Behavioral studies took place on adult males, which were housed in two different conditions: grouped (non-aggressive), or isolated (aggressive). Cocaine-pretreated animals exhibited slight differences in spontaneous motor activity, but alterations in their social relationship with conspecifics were presented, with decreases in isolated but increases in grouped mice. The cocaine challenge increased aggression specifically in grouped prenatally cocaine-treated mice, but increases in motor activity or avoidance and flee behavior were presented in those animals pretreated with either saline or cocaine. Isolated saline-or cocaine-treated animals exhibited greater concentrations of DA and DOPAC than those grouped. A decrease in 5-HIAA concentrations was presented in pretreated animals, irrespective of their housing conditions. In conclusion, cocaine administration during pregnancy induces long lasting effects on the offspring, for both behavioral abnormalities and cocaine response, which last to adult life.

Prenatal intravenous cocaine and the heart rate-orienting response: a dose-response study

Attentional dysfunction is a persistent behavioral abnormality that is emerging as one of the cardinal features in the investigations of the teratogenic effects of cocaine in humans and rodents. The present study sought to extend this work by using a dose-response design with an alternate strain of rat. Virgin Long-Evans female rats, implanted with an IV access port prior to breeding were administered saline, 0.5, 1.0, or 3.0 mg/kg of cocaine HCl from gestational day (GD) GD8-21 (1x per day-GD8-14, 2x per day-GD15-21). Cocaine had no significant effect on maternal or litter parameters. At 14-15 days of age, 1 male and 1 female from each litter were tested to evaluate the heart rate orienting response (HR-OR). Following 20 min for acclimation, pups were presented an olfactory stimulus for 20s per trial, across four trials, and with an intertrial interval of 2 min. The initial baseline HR was not significantly different across the treatment groups, although cocaine did alter the stability of the QRS complex duration. The magnitude of the HR-OR averaged across trials increased as a linear function of dosage of cocaine. A more complex (quadratic) interaction between cocaine dose and sex of the offspring was also noted. When examined across trials, the controls failed to display any significant within-session variation in the HR-OR; in contrast all of the prenatal cocaine treated groups displayed either sensitization (low and high dose) or habituation of the response (middle dose). Analysis of the peak HR-OR confirmed that the controls were indeed displaying the response on at least one trial of the session, albeit not consistently on any specific trial. The more vigorous HR-OR of the prenatal cocaine groups, relative to vehicle controls, most likely reflects an alteration in development of the neural basis of response; as previously shown, the most vigorous response to the olfactory stimulus is seen early (12 days of age) and progressively decreases across the preweaning period. In sum, prenatal exposure to cocaine, at least when administered by the IV route, provides reproducible alterations in attentional processes, as indexed by the noradrenergically-mediated HR-OR. The documentation of a linear dose-response function suggests that there is likely no threshold for the drug-induced alteration. Moreover, the sex of the animal also appears to play some role in the nature of the expression of the altered HR-OR.

Effects of prenatal cocaine exposure and maternal separation on heart rate, orienting response habituation, and retention

Effects of the presence or absence of the dam during testing and the retention interval on pretone heart rate (HR) and habituation and retention of an HR orienting response to tone were examined in prenatally cocaine-exposed and nontreated Sprague Dawley rat pups in two experiments. On postnatal day 16, each pup received two test sessions, separated by a 4-hr retention interval during which pups were either isolated or placed with their dam and siblings. For testing, each pup was placed in the test apparatus in the presence or absence of an anesthetized dam where, after a 15-min adaptation period, 10 tone presentations were given, each separated by a 65-s intertrial interval, with HR measured during a 5-s pretone period and throughout the 10-s tone for each trial. Experiment 1 used offspring from the regular breeding colony and observed the typical HR lowering effect of maternal presence during testing, an effect that was surprisingly potentiated, however, following the retention interval in animals that were isolated during this interval. This apparent potentiation by prior isolation of the HR lowering effect of the dam was confirmed in Experiment 2 in nontreated offspring, but did not emerge convincingly in offspring of either dams subcutaneously injected with 40 mg/kg of cocaine HCl daily from gestational days 8 to 20 (C40) or dams injected with saline and pair-fed 4 days (PF4) to mimic the acute anorexic effects of cocaine administration. Consistent with prior work, C40 offspring also were found to exhibit better retention of the habituated orienting response than offspring of NT dams and to some extent PF4 dams as well, a retention effect that was not significantly influenced, however, by social context during the retention interval.

Effects of prenatal cocaine on behavioral adaptation to chronic stress in adult rats

Prenatal exposure to cocaine in rats has previously been shown to alter the behavioral and hormonal responses to acute stressors, although no work has yet examined stress adaptation in these animals in adulthood, a possibility examined in this experiment. Male and female offspring of Sprague-Dawley rat dams given 40 mg/kg/3 ml subcutaneously daily from gestational days 8-20 (C40), saline injected and pair-fed dams (PF), and non-treated dams (NT) were tested in adulthood (90-120 days). Offspring were given a 5-min open field test 24 h following the last of 1 (Acute), 9 (Chronic) or 0 (control) daily 15-min intermittent footshock sessions. Substantially more behavioral adaptation was evident in NT offspring than in C40 and PF animals. The attenuated stress adaptation seen in C40 offspring extends prior work showing altered stress responsiveness in these animals, although the PF data caution against the conclusion that this lack of stress adaptation necessarily reflects gestational exposure to cocaine per se.

