Fetal brain damage in the rat following prenatal exposure to cocaine

The Role of Connexins in Gastrointestinal Diseases

Gap junctions are hexagonal arrays of protein molecules in the plasma membrane and were first described in Mauthner cell synapses of goldfish. They form pathways for coupling between cells, allowing passive, electrotonic spread of ions and also passage of larger molecules such as amino acids and nucleotides. They are expressed in both excitable and non-excitable tissues. Each gap junction is made of two connexons, which are hexameric proteins of the connexin subunit. In this review, the roles that connexins play in gastrointestinal motility, the mechanisms of altered connexin expression leading to inflammatory bowel disease, gastrointestinal infections, and gastrointestinal symptoms in autistic spectrum disorder are discussed in detail.

Abnormal pregnancy outcome associated with high-dose maternal tranylcypromine therapy: Case report and literature review

BACKGROUND

Tranylcypromine is a non-selective inhibitor of monamine oxidase which also inhibits the reuptake of norepinephrine. Spontaneous hypertensive reactions to the drug have been reported. In sheep tranylcypromine has been shown to cause a dose-dependent reduction in uterine blood flow. A similar effect in a pregnant woman might induce constriction of the uterine arteries and temporary fetal hypoxia.

CASES

MotherSafe is a state-based Teratogen Information service and currently provides counselling to around 22,000 consumers and healthcare professionals annually regarding exposures during pregnancy and breastfeeding We report on the outcome of 2 pregnancies in a patient treated with high dose tranylcypromine as well as pimozide, diazepam and alprazolam. The first pregnancy resulted in fetal death and autopsy revealed facial dysmorphism with ocular hypertelorism, cardiac defect and placental infarcts. The second pregnancy continued to term but the baby had similar dysmorphic features as well as an atrio-ventricular septal defect and craniosynostosis.

CONCLUSIONS

Due to their unpredictable interactions with many drugs and foods, MAO inhibitors such as tranylcypromine are not commonly used to treat depression and reports of use in pregnancy are rare. We report the outcome of 2 pregnancies with exposure to high doses of tranylcypromine resulting in children with a similar pattern of malformations. The aetiology is unknown but may relate to the vasoactive properties of the drug in above-therapeutic doses.

Biobehavioral Outcomes in Adolescents and Young Adults Prenatally Exposed to Cocaine: Evidence From Animal Models

Cocaine has been a popular illicit drug among drug-using pregnant women over the last three decades. Prenatal cocaine exposure (PCE) has significant effects on children's development throughout early childhood. Very few human studies, however, report the effects of PCE on adolescent or early-adult development. As knowledge about early childhood effects in human children was informed by animal studies, this review considers the effects of PCE on behavioral outcomes in adolescent and young adult animals and provides potential guidance for research in human children. Animal models prenatally exposed to cocaine manifest play deficits, decreased social interaction, and increased aggression during competition in adolescence and young adulthood. Altered behavioral adaptation after stress exposure, including hormonal response change, is also evident. Attention deficits are reported in adult offspring with PCE, not only in a novel environment, but also in a final task session, indicating effects of PCE on transition and maintenance of attention. Animal studies support that PCE effects may extend beyond early childhood and continue to adolescence and adulthood. Additionally, some studies highlight that behavioral changes in offspring with PCE born without teratogenesis remain latent and reveal themselves during adulthood when animals are under stress conditions. Based on the evidence from animal models, well-designed human studies are needed to elucidate the effects of PCE on older human children. Research models that combine behavioral measures with stressful challenges may hold potential in discerning a longer term influence of PCE.

The effect of hypoxia in development

There is increasing evidence that the oxygen supply to the human embryo in the first trimester is tightly controlled, suggesting that too much oxygen may interfere with development. The use of hypoxia probes in mammalian embryos during the organogenic period indicates that the embryo is normally in a state of partial hypoxia, and this may be essential to control cardiovascular development, perhaps under the control of hypoxia-inducible factor (HIF). A consequence of this state of partial hypoxia is that disturbances in the oxygen supply can more easily lead to a damaging degree of hypoxia. Experimental mammalian embryos show a surprising degree of resilience to hypoxia, with many organogenic stage embryos able to survive 30-60 min of anoxia. However, in some embryos this degree of hypoxia causes abnormal development, particularly transverse limb reduction defects. These abnormalities are preceded by hemorrhage/edema and tissue necrosis. Other parts of the embryo are also susceptible to this hypoxia-induced damage and include the genital tubercle, the developing nose, the tail, and the central nervous system. Other frequently observed defects in animal models of prenatal hypoxia include cleft lip, maxillary hypoplasia, and heart defects. Animal studies indicate that hypoxic episodes in the first trimester of human pregnancy could occur by temporary constriction of the uterine arteries. This could be a consequence of exposure to cocaine, misoprostol, or severe shock, and there is evidence that these exposures have resulted in hypoxia-related malformations in the human. Exposure to drugs that block the potassium current (IKr) can cause severe slowing and arrhythmia of the mammalian embryonic heart and consequently hypoxia in the embryo. These drugs are highly teratogenic in experimental animals. There is evidence that drugs with IKr blockade as a side effect, for example phenytoin, may cause birth defects in the human by causing periods of embryonic hypoxia. The strongest evidence of hypoxia causing birth defects in the human comes from studies of fetuses lacking hemoglobin (Hb) F. These fetuses are thought to be hypoxic from about the middle of the first trimester and show a range of birth defects, particularly transverse limb reduction defects.

Möbius sequence in children exposed in utero to misoprostol: Neuropathological study of three cases

BACKGROUND

Misoprostol exposure in the first trimester of pregnancy has been related to congenital malformations, particularly the Möbius sequence and terminal transverse limb defects.

CASES

Neuropathological findings of three patients with Möbius sequence related to misoprostol are reported. No previous pathological studies have shown these abnormalities to be associated with misoprostol exposure in utero. The brain stem was cut serially, from the rostral mesencephalum to the caudal aspect of the medulla, and all fragments were stained with hematoxylin-eosin and cresyl violet. Old ischemic-anoxic foci of gliosis, with necrosis and calcification, dorsally situated, were present from the pons to the medulla, involving some cranial nerve nuclei (especially the IV, VII, and XII) that were partially or completely depopulated of neural cells.

