Prenatal morphine exposure differentially alters seizure susceptibility in developing female rats.

We examined the effect of prenatal morphine exposure (5-10 mg/kg on days 11-18 of gestation) on seizure susceptibility in female rats during development. The effect of morphine exposure on flurothyl-induced seizures was age-dependent. At postnatal day (PN) 15, morphine exposure decreased both clonic and tonic-clonic seizure thresholds compare to saline controls. At PN 25, morphine exposure did not alter the clonic seizure threshold but increased the threshold to tonic-clonic seizure. At PN 38, morphine exposure did not influence either threshold. The data suggest that the effects of prenatal exposure to opioids on seizures are age-related and transient.     

Prenatal exposure to morphine differentially alters gonadal hormone regulation of delta-opioid receptor binding in male and female rats

The present study tested the hypothesis that exposure to morphine on gestation days 11-18 differentially alters delta-opioid receptors in the brain of adult male and female rats. In Experiment 1, the binding characteristics of delta-opioid receptors were examined in membrane homogenates from six brain regions, including the hypothalamus (HYP), preoptic area, frontal cortex (CX), ventral tegmental area, striatum (STR) and cerebellum of adult male and female rats. In Experiment 2, the density of delta-opioid receptors was assessed in the CX and STR using receptor autoradiography. Prenatal morphine exposure has no effects on delta-opioid receptors in the brain of gonadally intact, adult male rats regardless of methodology. However, when male rats were gonadectomized in Experiment 2, morphine-exposed males have fewer delta-opioid receptors than controls in the CX but not in the STR. These reductions in cortical delta-opioid receptors are restored by testosterone replacement, demonstrating that prenatal morphine exposure alters testosterone regulation in the CX of male rats. In ovariectomized (OVX) female rats, prenatal morphine exposure increases the density of delta-opioid receptors in the frontal CX. Interestingly, this up-regulation of delta-opioid receptors is not present when the CX is investigated by autoradiography. Moreover, progesterone given alone or in combination with estrogen reduces the density of delta-opioid receptors in the CX and STR of both saline- and morphine-exposed, OVX females. Thus, mid to late gestational morphine exposure differentially alters the influence of adult gonadal hormones on delta-opioid receptors in the CX, decreasing the sensitivity in females and increasing it in males. This is also the first report to demonstrate that gonadal hormones regulate delta receptor densities in brain regions other than the HYP of OVX females.     

Prenatal exposure to morphine differentially alters gonadal hormone regulation of δ-opioid receptor binding in male and female rats

The present study tested the hypothesis that exposure to morphine on gestation days 11–18 differentially alters δ-opioid receptors in the brain of adult male and female rats. In Experiment 1, the binding characteristics of δ-opioid receptors were examined in membrane homogenates from six brain regions, including the hypothalamus (HYP), preoptic area, frontal cortex (CX), ventral tegmental area, striatum (STR) and cerebellum of adult male and female rats. In Experiment 2, the density of δ-opioid receptors was assessed in the CX and STR using receptor autoradiography. Prenatal morphine exposure has no effects on δ-opioid receptors in the brain of gonadally intact, adult male rats regardless of methodology. However, when male rats were gonadectomized in Experiment 2, morphine-exposed males have fewer δ-opioid receptors than controls in the CX but not in the STR. These reductions in cortical δ-opioid receptors are restored by testosterone replacement, demonstrating that prenatal morphine exposure alters testosterone regulation in the CX of male rats. In ovariectomized (OVX) female rats, prenatal morphine exposure increases the density of δ-opioid receptors in the frontal CX. Interestingly, this up-regulation of δ-opioid receptors is not present when the CX is investigated by autoradiography. Moreover, progesterone given alone or in combination with estrogen reduces the density of δ-opioid receptors in the CX and STR of both saline- and morphine-exposed, OVX females. Thus, mid to late gestational morphine exposure differentially alters the influence of adult gonadal hormones on δ-opioid receptors in the CX, decreasing the sensitivity in females and increasing it in males. This is also the first report to demonstrate that gonadal hormones regulate δ receptor densities in brain regions other than the HYP of OVX females.     

Prenatal exposure to morphine alters brain μ opioid receptor characteristics in rats

Prenatal morphine exposure alters neither the binding capacity nor the affinity of ligand binding to μ opioid receptors of adult male brains. However, males have significantly higherB_max in the hypothalamus than ovariectomized females. In females, prenatal exposure to morphine reduces theB_max of μ opioid receptors 25% in the hypothalamus and preoptic area. Estrogen treatment increases theB_max of μ opioid receptors in the striatum of all ovariectomized females but in the hypothalamus only of morphine-exposed females, thereby eliminating the sex difference observed in control animals.     