Teacher-assessed behavior of children prenatally exposed to cocaine

OBJECTIVE

Prenatal cocaine exposure has been associated with alterations in neonatal behavior and more recently a dose-response relationship has been identified. However, few data are available to address the long-term behavioral effects of prenatal exposures in humans. The specific aim of this report is to evaluate the school-age behavior of children prenatally exposed to cocaine.

METHODS

All black non-human immunodeficiency virus-positive participants in a larger pregnancy outcomes study who delivered singleton live born infants between September 1, 1989 and August 31, 1991 were eligible for study participation. Staff members of the larger study extensively screened study participants during pregnancy for cocaine, alcohol, cigarettes, and other illicit drugs. Prenatal drug exposure was defined by maternal history elicited by structured interviews with maternal and infant drug testing as clinically indicated. Cocaine exposure was considered positive if either history or laboratory results were positive. Six years later, 665 families were contacted; 94% agreed to participate. The child, primary caretaker (parent), and, when available, the biologic mothers were tested in our research facilities. Permission was elicited to obtain blinded teacher assessments of child behavior with the Achenbach Teacher's Report Form (TRF). Drug use since the child's birth was assessed by trained researchers using a structured interview.

RESULTS

Complete laboratory and teacher data were available for 499 parent-child dyads, with a final sample size for all analyses of 471 (201 cocaine-exposed) after the elimination of mentally retarded subjects. A comparison of relative Externalizing (Aggressive, Delinquent) to Internalizing (Anxious/Depressed, Withdrawn, Somatic Complaints) behaviors of the offspring was computed for the TRF by taking the difference between the 2 subscales to create an Externalizing-Internalizing Difference (T. M. Achenbach, personal communication, 1998). Univariate comparisons revealed that boys were significantly more likely to score in the clinically significant range on total TRF, Externalizing-Internalizing, and Aggressive Behaviors than were girls. Children prenatally exposed to cocaine had higher Externalizing-Internalizing Differences compared with controls but did not have significantly higher scores on any of the other TRF variables. Additionally, boys prenatally exposed to cocaine were twice as likely as controls to have clinically significant scores for externalizing (25% vs 13%) and delinquent behavior (22% vs 11%). Gender, prenatal exposures (cocaine and alcohol), and postnatal risk factors (custody changes, current drug use in the home, child's report of violence exposure) were all related to problem behaviors. Even after controlling for gender, other prenatal substance exposures, and home environment variables, cocaine-exposed children had higher Externalizing-Internalizing Difference scores. Prenatal exposure to alcohol was associated with higher total score, increased attention problems, and more delinquent behaviors. Prenatal exposure to cigarettes was not significantly related to the total TRF score or any of the TRF subscales. Postnatal factors associated with problem behaviors included both changes in custody status and current drug use in the home. Change in custody status of the cocaine-exposed children, but not of the controls, was related to higher total scores on the TRF and more externalizing and aggressive behaviors. Current drug use in the home was associated with higher scores on the externalizing and aggressive subscales.

CONCLUSIONS

Results of this study suggest gender-specific behavioral effects related to prenatal cocaine exposure. Prenatal alcohol exposure also had a significant impact on the TRF. Postnatal exposures, including current drug use in the home and the child's report of violence exposure, had an independent effect on teacher-assessed child behavioral problems. (ABSTRACT TRUNCATE

Schedule-induced polydipsia: gender-specific effects and consequences of prenatal cocaine and postnatal handling

The impact of gestational cocaine in conjunction with postnatal handling on schedule-induced polydipsia (SIP) was examined. Rat offspring were derived from Sprague-Dawley dams injected subcutaneously with 40 mg/kg/3 cc cocaine hydrochloride (C40) on gestational days 8-20, dams injected with vehicle and pair fed 4 (PF4) days to mimic the acute anorexic effects of cocaine administration, and nontreated (NT) control dams. In adulthood, offspring were food deprived and given 13 daily 30-min SIP sessions, with water intake recorded during the scheduled (fixed time 60 s-FT60) food delivery. For 4 days thereafter, animals received saline, 5 or 10 mg/kg of cocaine in counterbalanced order prior to SIP testing. Acquisition and maintenance of SIP, but not cocaine-induced suppression of SIP performance, were observed to be dependent upon prenatal treatment, handling, and gender. Females acquired SIP faster and exhibited notably higher levels of polydipsia than males. Early handling increased levels of established SIP in NT offspring, while enhancing SIP acquisition in both PF4 and C40 offspring. In nonhandled animals, NT offspring exhibited less SIP than PF4 and C40 offspring, differences that were attenuated by early handling. These effects are discussed in relation to previously reported neurohormonal characteristics of these gender and treatment variables.