CONCLUSIONS

The findings suggest a circulatory mechanism to the Möbius sequence, with vascular disruption involving the territory of the subclavian artery, occurring in a critical period of embryonic life between six to eight weeks postconception. These cases add further evidence of the role of misoprostol as a teratogen.

The nitric oxide synthesis inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME) causes limb defects in mouse fetuses: protective effect of acute hyperoxia

In the present study the relationship between exposure to the nitric oxide synthesis inhibitor Nomega-nitro-l-arginine methyl ester (l-NAME) and the induction of limb defects, with respect to stage specificity and dose dependency, was investigated in the mouse. ICR (CD-1) mice were dosed s.c with l-NAME at 50 or 90 mg/kg on gestation d 12, 13, 14, 15, or 16. A group of animals treated with vehicle on gestation d 14 served as control. Uterine contents were evaluated for teratogenesis on gestation d 18. A treatment-related disruption of limb development was noted. The effect was dose dependent and phase specific. l-NAME became teratogenically operational on gestation d 13 and elicited its maximum effect on gestation d 14, whereas no significant teratogenicity was observed when exposure occurred after gestation d 15. In utero exposure to l-NAME also reduced embryo viability relative to controls. When the higher dose was injected on gestation d 16, a significant number of dams delivered preterm. In a parallel study, the ability of hyperoxia to prevent limb teratogenesis was investigated. To this aim, a group of l-NAME-treated animals (90 mg/kg s.c. on gestation d 14) were exposed to 98 to 100% O(2) for 12 h. l-NAME-treated mice breathing room air served as positive controls. In response to hyperoxia, a significant decrement of l-NAME-induced limb defects was found. This study characterizes for the first time the teratogenic capacity of l-NAME in the mouse. Results obtained with hyperoxia fit the hypothesis that hypoxic tissue damage may play a contributory role in l-NAME-induced limb defects.

Septo-optic dysplasia with digital anomalies associated with maternal multidrug abuse during pregnancy

We describe a 16-year-old female affected by septo-optic dysplasia (SOD) with digital anomalies as additional feature. This rare developmental anomaly of midline brain structures can result from different pathogenetical events, including mutations of the homeo box gene HESX1, recently suggested as the etiological cause at least in a subset of patients. The absence of mutational involvement of this gene in our patient led us to consider, in alternative terms of pathogenesis, the maternal multidrug abuse occurring during pregnancy. Our report, in accord with previous experimental evidences, points out that illicit drug use might have played a causative role in brain development anomalies, thus our patient could represent an additional case of birth defects caused by a prenatal toxic exposure. The neurologic abnormalities and the clinical history of the patient are extensively reviewed. The need to include the SOD phenotype amongst the possible teratogenic effects of multidrug abuse is evidenced.

Further evidence for the role of free radicals in the limb teratogenicity of L-NAME

BACKGROUND

L-NAME (N(G)-nitro-(L)-arginine methyl ester), a nitric oxide synthase inhibitor, causes severe limb reduction malformations when gravid rats are treated intraperitoneally on gd-17. Hemorrhages, appearing within hours of L-NAME administration, and defects at term can be significantly reduced by co-treatment with PBN (alpha-phenyl-N-t-butylnitrone), a spin trap antioxidant. We have proposed that limb defects result from ischemia-reperfusion injury. We examine the role of xanthine oxidase and ROS formation in the limb effects of L-NAME.

METHODS

Gravidas were treated with L-NAME (50 mg/kg) in the presence or absence of allopurinol, a xanthine oxidase inhibitor. Spatial patterns of limb hemorrhage were determined promptly and at term as was digit length at the latter interval. Xanthine oxidase activities were assayed in control and treated limbs with and without allopurinol co-treatment.

RESULTS

Allopurinol significantly reduced hemorrhage severity in a dose-responsive fashion when fetuses were examined at term. Higher doses of allopurinol significantly preserved digit length. Xanthine oxidase activities in fetal limb were significantly increased by L-NAME treatment whereas co-treatment with allopurinol restored activities to near-control levels.

CONCLUSIONS

These findings support the role of excess reactive oxygen species (ROS) formation in L-NAME-induced limb reduction. We propose that nitric oxide (NO) depletion by L-NAME interferes with vascular integrity, and causes vasoconstriction. Resultant hypoxia stimulates superoxide formation and nitric oxide formation catalyzed by the inducible isoform of nitric oxide synthase. The reduction products of superoxide or the products of its reaction with nitric oxide oxidize or nitrate endothelial components resulting in limb reduction defects.

Brain lesions induced by chronic cocaine administration to rats

Cocaine is a common drug of abuse, and its use has emerged as a major public health problem with neurological complications. In this work, the authors studied microscopic lesions produced in brain by chronic cocaine administration to rats. Twenty-five Wistar rats were exposed to 30 mg/kg/day ip of cocaine and sacrificed at 15, 30, 45, 60, and 90 days after treatment and compared to 25 control rats injected daily with saline. The parietal cortex (Cx), hippocampus (Hp), substantia nigra (SN), and cerebellum (Ce) were morphologically analyzed. The authors found progressive light microscopic lesions in all regions studied, including nuclear pyknosis and atrophy, interstitial edema, broken fibers, and necrosis. Results show that chronic treatment with cocaine in rats leads to selective severe lesions in different brain regions.

The search for congenital malformations in newborns with fetal cocaine exposure

CONTEXT

The association between prenatal cocaine exposure and congenital anomalies is not definitive.

OBJECTIVE

To determine whether prenatal cocaine exposure results in an increased number or identifiable pattern of abnormalities.

DESIGN

A prospective, longitudinal cohort enrolled between 1991 and 1993.

SETTING

Rural public health population delivering at a regional tertiary medical center.

PATIENTS

Two hundred seventy-two offspring of 154 prenatally identified crack/cocaine users and 154 nonusing controls were matched on race, parity, location of prenatal care (that related to level of pregnancy risk), and socioeconomic status. Drug use was determined through repeated in-depth histories and urine screens. Infants not examined within 7 days of birth were excluded.