Prenatal morphine exposure alters estrogen regulation of kappa receptors in the cortex and POA of adult female rats but has no effects on these receptors in adult male rats

The binding characteristics of kappa receptors were assessed in the frontal cortex (CX), striatum, hypothalamus, preoptic area (POA), cerebellum, and ventral tegmental area of adult male and female rats exposed prenatally to morphine or saline. Prenatal morphine exposure altered estrogen regulation of kappa receptors in the CX and POA of females, but had no effects on kappa receptors in any of the examined brain regions in male rats.     

Prenatal morphine exposure alters estrogen regulation of κ receptors in the cortex and POA of adult female rats but has no effects on these receptors in adult male rats

The binding characteristics of κ receptors were assessed in the frontal cortex (CX), striatum, hypothalamus, preoptic area (POA), cerebellum, and ventral tegmental area of adult male and female rats exposed prenatally to morphine or saline. Prenatal morphine exposure altered estrogen regulation of κ receptors in the CX and POA of females, but had no effects on κ receptors in any of the examined brain regions in male rats.     

Prenatal cocaine alters later responses to morphine in adult male mice

Mice prenatally exposed to cocaine (25 mg/kg), physiological saline or non-treated during the last 6 days of pregnancy were evaluated as adults for the rewarding properties of 2 mg/kg of morphine, using the conditioned place preference (CPP) procedure. Likewise, isolated animals underwent a social interaction test with conspecifics after receiving the same morphine dose. Unlike control or animals pre-treated with saline, subjects prenatally treated with cocaine did not develop CPP with this dose of morphine. Only cocaine-exposed animals showed increased threat, avoidance and fleeing during the social encounter. No differences in motor effects of morphine were observed. Analysis of monoamines revealed effects of housing conditions, isolated animals having fewer DOPAC but higher levels of HVA than those grouped, but in both groups there was a decrease in DOPAC in cocaine- and saline-treated mice. Prenatal cocaine exposure decreases the response to the rewarding properties of drugs in mature offspring. They also implicate cocaine consumption during pregnancy could affect the response of offspring to take other drugs of abuse.     

Prenatal nicotine exposure alters postnatal cardiorespiratory integration in young male but not female rats

The present study tested the hypothesis that prenatal nicotine exposure (PNE) induces sex specific alternations in indices of cardiorespiratory coupling during early development. Rat pups exposed to either nicotine (6 mg/kg/day) or saline (control) in utero were chronically instrumented with ECG electrodes for measurement of heart rate (HR) and respiratory frequency (RF) was monitored by whole body plethysmography on postnatal days (P)13, P16 and P26. PNE had no identifiable effect on resting respiratory frequency (RF) in either sex. There was however a strong trend (p = 0.057) for resting HR to be elevated by PNE in male offspring only. Alternatively, the HR response to hypoxia (10% O₂), was significantly blunted at P13 but significantly elevated at P26 s in the absence of any significant change in RF in PNE males only. Indicators of respiratory sinus arrhythmia (RSA) were also significantly reduced in P26 PNE males. No significant effects of PNE on HR, RF or RSA were identified in female offspring at any age. Our results demonstrate that PNE induces very specific changes in cardiorespiratory integration at select postnatal ages and these changes are more prominent in males. Additionally, alternations in cardiorespiratory integration appear to persist into later development in males only, potentially increasing the risk for cardiovascular diseases such as hypertension later in life.     

Prenatal exposure to morphine alters brain μ opioid receptor characteristics in rats

Prenatal morphine exposure alters neither the binding capacity nor the affinity of ligand binding to μ opioid receptors of adult male brains. However, males have significantly higherB_max in the hypothalamus than ovariectomized females. In females, prenatal exposure to morphine reduces theB_max of μ opioid receptors 25% in the hypothalamus and preoptic area. Estrogen treatment increases theB_max of μ opioid receptors in the striatum of all ovariectomized females but in the hypothalamus only of morphine-exposed females, thereby eliminating the sex difference observed in control animals.     

Hydrocortisone differentially alters lesion-induced axon sprouting in male and female rats

Hydrocortisone was administered to young adult male or female rats after removal of the entorhinal cortex. Lesion-induced outgrowth of the commissural-associational afferent fibers in the hippocampus was quantitated. The glucocorticoids caused a significant decline in axon sprouting in the male subjects and a significant increase in outgrowth in female subjects. Depending on the sex, the hormonal effects on lesion-induced axonal growth are markedly different in the rat.     