Prenatal intravenous cocaine adversely affects attentional processing in preweanling rats

Perhaps the sole, clinically reported, deficit in infants of women that abused cocaine (COC) during pregnancy that persists through early childhood is that of an attentional disorder. Using the heart rate orienting response (HR-OR), a putative valid and reliable measure of attention, we examined the offspring of rats exposed to COC in utero via the clinically relevant intravenous (IV) route. Sprague-Dawley females, implanted with IV access ports prior to breeding, were administered saline or 3 mg/kg COC HC1, 1X/day on gestational day (GD) 8-14 and 2X/day on GD15-21. No significant effects of prenatal COC were apparent for maternal or litter parameters. Six pups/litter were tested: one of each sex on postnatal day (PD) 12, PD16, and PD21. Following 20 min of adaptation, pups were exposed to a novel odor (20 s amyl acetate) for a set of four acquisition trials; after a 4-h retention interval, the same procedure was again employed. At PD12, both prenatal COC and control pups demonstrated a significant HR-OR on the acquisition trials and both groups showed significant within-session habituation. Across the 4-h retention interval, prenatal COC-exposed pups showed habituation whereas control pups did not. At PD16, the magnitude of the HR-OR was significantly greater in prenatal COC-exposed pups relative to control pups. Within-session habituation also characterized the HR-OR of the COC, but not control, pups. For the retention data, within-subject and regression analyses suggested the COC-exposed pups displayed greater between and within-session habituation, respectively. At PD21, the prenatal COC-treated pups displayed an HR-OR that did not habituate across acquisition trials; the control pups displayed a significant HR-OR only during the initial 5 s of the first two trials. During the retention trials, regression analyses again suggested the COC-exposed pups displayed greater evidence of within-session habituation. Collectively, these data demonstrate that prenatal exposure to COC alters attention throughout the preweanling period of development. Given the putative role of norepinephrine, but not dopamine or serotonin, in central mediation of the HR-OR of preweanling rats, the effects of prenatal IV COC exposure in this task are consistent with a noradrenergically based attentional disorder.

Transplacental cocaine exposure. 1: A rodent model

To characterize the transplacental effects of cocaine on the developing brain, we have developed a mouse model of gestational cocaine exposure. Pharmacokinetic analysis revealed that cocaine and its metabolites (BE, BNE, and NC) were found in fetal brain and plasma at 30 and 120 min following SC administration to embryonic day (E) 17 pregnant Swiss Webster mice. Pregnant dams injected twice daily with cocaine HCl at 20 mg/kg SC from gestational day E8 to E17 (COC) demonstrated less food intake and lower percentage weight gain than vehicle-injected dams allowed access to food ad lib (SAL). A nutritionally paired control group of dams injected with saline vehicle and pair-fed with the COC dams (SPF) demonstrated the lowest percentage weight gain of all three groups. The surrogate fostered offspring of COC and SPF dams demonstrated persistent growth retardation [on postnatal days (P) 1, P9, and P50] and transient brain growth retardation (on P1 and P9) when compared to pups born to SAL dams. We conducted behavioral tests that allowed us to dissociate the indirect effect of cocaine-induced malnutrition from a direct effect of prenatal cocaine administration in altering postnatal behavior. Pups from all three groups were tested for first-order Pavlovian conditioning on P9 or P12, or for the ability to ignore redundant information in a blocking paradigm on P50 or P100. Unlike the SPF and SAL controls, COC mice (i.e., mice born to COC dams) were unable to acquire an aversion to an odor previously paired with shock on P9. This learning deficit was transient because on P12, COC mice trained on the same conditioning task displayed an aversion to the odor that was indistinguishable from the SPF and SAL controls. P50 and P100 COC mice (and to a lesser extent, SPF mice) demonstrated a persistent behavioral deficit in the blocking paradigm, which may reflect alterations in selective attention. We discuss how these findings in our rodent model have developmental implications for human infants exposed to cocaine in utero.

Transplacental cocaine exposure. 2: Effects of cocaine dose and gestational timing