OUTCOME MEASURES

Assessments were made by experienced examiners masked to maternal drug history. Included were 16 anthropometric measurements and a checklist of 180 physical features defined and agreed upon in advance.

RESULTS

There were no differences on major risk variables between the included and excluded infants. There were significantly more premature infants in the cocaine-exposed group. Cocaine-exposed infants were significantly smaller in birth weight, length, and head circumference but did not differ on remaining anthropometric measurements. There was no difference in type or number of abnormalities identified between the exposed and nonexposed groups. There was no relationship between amount or timing of exposure and any of the outcomes.

CONCLUSIONS

This prospective, large-scale, blinded, systematic evaluation for congenital anomalies in prenatally cocaine-exposed children did not identify an increased number or consistent pattern of abnormalities.

Long-term intravenous perinatal cocaine exposure on the mortality of rat offspring

To examine the effects of chronic perinatal cocaine exposure, cocaine was administered intravenously throughout pregnancy and the postpartum period to the rat. Pregnant rats were divided into five groups: nontreated (naive); normal saline control (saline); cocaine first generation (cocaine); saline in the first generation and cocaine in the second generation (Sal-2G); and cocaine in both first and second generations (Coc-2G). The rats receiving cocaine in the second generation (Sal-2G and Coc-2G) were offspring of the saline and cocaine group, respectively. All cocaine-treated groups received cocaine 2 mg/kg/day intravenously (IV), and the saline group received normal saline 0.2 ml/day IV from GD 2 to the 21st day postpartum. Mean perinatal mortality was greater in all pups exposed to cocaine in utero during gestation; Cocaine (6.4%); Sal-2G (5.6%); Coc-2G (11.4%) groups than in the noncocaine groups (3.2%, 1.3%). Weight gain, physical, and neurological developments of the offspring were not affected. It was concluded that perinatal cocaine exposure had an increased perinatal mortality even at doses approximately 10 times lower than those previously reported, which were administered by extravascular routes. These findings indicate the importance of the route of drug administration in perinatal cocaine research.

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.

Cocaine decreases uteroplacental blood flow in the rat

Although cocaine administration reduces blood flow to the fetus in the pregnant ewe, the effects of cocaine on uterine and placental blood flow in the pregnant rat have not been adequately documented. The current study tested the hypothesis that cocaine decreased uterine and placental blood flow in awake and freely moving pregnant rats 17 min following gastric intubation. Blood flow was determined using [14C]iodoantipyrine in pregnant Sprague-Dawley rats 1 day prior to parturition. On the day of the experiment, rats were intubated with either 60 mg/kg cocaine or the vehicle and 17 min later infused i.v. with 75 microCi [14C]iodoantipyrine. Ten arterial blood samples were taken over 1 min through a femoral arterial catheter placed on the previous day. At 1 min the animal was decapitated and the entire uterus rapidly removed and frozen. After processing for autoradiography, the amounts of radioactivity in the tissues were determined by computerized image analysis. The results show that cocaine reduced blood flow in the uterus by 27% and decreased blood flow in the placenta by 30%. While cocaine reduced the total amount of iodoantipyrine reaching the fetus, the distribution of tracer within the fetus did not appear to be altered by cocaine. Maternal blood pressure and heart rate decreased by 5% and 13% respectively (paired t-test), while maternal and fetal blood gases were not altered. These data indicate that acute cocaine administration reduces uteroplacental blood flow in the rat. The duration of this effect and whether these decreases are sufficient to produce neurobehavioral changes in the offspring remain to be determined.

Open-field and LPS-induced sickness behavior in young chickens: effects of embryonic cocaine and/or ritanserin

Exposure to drugs of abuse during embryogenesis may adversely affect nervous, immune, and endocrine systems development. We compared exposure on embryonic day 18 (E18) by single or multiple cocaine (COC) injections (56.25 mg/kg total dose for both) or saline on hatching and activity measures. In saline-exposed controls, repeated testing, age, and gender affected activity levels. A single or multiple COC injections increased the median latency to explore and multiple COC injections decreased the median number of lines crossed by female chicks in the open field. We also determined if pretreatment with the serotonin2 (5-HT2) receptor antagonist ritanserin could attenuate COC's effects on open-field behavior as well as behaviors sensitive to immune system stimulation (lipopolysaccharide (LPS)-induced sickness behavior). Eggs containing embryos were pretreated on E17 with 0.4 mg ritanserin/kg or its vehicle followed by multiple COC injections or saline on E18. E18 COC treatment decreased the median number of lines crossed and distress vocalizations in females. Ritanserin pretreatment mitigated the COC induced effects. E18 COC exposure also suppressed LPS-induced sickness behaviors in both males and females, increasing food consumption and the time spent awake and active, as well as decreasing the time spent sleeping. Ritanserin alone had no effect on the food consumed or time spent active, nor did this dose affect COC-induced alterations in sickness behavior. Ritanserin alone decreased time spent sleeping and also failed to affect the COC-induced suppression. Thus, embryonic COC exposure can suppress open field and LPS-induced sickness behavior in the young chick, and ritanserin pretreatment can block the former, but not the latter effects at the dose chosen for these experiments.

Reactive oxygen species and DNA oxidation in fetal rat tissues

It is well recognized that reactive oxygen species (ROS) are formed during the reperfusion of ischemic tissues and ROS may be pathogenic in adult tissues. Although there is little information on the formation and toxicity of ROS during prenatal life, a strong association has been made between limb and possibly brain malformations and uteroplacental ischemia during fetal stages of gestation. It has been proposed that these malformations result from attack by ROS formed during the resumption of placental perfusion. Studies reported here examined formation of ROS in teratogenically sensitive limb and brain and insensitive heart before and during the period of teratogenic sensitivity. Also examined was the formation of ROS following hypoxia and reoxygenation in fetal culture and DNA hydroxylation in sensitive and insensitive fetal tissues during uteroplacental ischemia and reperfusion in vivo. Rates of formation of superoxide anion radical and hydrogen peroxide declined with increasing gestational age whereas those for hydroxyl radical increased. Hydrogen peroxide generation was greatest in insensitive heart whereas hydroxyl radical formation was significantly lower in brain than in limb or heart, which had comparable rates. Hydrogen peroxide generation, which declined significantly in fetuses, but not in membranes with gestation, failed to respond to reoxygenation in vitro. Finally, there were significant increases in DNA hydroxylation in fetal hearts and limbs, but not in brains during uteroplacental ischemia but no further significant change could be detected after reperfusion.