Prenatal morphine exposure enhances seizure susceptibility but suppresses long-term potentiation in the limbic system of adult male rats

The present study examined the effects of prenatal morphine exposure on NMDA-dependent seizure susceptibility in the entorhinal cortex (EC), and on activity-dependent synaptic plasticity at Schaffer collateral and perforant path synapses in the hippocampus. During perfusion with Mg(2+)-free ACSF, an enhancement of epileptiform discharges was found in the EC of slices from prenatally morphine-exposed male rats. A submaximal tetanic stimulation (2x50 Hz/1 s) in control slices elicited LTP at the Schaffer collateral-CA1 synapses, but neither LTP nor LTD was evoked at the perforant path-DG synapses. In slices from prenatally morphine-exposed adult male rats, long-term potentiation of synaptic transmission was not observed at Schaffer collateral-CA1 synapses, while the submaximal tetanus now elicited frank LTD of synaptic EPSPs at perforant path synapses. These data suggest that prenatal morphine exposure enhances the susceptibility of entorhinal cortex to the induction of epileptiform activity, but shifts long-term plasticity of hippocampal synapses in favor of LTD.     

Prenatal alcohol exposure alters the course and severity of adjuvant-induced arthritis in female rats

Prenatal alcohol exposure (PAE) has adverse effects on the development of numerous physiological systems, including the hypothalamic-pituitary-adrenal (HPA) axis and the immune system. HPA hyper-responsiveness and impairments in immune competence have been demonstrated. The present study investigated immune function in PAE females utilizing an adjuvant-induced arthritis (AA) model, widely used as a model of human rheumatoid arthritis. Given the effects of PAE on HPA and immune function, and the known interaction between HPA and immune systems in arthritis, we hypothesized that PAE females would have heightened autoimmune responses, resulting in increased severity of arthritis, compared to controls, and that altered HPA activity might play a role in the immune system changes observed. The data demonstrate, for the first time, an adverse effect of PAE on the course and severity of AA in adulthood, indicating an important long-term alteration in functional immune status. Although overall, across prenatal treatments, adjuvant-injected animals gained less weight, and exhibited decreased thymus and increased adrenal weights, and increased basal levels of corticosterone and adrenocorticotropin, PAE females had a more prolonged course of disease and greater severity of inflammation compared to controls. In addition, PAE females exhibited blunted lymphocyte proliferative responses to concanavalin A and a greater increase in basal ACTH levels compared to controls during the induction phase, before any clinical signs of disease were apparent. These data suggest that prenatal alcohol exposure has both direct and indirect effects on inflammatory processes, altering both immune and HPA function, and likely, the normal interactions between these systems.     

Mu-opioid receptors in seizure-controlling brain structures are altered by prenatal morphine exposure and by male and female gonadal steroids in adult rats

The present study used autoradiography to examine the effect of prenatal morphine exposure on mu-opioid receptor density in epileptic seizure-controlling brain structures including the substantia nigra pars compacta (SNC), substantia nigra pars reticulata (SNR), superior colliculus (SC), and subthalamic nucleus (STN) of adult male and female rats. The results demonstrate that prenatal morphine exposure increases the mu-opioid receptor density in the SNC and STN, but not in the SNR or in the SC of gonadally intact adult male rats. The density of mu-opioid receptors in the SNC and STN is, however, decreased following gonadectomy in morphine-exposed males, and testosterone treatment fails to restore this decrease to the level of gonadally intact males. Further, in the SC, the density of mu receptors was lower in both saline-exposed, gonadectomized (GNX) and GNX, TP-treated males and in morphine-exposed, GNX, TP-treated males relative to gonadally intact saline- and morphine-exposed males, respectively. In ovariectomized (OVX) female rats, the same prenatal morphine exposure increases the mu-opioid receptor density in the SNC and SNR, but decreases it in the STN. The density of mu-opioid receptors is also decreased in the SNC and SC of OVX estrogen-treated females and in the SNR and SC of OVX, progesterone-treated females. Thus, the present study demonstrates that mu-opioid receptors in seizure-controlling brain structures are sex-specifically altered by prenatal morphine exposure in adult progeny. Further, prenatal morphine exposure alters gonadal hormone effects on the density of mu receptors in adult, OVX females.     