We have utilized a mouse model of transplacental cocaine exposure to investigate the effects of cocaine dose and gestational timing in altering brain and body growth and postnatal behavior in exposed offspring. Pregnant dams were injected with cocaine HCl at 40 mg/kg/day (COC 40) or 20 mg/kg/day (COC 20), or 10 mg/kg/day (COC 10) SC from embryonic day (E) 8 to E17, or cocaine HCl at 40 mg/kg/day SC from E8 to E13 (COC Early) or from E13 to E17 (COC Late) divided in two daily doses. COC 40 and COC Late dams, as well as dams in nutritionally paired control groups (injected with saline vehicle and pair-fed with the COC dams: SPF 40, SPF 20, SPF 10), demonstrated less weight gain than SAL controls (injected with saline vehicle and allowed access to food ad lib). The surrogate fostered offspring of COC 40 and SPF 40 dams demonstrated brain and body growth retardation [on postnatal day (P) 1 and P9] when compared to pups born to SAL dams. Offspring of COC Late, SPF 20, and SPF 10 dams demonstrated brain and body growth retardation on P1 when compared to pups born to SAL dams. Pups from all groups were tested for first-order Pavlovian conditioning on P9, or for the ability to ignore redundant information in a blocking paradigm on P50. Only COC 40 mice (i.e., offspring born to COC 40 dams) were unable to acquire an aversion to an odor previously paired with shock on P9. When compared with SAL controls, COC 40 mice (and to a less significant extent SPF 40 mice) demonstrated a persistent behavioral deficit in the blocking paradigm on P50, which may reflect alterations in selective attention. Correlation analyses indicated that the dose and gestational timing of transplacental cocaine exposure, and varying degrees of malnutrition, had effects on blocking performance, with greater prenatal cocaine exposure and increased prenatal malnutrition resulting in more significant behavioral impairments. A path regression analysis demonstrated independent and significant effects of prenatal cocaine as well as prenatal malnutrition in contributing to impaired performance in the blocking paradigm. As suggested by the clinical literature, our preclinical data support a model whereby the dose and duration of prenatal cocaine exposure have direct effects on offspring brain and body growth and on behavioral performance.

Development of spatial navigation following prenatal cocaine and malnutrition in rats: lack of additive effects

The effects of prenatal cocaine exposure and protein malnutrition on the development of spatial navigation were assessed in rats. Sprague-Dawley dams were fed a low-protein (6% casein), adequate protein (25% casein), or a laboratory chow diet prior to mating and throughout pregnancy. Within each diet group, rats received either cocaine injections (30 mg/kg i.p. two times per week prior to mating and then 30 mg/kg s.c. daily from day 3 to 18 of pregnancy) or saline injections. All litters were fostered on the day of birth to saline-injected mothers fed either the 25% casein diet or the chow diet. Gestation length was decreased by prenatal cocaine exposure whereas litter size was reduced by prenatal malnutrition. On postnatal days 21, 25, 30, or 70, rats were tested for their ability to locate a submerged platform in a Morris water maze. In well-nourished rats, prenatal cocaine increased the mean distance swum during acquisition over days 21-30, a difference that was abolished in rats with prenatal malnutrition. In the absence of drug exposure (saline groups), prenatal malnutrition was itself associated with longer swim paths. Neither prenatal insult affected the accuracy of the spatial navigation at these ages, as determined by their search pattern when the platform was removed. On postnatal day 25, rats raised on the chow diet exhibited superior performance to that of rats raised on the 25% casein diet, but by day 30 these two well-nourished groups were comparable. At day 70, prenatal cocaine impaired spatial performance on the first session, in well-nourished rats only. Thus, these results provide no support for the hypothesis that prenatal cocaine and protein malnutrition combine to produce a greater effect on behavioral development than either insult alone.

Effect of unilateral tympanotomy on auditory induced c-fos expression in cochlear nuclei

The immediate early gene, c-fos, signals expression of target genes. Three natural occurring physiological entities: (1) learning, (2) plasticity, and (3) stress are proposed to use c-fos gene expression to signal molecular changes in neurons. The objective of this study was to determine whether c-fos expression is predominately activated by stress or by novel events associated with learning and plasticity. The approach was to quantitate the number of neurons in cochlear nuclei which express Fos protein following short-term novel sound stimuli together with either uni- or bilateral tympanotomy so as to differentiate novel sound stimuli from stress activation. The results show that routinely experienced sounds do not elicit c-fos expression in medullary cochlear nuclei, but novel sounds produced a 25-fold increase in the number of active cells. Following unilateral tympanotomy with novel sound stimulation, only a small number of cells were activated, ipsilaterally, (partially deafened side) while contralaterally, there was a 30-fold increase. After normalization of the data for control values, the data clearly indicate that novelty of sound stimuli induce c-fos gene expression. Furthermore, bilateral tympanotomy (bilateral partial deafening) with sound stimulation activated both sides by 20-fold, indicating that the c-fos response followed the sound stimulation. The data allow us to conclude that stress generates only a small contribution to c-fos gene expression while novel stimuli are potent signals, strongly implicating c-fos in novelty induced adaptation processes involved in learning and plasticity.

On mouse pups and their lactating dams: behavioral consequences of early exposure to oxazepam and interacting factors

Behavioral analysis in animal models appears to be a valuable and sensitive tool for detecting subtle alterations in CNS function, which can be produced by early exposure to small perturbations of sensory experience, hormonal milieu, or exposure to psychotropic agents devoid of major teratogenic potential. Concerning anxiolytics, the more recent work in mice, which is here summarized, was carried out by putting the emphasis on changes in naturally occurring species-typical social responses as a function of early exposure to benzodiazepines. For adult females, on the behavior expressed during the early postpartum period, whereas for infant subjects, on the ontogenetic stage of the establishment of social bonding. Critical issues such as the choice of fostering procedure and rearing conditions are also addressed. Evidences of relationships between changes in social milieu taking place during early rearing-i.e., when dramatic transitions in the neurochemical target system occur- and the adult behavioral response to challenges with BDZ agents are presented. These data strengthen the notion that the modes of reaction of adult animals to the joint influence of physiological and environmental (stimulus) variables are under the influence of events in early ontogenesis. Therefore, a better understanding of the mechanisms-as unveiled by an appropriate use of drug tools-that mediate such a plasticity might have considerable psychobiological and clinical-therapeutical relevance.