An introduction to reactive oxygen species and their possible roles in substance abuse

There is a growing body of information relating diverse diseases and the consequences of injury to generation and toxicity of reactive oxygen species (ROS). Recently, it has been shown that the fetus and its membranes are also vulnerable to this toxicity, suggesting that a number of obstetric diseases may result from exposure to ROS, which are ubiquitous in aerobic organisms. Endogenous antioxidants, including superoxide dismutase, catalase, and glutathione peroxidase are essential for defense against ROS. It is significant that all antioxidants appear to be down-regulated in the fetus and membranes, suggesting the possibility that any process that further depresses their activities or increases the burden of ROS may compromise fetal development or maternal health. When permitted to accumulate, ROS can damage all classes of macromolecules, including lipids, proteins, and nucleic acids. Toxicity includes mutation, protein degradation, and lipid peroxidation, which can severely disturb membrane permeability and alter intracellular calcium and pH. An understanding of the generation and toxicity of ROS should help to define their potential roles in obstetric disease and lead to innovative preventive and therapeutic approaches.

Initiation of phenytoin teratogenesis: pharmacologically induced embryonic bradycardia and arrhythmia resulting in hypoxia and possible free radical damage at reoxygenation

The aim of this study was to investigate if phenytoin has the capacity to induce embryonic hypoxia mediated via adverse effects on the embryonic heart. Mouse embryos of different strains (CD-1, C57B1/6J and A/J) as well as Sprague Dawley (SD) rat embryos were cultured in vitro (in 75-80% rat serum) by the whole embryo technique. Effects on the heart were examined on gestational day 10 for mouse embryos and days 11 and 13 for rat embryos. Phenytoin was dissolved in water to give concentrations of 50-800 microM. In the mouse embryo studies, phenytoin caused a concentration-dependent decrease in embryonic heart rate in all three strains, with a slight decrease at 100 microM (2-7%) and a more pronounced effect at 200 microM (approximately 20%). Temporary or permanent cardiac arrest occurred in 86% of the CD-1 embryos at 500 microM, in 67% of the C57B1/6JM at 400 microM, and in all A/J embryos at 300 microM. Arrhythmias was observed in 8% in CD-1 embryos at 200 microM, in 18% at 150 microM in C57B1/6J embryos, and in 67% of the A/J embryos at 100 microM (lowest tested concentrations where arrhythmias occurred). In rat embryos, a concentration-dependent decrease in heart rate was observed on both days 11 and 13 at similar concentrations as in the mouse embryo studies. In a separate experiment, the effects on the heart rate of free phenytoin (not serum protein bound) were examined in rat embryos cultured in serum-free medium. Already at 12 microM a significant decrease in heart rate was observed. Altogether, the results support the hypothesis that phenytoin teratogenicity is initiated by pharmacologically induced embryonic hypoxia. A genetic susceptibility to the adverse effects of phenytoin on the embryonic heart may be of importance to explain strain and species differences in phenytoin teratogenicity.

Brain capillary lesions produced by cocaine in rats

In the last 20 years, acute and chronic cocaine addiction has increased among young and adult people. The effects of cocaine on brain vasculature of young animals have not been histologically studied in depth. In the present study, we report the lesions of brain capillaries, including the choroid plexus, produced by chronic cocaine administration, in adult Wistar rats receiving i.p., 30 mg/kg/day of aqueous cocaine hydrochloride solution. Rats were sacrificed after several days of treatment. Histopathological examination of capillaries from different brain regions and cerebellum was performed using light microscopy. At 7 days, there were initial signs of dilatation, rupture and thrombosis of capillaries. At 15 days of treatment small interstitial oedema and hemorrhages by rupture of the basal membrane of the capillaries was found. At 30 days of treatment, many capillaries from different areas showed fibroid endothelial thickening, and wall fibrosis become evident after 60 days of daily cocaine. In numerous places (cortex, gray nucleus: thalamus, caudate, hippocampus and cerebellum) we observed capillaries with an occluded lumen probably due to fibrosis or thrombi after 90 days of treatment. In the latter treatment, capillaries from the choroid plexuses had their lumen dilated and the epithelial cells vacuolated or necrotic. We hypothesize that the chronic administration of cocaine in rats induced brain lesions in part as a result of capillary disruption and subsequent extravasation of erythrocytes to brain parenchyma.

Retinal lesions in rat fetuses prenatally exposed to cocaine

The increased use of cocaine in the United States and worldwide has created great concern about its effects on fetuses and neonates of pregnant cocaine abusers. The effects on neonates are varied: fetal growth delay, microcephaly, abnormal neurological functions, microphthalmia, and maternal obstetric complications. In this study, the effect of prenatal cocaine administration was studied microscopically in the retina of rat fetuses. Twenty-five pregnant Wistar rats were injected i.p. with an aqueous cocaine solution using a 30 mg/kg daily dose for 45 days. Control group rats (15 pregnant animals) received saline solution for the same period. Day 0 of gestation was the day after mating. Dosing began on this day. The rats were killed on gestation day 21 and fetuses were obtained for examination. The histopathological light and electron microscope studies of the retinas showed interstitial oedema, areas depleted of cells, necrosis, and hyperchromatic ganglion cells. There also was a significantly lower number of retinal cells compared to control fetuses. In four cases, teratogenic lesions of the retina were observed whereas no changes were present in control fetuses. Results indicate that development of retina in fetuses prenatally exposed to cocaine was altered by cocaine exposure.

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.