Neonatal stress alters LTP in freely moving male and female adult rats

We previously reported that neonatal isolation stress significantly changes measures of hippocampal long-term potentiation (LTP) in male and female juvenile rats, i.e., at 30 days of age. The changes in dentate granule population measures, i.e., excitatory postsynaptic potential (EPSP) and population spike amplitude (PSA), evoked by tetanization of the medial perforant pathway, indicated that juvenile rats exposed to neonatal isolation exhibit different enhancement profiles with respect to both the magnitude and duration of LTP in a sex-specific manner. Isolated males showed a significantly greater enhancement of LTP, while female "isolates" showed significantly longer LTP duration when compared to all other groups. The present study was designed to determine whether the effects of the neonatal isolation stress paradigm endures into adulthood. Rats isolated from their mothers for 1 h per day during postnatal days 2-9 were surgically prepared at 70-90 days of age, with stimulating and recording electrodes placed in the medial perforant pathway and the hippocampal dentate gyrus, respectively. Prior to tetanization, no significant effect of sex or treatment was obtained for baseline measures of EPSP slope or PSA. In order to rule out baseline differences in hippocampal cell excitability in female adult rats, we measured the response of dentate granule cells for one estrus cycle and found no pretetanization enhancement in the evoked response in either controls or previously stressed rats. Following tetanization, there was a significant treatment and sex effect. During the induction of LTP, PSA values were significantly enhanced in both isolated males and females and had significantly longer LTP duration when compared to the unhandled control group. Additionally, we observed that females took longer to reach baseline levels than males. Taken together, these results indicate that repeated infant isolation stress enhances LTP induction and duration in both males and females. These results indicate that infant stress alters hippocampal neuroplasticity in such a way that its effect endures into adulthood.     

Prenatal ethanol exposure alters the effects of gonadectomy on hypothalamic-pituitary-adrenal activity in male rats

Prenatal ethanol exposure has marked effects on development of the hypothalamic-pituitary-adrenal (HPA) and -gonadal (HPG) axes. In adulthood, ethanol-treated rats show altered gonadal hormone responses and reproductive function, and increased HPA responsiveness to stressors. Importantly, prenatal ethanol differentially alters stress responsiveness in adult males and females, raising the possibility that the gonadal hormones play a role in mediating prenatal ethanol effects on HPA function. To examine a possible testicular influence on HPA activity in males, we compared the effects of gonadectomy on HPA stress responses of adult male offspring from ethanol, pair-fed (PF) and ad libitum-fed control dams. Intact ethanol-treated rats showed increased adrenocorticotrophic hormone (ACTH) but blunted testosterone and luteinising hormone (LH) responses to restraint stress, and no stress-induced elevation in arginine vasopressin (AVP) mRNA levels compared to those observed in PF and/or control rats. Gonadectomy: (i) significantly increased ACTH responses to stress in control but not ethanol-treated and PF males; (ii) eliminated differences among groups in plasma ACTH and AVP mRNA levels; and (iii) altered LH and gonadotrophin-releasing hormone responses in ethanol-treated males. Taken together, these findings suggest that central regulation of both the HPA and HPG axes are altered by prenatal ethanol exposure, with normal testicular influences on HPA function markedly reduced in ethanol-treated animals. A decreased sensitivity to inhibitory effects of androgens could contribute to the HPA hyperresponsiveness typically observed in ethanol-treated males.     

Prenatal morphine exposure decreases susceptibility of adult male rat offspring to bicuculline seizures

The purpose of this study was to investigate the effect of prenatal exposure to morphine (5-10 mg/kg twice daily on days 11-18 of gestation) on bicuculline seizure susceptibility and to examine the interaction of prenatal morphine exposure and hormonal background in adult male rats. The data demonstrate that prenatal morphine exposure does not affect clonic but decreases susceptibility to tonic-clonic bicuculline seizures in intact male rats. Thus, the present data support our previous work demonstrating alterations in seizure susceptibility of adult morphine-exposed animals.     

Prenatal exposure to SKF-38393 alters the response to light of adult rats

The current study examined the consequences of prenatal SKF-38393 exposure on the cellular response in the adult suprachiasmatic nuclei to light. Pregnant rats were injected with the dopamine agonist SKF-38393 or vehicle daily from gestational day 15 to 21. Adult offspring received a light pulse (1 min/2 lux) 4 or 8 h after lights off (ZT16 or ZT20 where ZT=zeitgeber time). Brains were processed for c-FOS-like immunoreactivity in the SCN. At ZT20 the number of cells expressing c-FOS protein after a light pulse was the same in both groups. At ZT16 the number of cells in the SCN of SKF-38393-exposed animals was 58% lower than the vehicle-treated group. The data suggest that prenatal SKF-38393 treatment may have long-term consequences for SCN function.     