Differential effects of prenatal cocaine and retinoic acid on activity level throughout day and night

Prenatal cocaine exposure is associated with disrupted state control and lowered activity levels. Prenatal retinoic acid excess also influences activity levels in laboratory rats. Activity level is usually monitored during a brief period in young offspring. The effects of these drugs on pup activity levels throughout the day is unknown. There is also little information on the long-lasting effects of these teratogens in adult animals. We compared the daily activity of rats which were prenatally exposed to cocaine or retinoic acid (RA). Appropriate control groups were also used. The offspring were evaluated for activity levels in a neophobic situation and for a 22-h period in same-sex groups of 3 littermates. As both pups and adults, the cocaine groups were hypoactive while the RA group was hyperactive when first placed into the testing cage (neophobic situation). Similarly, during the remainder of the 22-h testing period, the pup and adult cocaine animals exhibited reduced activity levels while the RA animals exhibited elevated activity levels. Thus, prenatal cocaine and retinoic acid exposures affected offspring activity levels differently, both drugs have long-lasting neurobehavioral effects that persist into adulthood, and effects are influenced by time-of-day. Strain-dependent differences and mechanisms of action are discussed.

Prenatal cocaine produces dose-dependent suppression of prolactin and growth hormone in neonatal rats

Pregnant Long-Evans hooded rats were dosed with 5, 10, 20, or 40 mg/kg/d cocaine from GD7 through GD20; pairfed/vehicle-injected, and uninjected controls were included. At birth, representative pups from each litter were killed by decapitation and serum assayed for prolactin and growth hormone via radioimmunoassay. Prolactin levels were significantly reduced on P1 in offspring which had been dosed prenatally with 20 or 40 mg/kg/d, while growth hormone levels were significantly lower than control levels in the 5 and 10 mg/kg/d animals. Pairfed/vehicle controls did not differ from uninjected controls on levels of either hormone. These endocrine changes associated with cocaine dosing may affect subsequent development of the organism.

Prenatal cocaine exposure affects social behavior in Sprague-Dawley rats

Children prenatally exposed to cocaine are reported to exhibit inappropriate social behavior, including aggression. We have recently observed a similar phenomenon in rats prenatally exposed to cocaine. Pregnant females were injected twice daily with 15 mg/kg cocaine hydrochloride or saline on gestation days 1-20. Offspring were tested for social behavior towards two unfamiliar, untreated rats of the same age and sex. Cocaine-treated males (90 PND) took longer to reciprocate contact and cocaine-treated females (60 PND) spent more time rough grooming unfamiliar females. Male cocaine offspring (180 PND) tested for aggression exhibited an increased frequency and duration and decreased latency to chase an intruder. ACTH was lower in cocaine-treated males (150-180 PND) following plus-maze exposure or exposure to an unfamiliar male. Our data indicate that prenatal cocaine treatment in rats increases fear or aggression responses, dependent on sex and stimulus situation.

Prenatal cocaine alters open-field behavior in young swine

Yucatan minisows received 2 mg/kg cocaine i.v. 4 times daily during the last third of gestation. Their piglets were fostered at birth to paired, unexposed sows with their litters, and studied at age 2 to 9 (young group) and 22 to 29 days (older group). Three to 5 exposed and unexposed piglets of each age group were videotaped together for 30 min on 5 consecutive days in an open-field environment. For each piglet, 41 behaviors were scored, timed, summed and clustered into 9 behavioral categories. With age, and independently of drug exposure, piglets spent more time in ingestion, immobility while alone and play/aggression, and less time in group locomotion. For the first 4 test days, the young exposed piglets spent more time in group immobility and less time in individual locomotion and rooting than their age-matched controls. In contrast, the older exposed and unexposed piglet groups did not differ in any of these behavioral clusters. These results suggest that prenatal cocaine exposure in neonatal swine may transiently affect responses to spatial novelty.