Development of the eye after gestational exposure to cocaine. Vascular disruption in the retina of rats and humans

Clinical and basic research in the area of drugs of abuse are of utmost importance since they provide the necessary background for health programs in one of the main problems of contemporary society. The available data in this field demonstrate that acute, subacute and/or chronic abuse of illicit drugs, e.g., cocaine, alters the neurochemistry and functioning of the neural circuitries. Although recent works demonstrated that the visual system is lesioned after exposure to cocaine during the active periods of development, no studies have provided detailed information on the effects of these substances on the development of this sensory system. The present paper will report: 1) the vulnerability of the developing visual system to gestational exposure to cocaine; 2) the effects of cocaine in the visual system during the more active periods of development in humans and, as far as possible, the establishment of homologies with animal models where exposure is made in corresponding periods of human gestation, and 3) the characterization of the vascular disruption caused by ischemic/hypoxic mechanisms. The clinical study focused the ophthalmologic evaluation of newborns exposed in utero to illicit drugs. Newborns exposed to cocaine in utero showed marked vascular disruption in the retina: superficial and deep hemorrhages that, although morphologically similar to neonatal retinal hemorrhages, presented a longer reabsorption time when compared with the neonatal hemorrhagic lesions due to birth trauma in the general population. Prolonged eyelid edema was also a prominent finding. The animal study was conducted in Wistar rats exposed prenatally (gestational days 8 to 22) and postnatally (postnatal days 1-6, 1-13 and 1-29) to 60 mg/kg body weight/day and 15 mg/kg body weight/day, respectively, to cocaine hydrochloride administered subcutaneously; control groups included pair-feeding during the same experimental periods. Similar alterations to those observed in the newborns where exposure to cocaine was affirmative, were found: intraretinal hemorrhages allied to signs of chronic ischemia both in the outer retina-photoreceptor rosettes and in the inner retina-epiretinal glial membranes. Taking into consideration that the visual system is one of the more important sensory systems, the identification and characterization of these alterations, the similarity between animal and human findings, and their relation with cocaine per se, can provide a sound data base for illicit drug prevention programs.

Two cases of maternal antenatal splenic rupture and hypotension associated with Moebius syndrome and cerebral palsy in offspring. Further evidence for a utero placental vascular aetiology for the Moebius syndrome and some cases of cerebral palsy

We wish to report two cases of congenital abnormality after antenatal car accidents resulting in ruptured spleen and severe hypotension in the mothers at 8 and 14 weeks gestation. The first case had the classical Moebius syndrome with 6th and 7th cranial nerve palsy with abnormal brain stem evoked responses, presumably due to hypoxic/ischaemic brain stem damage and the second case had severe retardation and hypertonic cerebral palsy which at post mortem was found to be due to old hypoxic/ischaemic lesions to the caudate nucleus putamen and striatum.

CONCLUSION

The cases described provide evidence that severe maternal hypotension during pregnancy can be associated with lesions to the midbrain and brain stem of offspring. The mechanism is probably utero-placental insufficiency, and extrapolation from these two unusual cases would support utero-placental insufficiency as a cause of Moebius syndrome and limb deficiency after chorionic villus sampling.

Perinatal cocaine reduces responsiveness to cocaine and causes alterations in exploratory behavior and visual discrimination in young-adult rats

Lister hooded female rats were exposed to either saline or cocaine (20 mg/kg s.c.) from gestational day 10 every other day until weaning (postnatal day 25). The effects of maternal cocaine exposure on novelty-induced exploration and on spontaneous and cocaine-induced motor activity were evaluated in young-adult male offspring (4 weeks after weaning). Rats exposed to cocaine during development spent less time exploring two novel objects. Lack of habituation upon the second presentation of the objects and failure in the ability to discriminate between the novel and familiar object were also found in cocaine exposed offspring. Moreover, maternal cocaine treatment did not affect spontaneous motor activity (active time, average speed and rearing) in rats subjected to an open field test. Furthermore, perinatal exposure to cocaine significantly attenuated acute cocaine (15 mg/kg i.p.)-induced hyperactivity. These data indicate that developmental exposure to cocaine, at dose levels below those producing gross malformations and/or overt signs of neurotoxicity, causes behavioral changes characterized by an altered responsiveness to environmental and pharmacological challenges.

Pattern shift visual evoked potentials in abstinent cocaine-dependent, alcohol-dependent, and cross-dependent patients

The present study evaluated pattern shift visual evoked potential (VEP) amplitudes and latencies in four groups of adult subjects, characterized by the presence/absence of a recent history of alcohol dependence factorially crossed with the presence/absence of a recent history of cocaine dependence. All of the subjects were healthy and uncomplicated by histories of serious head injury, seizures (including drug-related seizures), and major medical, neurological, or psychiatric disorders. The subjects comprising the three patient groups were evaluated after 1 - 5 months of verified abstinence. Analyses of VEPs evoked by checkerboard reversal indicated a main effect of previous cocaine dependence on P100 latency. No main effect of previous alcohol dependence and no alcohol by cocaine dependence interaction were detected. The increased P100 latencies detected in abstinent, cocaine-dependent subjects are most likely related to cerebrovascular and neurological effects of chronic cocaine use.

Fetal Cocaine Exposure: Neurologic Effects and Sensory-Motor Delays

Research on animal models demonstrates that fetal cocaine exposure results in neurologic deficits in memory and learning. Although drug effects on human infants are difficult to separate from other environmental influences of a drug-using lifestyle, studies suggest that infants exposed to cocaine in utero have reduced growth, delays in sensory-motor development, attentional deficits, and depressed responsivity to social stimulation. Standard interventions to promote behavioral state regulation in affected infants may be helpful when parents are capable of participating.

Studies of mitochondria in oxidative embryotoxicity

While the limb bud and brain of the rat develop abnormally in response to transient uteroplacental hypoperfusion during late gestation, the heart appears to be protected. These malformations have been associated with the generation of reactive oxygen species (ROS). Studies were designed to examine superoxide generation by mitochondrial electron transport particles (ETP) from adult and conceptal tissues and to investigate characteristics that could be responsible for heightened concentrations of ROS in sensitive tissues. Parameters investigated included NADH oxidase and cytochrome c oxidase activities, cytochrome content, and superoxide dismutase activity. NADH oxidase activities were significantly lower in sensitive tissues that also developed the highest concentrations of superoxide. Because ETP from adult CNS also had low NADH oxidase activity but did not show increased concentrations of superoxide, inhibition of electron transport did not adequately account for increased ROS concentrations. The reduced NADH oxidase activity of sensitive tissues could not be caused by inhibition at the cytochrome c oxidase region since this latter activity equaled or exceeded the former in all instances. No significant differences were found in the cytochrome contents of different tissues. There was significantly less superoxide dismutase activity in homogenates prepared from either of the two sensitive conceptual tissues compared with those from insensitive conceptual or adult tissues. These studies confirm the presence of heightened concentrations of superoxide anion radical in ETP from teratogenically sensitive tissues and suggest that these concentrations may result primarily from decreased activity of superoxide dismutase(s) in those tissues. Superoxide anion radical could therefore be available to participate in the generation of the more toxic oxidant species such as the hydroxyl radical.