Prenatal morphine exposure suppresses mineralocorticoid receptor-dependent basal synaptic transmission and synaptic plasticity in the lateral perforant path in adult male rats

The effects of prenatal morphine exposure (E11-18) on mineralocorticoid receptor (MR) modulation of synaptic plasticity were investigated in the lateral perforant path (LPP)-dentate gyrus granule cell synaptic system. Hippocampal slices were prepared from adult, prenatally saline- or morphine-exposed male rats. One hour prior to decapitation, some adult male rats were injected subcutaneously with saline or the MR antagonist, canrenoic acid (50 mg/kg). LPP was stimulated with high-frequency (2x100 Hz/0.5 s) and short-term plasticity (STP) and long-term potentiation (LTP) were evaluated at 5 and 30 min poststimulation, respectively. Prenatally saline-exposed male rats injected with saline 1 h prior to decapitation showed significantly higher levels of baseline, STP, and LTP than prenatally saline-exposed, canrenoic acid-treated males. In contrast, prenatally morphine-exposed male rats regardless of saline or canrenoic acid injection 1 h prior to decapitation were comparable in their baseline, STP, and LTP activities. Thus, the results demonstrate that canrenoic acid decreases the efficacy of the basal synaptic transmission in the LPP as well as suppresses synaptic plasticity in saline-exposed males. However, in adult morphine-exposed male rats, canrenoic acid has no other or further effects than a saline treatment suggesting that prenatal morphine exposure suppresses MR-dependent basal synaptic transmission as well as synaptic plasticity.     

Prenatal cocaine exposure alters progenitor cell markers in the subventricular zone of the adult rat brain

Long-term consequences of early developmental exposure to drugs of abuse may have deleterious effects on the proliferative plasticity of the brain. The purpose of this study was to examine the long-term effects of prenatal exposure to cocaine, using the IV route of administration and doses that mimic the peak arterial levels of cocaine use in humans, on the proliferative cell types of the subventricular zones (SVZ) in the adult (180 days-old) rat brain. Employing immunocytochemistry, the expression of GFAP⁺ (type B cells) and nestin⁺(GFAP⁻) (type C and A cells) staining was quantified in the subcallosal area of the SVZ. GFAP⁺ expression was significantly different between the prenatal cocaine treated group and the vehicle (saline) control group. The prenatal cocaine treated group possessed significantly lower GFAP⁺ expression relative to the vehicle control group, suggesting that prenatal cocaine exposure significantly reduced the expression of type B neural stem cells of the SVZ. In addition, there was a significant sex difference in nestin⁺ expression with females showing approximately 8-13% higher nestin⁺ expression compared to the males. More importantly, a significant prenatal treatment condition (prenatal cocaine, control) by sex interaction in nestin⁺ expression was confirmed, indicating different effects of cocaine based on sex of the animal. Specifically, prenatal cocaine exposure eliminated the basal difference between the sexes. Collectively, the present findings suggest that prenatal exposure to cocaine, when delivered via a protocol designed to capture prominent features of recreational usage, can selectively alter the major proliferative cell types in the subcallosal area of the SVZ in an adult rat brain, and does so differently for males and females.     

Prenatal stress alters brain catecholaminergic activity and potentiates stress-induced behavior in adult rats.

Previous studies demonstrated that throughout the preweaning period prenatally stressed rats have an overactive hypothalamic-pituitary-adrenal (HPA) system. This increased HPA activity was accompanied by an increase in defensive behavior. This study examined whether these alterations in HPA activity and defensive behavior continued into adulthood. Brain catecholamines in the cerebral cortex and locus coeruleus were also measured in prenatally stressed and control rats. Shock-induced levels of defensive freezing were significantly higher in prenatally stressed rats than in controls. However, plasma ACTH and corticosterone concentrations did not differ between groups either in the basal state or after exposure to foot shock. Concentrations of norepinephrine (NE) in the cerebral cortex and locus coeruleus region were significantly reduced in prenatally stressed rats. In addition, concentrations of NE metabolites were significantly elevated in prenatally stressed rats, suggesting an increased turnover of brain NE. Prenatally stressed rats also had, in the locus coeruleus region, significantly reduced dopamine (DA) levels but elevated concentration of DA metabolites. Results indicate that prenatal stress produces an increased behavioral responsiveness to stress that is evident in early life and continues into adulthood. The early hyperactivity of the HPA system in prenatally stressed rats, however, appears to normalize in adulthood. The increased turnover in brain catecholamines measure in the cerebral cortex and locus coeruleus region of prenatally stressed rats may be associated with the heightened expression of stress-induced behavior.