Long-lasting microencephaly following exposure to cocaine during the brain growth spurt in the rat

In utero exposure to cocaine has been shown to produce somatic and behavioral effects. As microencephaly is often present in children born from cocaine-addicted mothers, aim of the present study was to develop an animal model for cocaine-induced microencephaly. Rats were treated with cocaine (20, 30 or 50 mg/kg/day, s.c., each dose divided in two equal doses given 3 h apart) from postnatal day 4 through 10. None of the doses had any effect on growth, however, at 50 mg/kg, cocaine caused a significant decrease in brain weight, measured on day 12. The effect of cocaine was similar in male and female rats, and microencephaly was still present in 45-day-old animals. When the same dose of cocaine was given as a single daily injection, long-lasting microencephaly was also present, but it was accompanied by a decrease in body weight and significant toxicity. Ethanol (4 g/kg), used as a positive control, also caused microencephaly without affecting body weight, but, differently from cocaine, its effect was more pronounced in female animals. Blood and brain levels of cocaine and its metabolites norcocaine and benzoylecgonine were measured by HPLC during treatment (postnatal day 8). After administration of the 50 mg/kg dose, concentrations of cocaine were 1.92 micrograms/g in brain and 0.94 microgram/ml in blood. These levels are encountered in cases of cocaine overdoses and have been found in meconium of newborns from crack-addicted mothers.(ABSTRACT TRUNCATED AT 250 WORDS)

Behavioral effects of neonatal cocaine exposure using a rodent model

This study examined the effects of neonatal cocaine exposure on behavior using a rodent model. Rat pups were implanted with intragastric cannulas on postnatal day (PND) 4 and artificially reared (AR) from PND 4-10. The AR groups included two cocaine doses (20 mg/kg per day and 60 mg/kg per day) and an AR control. A sham surgery control group was also included that was reared naturally by its dam. Offspring from these neonatal treatment groups were examined for suckling performance (PND 13), passive avoidance learning (PND 23-24), activity (PND 18-21), or spontaneous alternation (PND 21). Neonatal cocaine exposure had no effect on suckling measures or passive avoidance learning. Activity was increased in the 60 mg/kg per day cocaine group relative to controls. In addition, spontaneous alternation was delayed in the 20 mg/kg per day cocaine-exposed females relative to all other groups. These data suggest that neonatal cocaine exposure may alter performance on some relatively simple tasks. More work is clearly warranted to look at the effects of neonatal cocaine exposure on more complex behaviors.

The effect of environmental odors emanating from commercial swine operations on the mood of nearby residents

The effect of environmental odors emanating from large-scale hog operations on the mood of nearby residents was determined using the POMS (Profile of Mood States). The scores for six POMS factors and the TMD (total mood disturbance score) for 44 experimental subjects were compared to those of 44 control subjects who were matched according to gender, race, age, and years of education. The results indicated a significant difference between control and experimental subjects for all six POMS factors and the TMD. Persons living near the intensive swine operations who experienced the odors reported significantly more tension, more depression, more anger, less vigor, more fatigue, and more confusion than control subjects as measured by the POMS. Persons exposed to the odors also had more total mood disturbance than controls as determined by their ratings on the POMS. Both innate physiological responses and learned responses may play a role in the impairment of mood found here.

Physiological and behavioral effects of early embryonic exposure to ethanol and cocaine in the young chick

The physiological and behavioral effects of embryonic exposure to ethanol and cocaine, given during active neurogenesis (embryonic days E3 and E4), were studied in 1- and 2-day-old chicks. Broiler chicks (n = 131) from five embryonic treatment conditions were tested: incubative controls (n = 28), vehicle (saline plus 50 micrograms/ml bacitracin; n = 27), 10 mg ethanol (n = 20), 150 micrograms cocaine (n = 25), or co-drug (10 mg ethanol and 150 micrograms cocaine; n = 31). Compared with controls, embryo mortality for the cocaine alone embryos was significantly increased. No significant embryonic treatment effects among chicks were found for hatching times, body weights at hatch and testing, and temperature regulation when cold stressed. Behaviorally, chicks were first trained to key-peck for heat/light reward (autoshaping). Chicks in all groups increased responding from autoshape session 1 to session 2 (24 trials/session). In an acquisition-extinction session (12 trials/phase), chicks in all groups except those in the co-drug group decreased responding from acquisition to extinction. In a second acquisition-extinction session following a drug challenge of 0.5 mg/kg apomorphine, chicks in all embryonic treatment groups showed enhanced responding. Hence, in those chicks that survived, the selected doses of ethanol and cocaine produced minimal physiological and behavioral effects individually, but when given together did produce a significant deficit in extinction responding.

Context and tone conditioning are selectively impaired by ethanol in the preweanling rat: effects of dose and time of administration

Depending on dose and task requirements, ethanol can have either a facilitative or an impairing influence on learning. Some explanations for this dichotomy have considered ethanol's suppression of behavioral variability and processing of incidental stimuli (e.g., context). The present study examined the effect of ethanol on context and conditioned stimulus (CS) learning in the preweanling rat. To assess state-dependent effects, a drug dissociation design was used. Learning to both context and CS were analyzed within each dose of ethanol (0, 1.2, 1.6, or 2.0 g/kg) and a trend analysis was conducted to determine dose-response relationships as a function of train-test state. The 1.2 g/kg dose of ethanol did not affect conditioning to either the context or the CS. A 1.6 g/kg dose tended to disrupt context, but not CS, conditioning. The influence of 2.0 g/kg ethanol depended on train-test conditions. Ethanol administration prior to training resulted in the stronger impairment of CS learning while context conditioning was most disrupted if ethanol was given only prior to testing. The results suggest that ethanol selectively attenuates processing of stimuli, possibly dependent on relative saliency at the time of testing.