Comparative effects of prenatal cocaine, alcohol, and undernutrition on maternal/fetal toxicity and fetal body composition in the Sprague-Dawley rat with observations on strain-dependent differences

Pregnant rats received either 20, 30, 40, or 50 mg/kg cocaine HCl (SC) twice daily from gestation days 7 through 19. Pair-fed and untreated control groups and a group receiving 3.0 g/kg alcohol (PO) twice daily served as comparison groups. Females were sacrificed on gestation day 20 and the fetuses examined. Maternal weight gain and food consumption showed dose-dependent decreases. Maternal water consumption, by contrast, was significantly increased in the cocaine-treated animals and may reflect a diuretic effect. The maternal mortality rates in Sprague-Dawley rats were less than in two strains of Long-Evans rats, suggesting important strain-dependent differences in susceptibility to cocaine toxicity. Cocaine caused a significant dose-dependent decrease in fetal weights. Physical anomalies in the cocaine-exposed and alcohol-exposed fetuses included occasional hemorrhaging, edema, anophthalmia, and limb reduction. Despite increased maternal water consumption by cocaine-treated dams, there were no increases in fetal body water content. There were, however, significant decreases in fetal body fat content in the pair-fed, alcohol-treated, and two highest cocaine-treated groups.

Effects of prenatal cocaine exposure in the photoreceptor cells of the rat retina

Despite the increasing evidence of eye abnormalities, the effects of prenatal exposure to cocaine on the visual system are still poorly understood. This study was aimed at analyzing the qualitative and quantitative organization of the retinal photoreceptor cells (PR) and outer nuclear layer (ONL) after prenatal exposure to cocaine in the rat. Pregnant Wistar rats were given sc injections of cocaine hydrochloride (60 mg/kg body wt/d) or saline or were not manipulated; analyses were performed in the 14- and 30-d-old male offspring. Radial semithin and ultrathin sections of epon-embedded flat mounts of the retina showed displaced PR-like cells in the inner nuclear layer (INL), picnotic PR nuclei in INL, and ONL, and retinal PR rosettes and outer-segment debris in the subretinal space. The quantitative study showed an increased density of PR-like nuclei in the INL in PND14 cocaine-treated rats that were within normal values at PND30; no changes were detected in the PR mean nuclear diameter and in the packing density of PR nuclei in the ONL. These data constitute the first morphological demonstration of photoreceptor damage after prenatal cocaine-exposure probably owing to a direct action of the drug and/or to the cocaine-induced ischemia/hypoxia.

Effects of prenatal cocaine exposure in the retinal ganglion cell layer of the rat. A morphometric analysis

To study the effects of prenatal cocaine-exposure on the developing retinal ganglion cell layer of the rat, female Wistar rats were administered subcutaneously (sc) cocaine hydrochloride (60 mg/kg body wt/d) or saline, or were not manipulated from gestational d 8-22. Male offspring were sacrificed at postnatal day 14 and 30. Radial semithin sections of epon-embedded flat mounts of the retinal quadrants were used to evaluate the following parameters along the centroperipheral axis: 1. Thickness of ganglion cells plus nerve fiber layer; 2. Nuclear size of ganglion cell layer neurons; and 3. Linear density (number per unit length) of ganglion cell layer neurons. To study the effects of cocaine and age on the retinal areas (temporal/nasal, dorsal/ventral), a repeated measures analysis of variance was used for each of the parameters mentioned above. All parameters were affected by prenatal exposure to cocaine. The thickness of the ganglion cell plus nerve fiber layer was reduced in cocaine-exposed rats in comparison with the saline group. Nuclear diameters were smaller in the cocaine than in the saline and control groups. The linear density was higher in the cocaine-exposed group than in the control and saline groups. The age-dependent decrease in the linear density from postnatal day 14-30 was higher in the cocaine-exposed rats than in the saline group; the decrease in the linear density along the centroperipheral axis found in both the control and saline groups was not significant in the cocaine-treated group. These morphometric findings strongly support the view that prenatal cocaine-exposure induces marked changes in the organization of the developing retina.

Effects of prenatal cocaine exposure on postnatal growth patterns of male Wistar rats

The purpose of this study was to investigate basic parameters regarding the postnatal effects of prenatal exposure to cocaine. Timed-pregnant Wistar rats were injected SC with 60 mg/kg body weight/day of cocaine from gestational day 8 to 22. Control females were nonmanipulated and given food and lib; saline females received saline injections and pair-fed received saline and were nutritionally controlled to the cocaine-treated rats. Litters were restricted to 8 pups, weighed every other day until postnatal day (PND) 30 and every week from PND 30 to PND 90. The rats were perfused at PND 14, 30, and 90. The adequacy of adjustment of the logistic and Gompertz models to the body weights of the offspring was tested for the whole experimental period. The results from the Gompertz curve showed a higher growth rate and less time to reach 37% of expected mature body mass for the offspring of cocaine and pair-fed dams as compared with that of control and saline dams. No significant differences in the estimated adult weight were found among the experimental groups. The allometric relationship between forebrain and body weight is described by two postnatal growth phases with a first phase of rapid growth between PND 14 and 30 and a decelerating phase between PND 30 and 90. This relationship was not different among the experimental groups; however, the cocaine and pair-fed offspring showed a constant deficit in the forebrain weight as compared with the control and saline offspring.(ABSTRACT TRUNCATED AT 250 WORDS)

Cocaine inhibits central noradrenergic and dopaminergic activity during the critical developmental period in which catecholamines influence cell development

Cocaine produces neurobehavioral damage in the fetus and neonate both through its ischemic actions and through direct effects mediated by the drug within the developing brain. The replication and differentiation of catecholaminergic target cells are controlled in part by neurotransmitter input and the current study assess whether cocaine modifies the function of these neurons during the critical periods in which target cell programming occurs. Neonatal rats (1, 7, 14 and 21 days old) were given cocaine (30 mg/kg) acutely and the turnover of norepinephrine and dopamine, a measure of synaptic activity, was evaluated in vivo in three different brain regions known to be adversely affected by cocaine. For norepinephrine, cocaine suppressed transmitter turnover in the immediate postnatal period in all regions, reaching a maximal effect within the first 2 postnatal weeks; at subsequent ages, the inhibitory actions were no longer evident. For dopamine, an inhibitory effect also appeared during the first postnatal week, but by 14 to 21 days the effect was replaced by the excitatory response that is characteristic of mature brain; effects on dopamine turnover were restricted to the forebrain. The inhibitory effects of cocaine on immature brain could not be attributed to localized actions at the nerve terminal itself (blockade of reuptake, autoreceptor activation, local anesthesia), but instead are likely to represent reductions in nerve impulse activity. Brain development in the neonatal rat corresponds to fetal stages in man, and thus the transient ability of cocaine to interfere with noradrenergic and dopaminergic activity during the period in which differentiation is being patterned by neurotransmitter input, may be important in the neurobehavioral teratology of cocaine.

Cocaine alters cyclic motor activity in the fetal rat

Individual rat fetuses were exposed to cocaine by injection into the cisterna magna on E20 or E21 of gestation. On E20, cocaine elevated motor activity throughout the 20-min session, with activity increasing to double SAL-injected levels by the end of the session. On E21, overall activity also was elevated after cocaine, increasing four- to fivefold in the first 5 min of the session, and decreasing to twice the levels of SAL controls thereafter. Movement time series were subjected to spectral analysis to characterize cyclic motor organization. Cyclicity was evident in 67% of control and 97% of cocaine-injected fetuses. Cocaine increased the number of peaks in the movement spectrum and resulted in greater spectral density at the primary frequency of cyclic movement. Prenatal exposure to cocaine may alter patterns of cyclicity in the fetus, with consequences for the normal development of attention and behavioral state in the neonate.

Cocaine-induced embryonic cardiovascular disruption in mice

The purpose of this study was to determine whether vascular disruption is a feature of cocaine-induced teratogenicity in early murine organogenesis. The embryotoxic effects of cocaine were assessed: (1) in vivo, (2) in embryos cultured in the presence of cocaine (in vitro), and (3) after cocaine was administered in vivo and the embryos subsequently cultured in the absence of cocaine (in vivo-in vitro). When cocaine (78 mg/kg) was administered in vivo on day 8 and embryos were assessed on day 10, significant vascular perturbations, in the form of vasodilation and hemorrhage, as well as neural defects, were observed. In the in vitro system, day 8 embryos were cultured for 48 hr in the presence of 0, 10, 20, 33, and 66 micrograms/ml cocaine. At 10 and 20 micrograms/ml, vascular perturbation was not seen, while at higher cocaine concentrations, development of the yolk sac vasculature was inhibited. Hemorrhage was not a feature of in vitro cocaine embryotoxicity. However, significantly increased incidences of neural defects were seen at concentrations of 20 micrograms/ml or greater. Finally, in the in vivo-in vitro system, 78 mg/kg cocaine was administered on day 8 in vivo and embryos were dissected after 15 min and cultured for 48 hr. Marked cardiovascular perturbation, as well as neural defects, were produced using this protocol. With cocaine treatment, only 26.6% of embryos had a functioning heartbeat and yolk sac circulation, compared to 85.6% of controls. This cardiovascular disruption was associated with pooling of blood in the embryo, with 59.9% of embryos exhibiting marked vasodilation and hemorrhage compared to 12.5% in controls. Additional manifestations of cardiovascular perturbation were edema and blisters observed in cocaine-treated embryos. Neural tube defects, including open neural tube (8.3%) and microcephaly/hypoplastic prosencephalon (30.0%), were also significantly increased in cocaine-treated embryos. The cardiovascular and neural effects produced by cocaine were dose-dependent (40, 20 mg/kg). Thus, administration of cocaine in the in vivo or in vivo-in vitro systems produced marked cardiovascular effects, while in vitro treatment did not. These results suggest that cocaine may elicit cardiovascular toxicity through a maternally mediated mechanism.

Effects of prenatal cocaine exposure on the nigrostriatal dopamine system: an in vivo microdialysis study in the rat

Pregnant rats were given injections of saline (0.5 ml/kg) or cocaine (10 mg/kg, 20 mg/ml, s.c.) twice daily between gestational days 7-21. Offspring were examined by microdialysis between postnatal days 10-125 to study the effects of prenatal cocaine exposure on the nigrostriatal dopamine (DA) system. Twenty-min dialysis samples were collected and assayed for DA, DOPAC and HVA. After four baseline samples, the rat was exposed to 20 min of intermittent tail pinch and monitored for four samples; then each rat received an acute injection of cocaine (20 mg/kg, i.p.) and six additional samples were collected. Basal dialysate concentrations of all DA markers, estimated from pre-implantation calibration of the probes, were markedly reduced in young rats ('pups', 10-30 days old) as compared with adult rats (40-125 days old). Compared to control pups, basal DA, as well as DOPAC and HVA, were elevated in the prenatal-cocaine pups. Tail pinch (a mild stressor) produced a significant increase in DA only in the pups prenatally exposed to cocaine. The increase in basal DA induced by an acute cocaine injection (20 mg/kg) was also greater and more prolonged in the prenatal-cocaine pups. In older rats (40-125 days) there were no group differences in any of the DA parameters. Thus prenatal exposure to cocaine produces an activation of the DA system which persists after birth but returns to normal in older 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.