Caveats in the study of perinatal behavioral development: utility of fetal study

Study of behavior during development presents psychobiologists and neurobiologists with a unique set of problems that should be addressed in the design and analysis of experiments. Some of these caveats have become apparent only with the recent growth in research with subjects around the time of birth. For example, physiological regulation within the maternal-infant dyad, litter effects, the influence of context at the time of testing on performance, and dissociation of age-related change and experience, all are important experimental considerations in developmental study. Manipulation and measurement of behavioral variables in the fetus in vivo can provide one means for circumventing many of the methodological pitfalls that are associated with behavioral study of newborn subjects.

Transplacental cocaine exposure: a mouse model demonstrating neuroanatomic and behavioral abnormalities

Between 10% and 15% of infants born in urban America today have been exposed to cocaine in utero. Clinical studies have suggested that impairment of brain growth is the single best marker of significant prenatal cocaine exposure, and postnatal developmental compromise seen in a subset of affected children as a consequence of that exposure. We have developed an animal model, in mice, of prenatal cocaine exposure that has allowed us to dissociate the direct effects of cocaine in altering fetal development from the indirect effects associated with cocaine-induced malnutrition. We find that transplacental cocaine exposure independently impairs fetal brain and body growth and results in behavioral deficits and permanent alterations in neocortical cytoarchitecture in exposed offspring.

Effects of prenatal exposure to cocaine on heart rate and nonassociative learning and retention in infant rats

Nonassociative learning and retention were assessed in terms of habituation of a heart-rate (HR) orienting response (bradycardia) to a tone in 16-day-old male and female rats prenatally exposed to cocaine and in control offspring. Offspring were derived from Sprague-Dawley dams given daily subcutaneous injections of 40 mg/kg/3 cc cocaine HCI (C40) from gestational days 8-20, pair-fed control dams given saline injections (PF), and nontreated control dams (LC). Each pup was adapted to the test apparatus for 15 min prior to being given 10 presentations of a pulsing tone, each separated by a 65-sec intertrial interval, with HR measured during a 5-sec pretone period and throughout the 10-sec tone for each trial. To assess retention, subjects were given 10 additional tone trials either 1, 2, 4, or 6 hr later. C40 male offspring displayed significantly lower basal HR following the initial 15-min isolation period than either LC or PF offspring, whereas prenatal treatment had no effect on basal HR among females. Although no differences were seen in rate of habituation, prenatal cocaine exposure was observed to affect retention of the habituated orienting response. Whereas LC and PF offspring retained habituation of the orienting response for less than 4 hr, C40 offspring exhibited no forgetting after a 4-hr interval, and showed significant loss of the habituation response only after a 6-hr interval.

The behavioral response to stress is altered in adult rats exposed prenatally to cocaine

The behaviors displayed during and following acute stress exposure were investigated in rats prenatally exposed to cocaine. Offspring from Sprague-Dawley rat dams given SC injections of 40 mg/kg/3 cc cocaine HCl (C40) daily from gestational days 8-20, pair-fed dams injected daily with saline (PF), and untreated control dams (LC) were examined. Adult male rats 60 days old (P60) from the three prenatal groups were given either a 5-min forced swim test (FS), 10 min of intermittent foot shock exposure, or were not exposed to either acute stressor. Amount of immobility or inactivity during acute stress exposure was recorded. One day later, all animals were given a 5-min open field test. During both of the acute stressors, C40 offspring exhibited significantly less immobility than PF and LC control offspring. Whereas prior foot shock experience enhanced the amount of immobility shown by LC and PF offspring in the open field, similar immobility scores were observed between shocked and nonstressed C40 rats. In contrast, prior foot shock experience reduced locomotion in all prenatal treatment groups. These findings suggest that prenatal cocaine exposure results in altered behavioral reactivity in terms of the immediate and delayed response to stressful experiences.

Prenatal exposure to cocaine: effects on aggression in Sprague-Dawley rats

Social/aggressive behavior in adult rat offspring (beginning at postnatal Day 180) prenatally exposed to saline, cocaine, or amfonelic acid (AFA) was examined. Pregnant rats received injections of 15 mg/kg of cocaine, or 0.9% saline twice daily, s.c., or on 2 consecutive days at 4-day intervals, or 1.5 mg/kg amfonelic acid daily throughout gestational Days 1-20. Frequency, duration, and latency of 11 social/aggressive behaviors were recorded for two 15-min sessions during which a smaller male intruder replaced an ovariectomized female in the resident's home cage. Subjects received a s.c. saline injection before Session 1 and 2.0 mg/kg of gepirone, a 5HT1a partial agonist, prior to Session 2. Prenatal cocaine treatment resulted in alterations of aggressive behavior. Aggressive behavior was reduced by gepirone in all groups but to a lesser extent in the AFA group.