Intravenous gestational cocaine in rats: effects on offspring development and weanling behavior

Pregnant rats were injected with cocaine (CN; 6 mg/kg) or an equal volume of saline (SAL), via the tail vein, on gestation days 8-20. A third group was untreated (UT). Maternal weight gain was not affected by dam treatment despite slight differences in food intake. Litter characteristics (e.g., litter size, pup weight) did not differ among groups. Indices of fetal mortality were not affected by the treatments. Developmental tests, initiated on postnatal day (PND) 2, indicated slight delays in the negative geotaxic response and eye opening in cocaine-exposed pups. Open-field and tail-flick tests were performed on PND 21. Pups were acutely injected with cocaine (10 mg/kg, IP), saline, or received no treatment before placement in a novel open field; morphine (1.5 mg/kg, SC) or saline was injected prior to the tail flick test. Pups from CN dams exhibited a significant decrease in spontaneous exploratory behavior compared to both controls, and a time-dependent increase in rearing compared to pups from UT dams. The acute cocaine injection prior to placement in the open field did not alter locomotion or rearing among dam treatment groups. However, the acute cocaine injection did increase stereotypy ratings for female pups from CN dams compared to similarly treated males, and females from SAL and UT dams. No differences were observed among groups in the tail-flick test. These data suggest that the IV route of administration provides a viable method of cocaine delivery in pregnant rats, and provides further evidence of the developmental and behavioral teratogenicity of prenatal cocaine exposure.

Prenatal cocaine increases striatal serotonin innervation without altering the patch/matrix organization of intrinsic cell types

The effect of prenatal cocaine on the anatomical development of the striatum was examined. The distribution and density of dopaminergic innervation of the striatum of animals exposed to cocaine during the second and third week of gestation was not noticeably different from prenatally saline-injected or untreated controls at any age. The patch/matrix organization of the striatum also appeared unaltered: neurons exhibiting dense substance P staining were localized to patches that overlapped dopamine terminal patches early in development, and enkephalin- and calbindin-immunoreactive neurons were found segregated to the matrix. Histochemical staining for acetylcholinesterase and NADPH diaphorase also revealed no differences between prenatally cocaine-treated and control brains. Whereas prenatal cocaine treatment failed to modify the basic compartmental organization of the striatum, it did lead to a hyperinnervation of serotonin-immunoreactive fibers which developed slowly after birth. Thus prenatal exposure to cocaine is capable of altering the ingrowth of serotonergic projections to the striatum while producing no change in the organization of neurons intrinsic to the striatum.

Body weight gain and hippocampal volumes of rats exposed neonatally to psychostimulants

There is increasing evidence that early exposure to psychostimulants exerts long-lasting effects on the central nervous system. Yet, analysis of the body weight gain and volumetric determinations of brain areas have not been performed by comparing the effects of neonatal exposure to cocaine and amphetamine. Male (Wistar) rats were given cocaine hydrochloride (15 mg/kg body weight/day), D-amphetamine sulphate (25 mg/kg body weight/day) or saline, s.c., twice daily, from postnatal day (PND) 1 to 30. The experimental design used random permuted blocks of 4 males per litter -9 litters for body weight gain evolution and 9 for the analysis of body, brain and cerebellum at PND30. Volumes of the hippocampal formation were calculated in horizontal serial sections of celloidin embedded material from 6 animals per group. The analysis of body weight gain evolution was performed using discriminant functions and allowed the separation of the amphetamine group from the remainder and the control from the psychostimulants group; weight gain in PND 24-30 period presented the highest discriminating power. The mean volume of the hippocampal formation was lower in the psychostimulants group, and the differences were significant in the molecular layer of the dentate gyrus of cocaine and amphetamine exposed animals when compared with the controls.(ABSTRACT TRUNCATED AT 250 WORDS)

Prenatal cocaine and cell development in rat brain regions: effects on ornithine decarboxylase and macromolecules

Prenatal cocaine exposure has been shown to cause neurobehavioral abnormalities. To determine whether effects on basic patterns of cell development underlie these functional deficits, we examined the aftermath of acute and chronic cocaine exposure on ontogenetic patterns of ornithine decarboxylase (ODC), a key regulator of cell replication/differentiation, DNA synthesis as monitored by [3H]thymidine incorporation, and markers of cell number (DNA content) and cell size (protein/DNA ratio). Administration of 30 mg/kg SC of cocaine to pregnant rats on gestational day 20 resulted in acute increases of ODC throughout the brain. When the same dose of cocaine was given daily from gestational days 8 through 20, ODC elevations persisted into the neonatal period but disappeared by the middle of the first postnatal week. Although this treatment regimen retarded maternal weight gain, there was little or no effect on pup body or brain region weights. Similarly, minor changes in DNA synthesis were seen in two brain regions (forebrain, cerebellum), but DNA content was largely unaffected. Postnatal cell growth was significantly reduced in the forebrain, as evidenced by deficits in protein/DNA but, again, the magnitude of effect was quite small. Raising the daily dose of cocaine to 100 mg/kg resulted in significant maternal mortality and fetal resorptions in surviving dams. Shortening the treatment regimen to a 3-day period (gestational days 18 through 20) eliminated the effects on maternal weight gain and on postnatal pup brain region ODC.(ABSTRACT TRUNCATED AT 250 WORDS)

Prenatal exposure to cocaine. II: Effects on open-field activity and cognitive behavior in Sprague-Dawley rats

Pregnant rats received subcutaneous injections of 15 mg/kg of cocaine twice daily (Cocaine-D), twice daily for two consecutive days at 5-day intervals (Cocaine-I), 0.9% saline (Saline) twice daily, or 1.5 mg/kg amfonelic acid (AFA) daily from gestational days 1-20. Offspring were tested for: rates of spontaneous alteration at postnatal days (PND) 32, 35, 40, and 45; acquisition and retention performance on a water maze task beginning at PND 30 and 60; entrance into and activity in an open-field apparatus at PND 60 and 180. The Cocaine-D offspring were less likely than Control offspring to enter the open field when tested at PND 60. The Cocaine-I offspring were hyperactive in the open-field apparatus when tested at PND 60. The drug treated offspring did not differ from the Saline control animals on all other measures. The failure of the Cocaine-D animals to enter the open field is consistent with neophobic behavior that we have observed before in rats exposed in utero to cocaine.