Prenatal cocaine exposure: effects on play behavior in the juvenile rat

Prenatal exposure to cocaine has become a growing problem in the United States. This study examined the effects of such exposure on social behavior in young rats. The subjects were offspring of Sprague-Dawley dams exposed to 40 mg/kg cocaine HCl (SC) daily on gestational days 8-20, pair-fed dams injected daily with 0.9% saline, and saline-injected controls. The pups were tested at 28, 30, 32, 34, and 36 days of age for instances of pinning, a reliable measure of play behavior. Although showing no differences on such developmental indices as body weight or age of eye opening, offspring prenatally exposed to cocaine showed significantly less pinning than saline controls and were more likely to be pinned. Although males pinned more than females across the treatment groups, cocaine-exposed rats of both sexes showed play deficits. Gestational cocaine exposure thus appears to result in suppressed levels of play in juvenile rats.

Effect of prenatal cocaine on the acquisition of cocaine-induced taste aversions

Pregnant Long-Evans rats were injected SC twice daily with 20 mg/kg cocaine from gestational days (GD) 7-19. Vehicle controls were administered distilled water on these days. Pair-fed controls were similarly treated but allowed the same amount of food as consumed by the cocaine-exposed mothers. On postnatal day 1 (PND 1), pups of the mothers exposed to cocaine were surrogate-fostered. On PND 41, all subjects were grouped according to their history (cocaine, vehicle, and pair-fed) and were tested for their behavioral sensitivity to the aversive effects of cocaine by assessing their ability to acquire a cocaine-induced taste aversion. Rats from all three conditions were given saccharin to drink and then injected SC with either 0, 18, 32, or 50 mg/kg cocaine. Prenatal exposure to cocaine had no effect on the acquisition of aversions. Specifically, the prenatally exposed animals acquired the taste aversion in a dose-dependent manner similar to that of the controls. These data indicate that changes in sensitivity to cocaine are not necessary consequences of prenatal cocaine exposure.

Prenatal cocaine exposure increases the behavioral sensitivity of neonatal rat pups to ligands active at opiate receptors

Offspring of dams given 40 mg/kg cocaine HCl (C40) from gestational day 8-20 (E8-E20), pair-fed dams injected daily with saline (PF), nutritional control dams placed on a 40% cellulose based diet and injected with saline daily (NC), and untreated dams (LC) were examined. Offspring were given morphine (0.0, 0.1, or 0.5 mg/kg SC) on postnatal day 10-11 (P10-11) in Experiment 1, and isolation-induced ultrasonic vocalizations were measured. Planned comparisons indicated that both C40 and NC offspring exhibited a greater sensitivity to the morphine-related decrease in isolation-induced ultrasounds than LC controls. However, the presence of an anesthetized littermate suppressed isolation-induced ultrasounds equally across all groups, with all groups of offspring spending equal amounts of time in physical contact with the littermate. A tail-flick measure of analgesia indicated that PF animals were hyperalgesic relative to the other prenatal treatment groups; however, no differences in sensitivity to morphine were seen across the prenatal groups. In Experiment 2, animals were given the selective delta, [D-Pen2,D-Pen5]-enkephalin (DPDPE), and mu, [D-Ala2-NMe-Phe4Gly ol]-enkephalin (DAMGO) agonists ICV and ultrasonic vocalizations were recorded. Results indicated that both C40 and NC offspring were more sensitive to the low dose of DAMGO; however, because of the profound suppression of vocalizations seen at both doses of DPDPE, potential differences among the prenatal treatment groups in responsiveness to the delta agonist were difficult to detect.(ABSTRACT TRUNCATED AT 250 WORDS)

A fostering study of the effects of prenatal cocaine exposure: I. Maternal behaviors

The effect of rearing condition and prenatal exposure to cocaine on maternal behaviors was examined. Sprague-Dawley dams were given SC injections of 40 mg/kg/3cc cocaine HCl (C40) or saline (LC) daily from gestational days 8-20. Maternal behavior was assessed in treated dams rearing their biological pups (LC/LC; C40/C40), treated dams rearing untreated pups (LC/FOS; C40/FOS), and foster dams rearing treated pups (FOS/LC; FOS/C40). All dams were monitored for home cage behavior (time eating, drinking, and with pups) for 2 h during both the light and dark cycle on postnatal day 4 (P4), pup retrieval on P5-P9, and maternal aggression to a female intruder (latency to the first attack, number of attacks, boxing, pins, intruder time spent submissive and motionless) on P10. No differences were observed in nest behavior or in tests of pup retrieval among the six groups. Dams rearing their biological litter (LC/LC and C40/C40) were significantly quicker to initiate the first attack when compared to all other groups. This increased aggression was maintained throughout the test session in the C40/C40 dams who made significantly more intruder attacks than all other groups, with the intruder spending significantly more time in a submissive posture (lying on back). In contrast, LC/LC dams did not exhibit an increased number of attacks during the test, apparently responding to an increased freezing in their intruders with a reduction in aggressive behavior. Taken together these findings suggest that prior cocaine exposure results in alterations in maternal aggression that is evident when these dams rear their own pups.