Howard C. Becker

Ethanol increases PGE and thromboxane production in mouse pregnant uterine tissue

The teratogenic effect of ethanol in the C57BL/6J mouse can be attenuated by pretreatment with aspirin (ASA). One prominent effect of ASA is to inhibit prostaglandin (PGE) and thromboxane (TXB2) production. We examined the effect of in vivo ethanol exposure on PGE and TXB2 production in a uterine-embryo tissue sample of C57BL/6J mice either before or after in vivo ASA pretreatment on day 10 of gestation. Ethanol increased both PGE and TXB2 production by approximately 20%. ASA caused a marked reduction of PGE and TXB2 in both control and ethanol groups by approximately 80-90%. The mouse strain, gestation time, and study parameters used in this study were the same as in the previously reported ASA attenuation of the teratogenic effect of ethanol. Therefore, the present data add additional support to the hypothesis that prostaglandin and/or thromboxane production may be involved in at least some aspects of fetal alcohol syndrome.

Effects of the imidazobenzodiazepine RO15-4513 on the stimulant and depressant actions of ethanol on spontaneous locomotor activity

The purpose of this study was to investigate the effects of the imidazobenzodiazepine RO15-4513, a partial inverse agonist at benzodiazepine (BDZ) receptors, on the stimulant and depressant actions of ethanol in mice. For comparative purposes, another BDZ inverse agonist, FG-7142, was examined as well. Neither RO15-4513 nor FG-7142 influenced the low-dose excitatory effects of ethanol on spontaneous locomotor activity. However, both RO15-4513 and FG-7142 significantly antagonized the depressant effects of ethanol, and this antagonism was completely reversed by pretreatment with the BDZ receptor antagonist, RO15-1788. These data suggest that RO15-4513 is capable of antagonizing only some of the behavioral effects of ethanol, and in particular, those responses to ethanol that are mediated by modulation of the GABA/BDZ-chloride channel receptor complex.

Effects of prenatal ethanol exposure in C57BL mice on locomotor activity and passive avoidance behavior.

The purpose of this study was to examine the long-term behavioral effects of prenatal ethanol exposure in C57BL mice. Pregnant mice received free access to a liquid diet containing 25% ethanol-derived calories (EDC) from gestation days 6 to 18. Control animals were pair-fed an isocaloric 0% EDC diet during the same period of time. An additional control group was included that was maintained on standard lab chow and water throughout pregnancy. At 30 days of age, female offspring were tested for spontaneous locomotor activity in an open field under two lighting conditions (dim or bright illumination). Male off-spring were tested in a passive avoidance task at 25 days of age. The activity results demonstrated that the 25% EDC female progeny were more active than controls. This hyperactivity was observed under both lighting conditions, despite the fact that all groups evidenced suppressed activity when tested under bright lights. With regard to passive avoidance behavior, male EtOH-exposed offspring required a greater number of trials to reach criterion than controls. Additionally, they exhibited shorter latencies to enter the shock-associated chamber after receiving a single shock. Taken together, these results confirm our previous findings and demonstrate that C57BL mice are sensitive to both the deleterious behavioral and morphological consequences of prenatal ethanol exposure.

Effect of indomethacin on alcohol-induced morphological anomalies in mice.

The purpose of the present study was 1) to examine the effect of indomethacin (INDO), a prostaglandin synthesis inhibitor, on alcohol-induced growth and morphological impairment in C57BL/6J mice (Study 1) and 2) to determine if INDO crosses the placenta (Study 2). On day 10 of gestation, mice were injected (s.c.) acutely with either 0, 5, 10, or 20 mg/kg INDO, followed one hour later by alcohol (5.8 g/kg orally) or isocaloric sucrose. Fetuses were removed on day 19 of pregnancy, weighed, and examined for anomalous development. As expected, Study 1 demonstrated that maternal alcohol treatment decreased fetal weight and increased the number of fetuses with birth defects. INDO alone decreased fetal weight but did not affect morphologic development. More importantly, INDo antagonized alcohol-induced birth defects, but only at the highest dose. The results of Study 2 suggest that the relative ineffectiveness of INDO may be related to its inability to readily cross the placenta. Since high doses of INDO also caused maternal toxicity, the usefulness of this compound in future studies of this type was questioned.

Ethanol-induced locomotor stimulation in C57BL/6 mice following RO15-4513 administration

The purpose of this study was to examine the effects of two partial benzodiazepine inverse agonists, RO15-4513 and FG-7142, alone and in combination with ethanol on locomotor activity in C57BL/6 mice. When administered alone, 1.5 g/kg ethanol did not significantly influence activity, confirming previous reports indicating this mouse strain is relatively insensitive to the excitatory properties of ethanol. RO15-4513 treatment also did not significantly influence locomotor activity when administered alone. However, coadministration of RO15-4513 (1.5–6 mg/kg) and ethanol markedly increased locomotor activity. Moreover, the unmasking of ethanols stimulant action by RO15-4513 (6 mg/kg) was completely reversed by pretreatment with the benzodiazepine receptor antagonist RO15-1788. In contrast, FG-7142 (10–20 mg/kg) increased activity to the same extent in both saline and ethanol-injected mice. This effect was blocked by RO15-1788 pretreatment as well. Neither RO15-4513, FG-7142, nor RO15-1788 significantly influenced blood ethanol concentrations. It is suggested that RO15-4513 unmasked the stimulant effects of ethanol by virtue of its ability to antagonize the depressant properties of ethanol in C57BL/6 mice.

Stress-Induced Enhancement of Ethanol Intake in C57BL/6J Mice with a History of Chronic Ethanol Exposure: Involvement of Kappa Opioid Receptors

Our laboratory has previously demonstrated that daily forced swim stress (FSS) prior to ethanol drinking sessions facilitates enhanced ethanol consumption in mice with a history of chronic intermittent ethanol (CIE) vapor exposure without altering ethanol intake in air-exposed controls. Because both stress and chronic ethanol exposure have been shown to activate the dynorphin/kappa opioid receptor (KOR) system, the present study was designed to explore a potential role for KORs in modulating stress effects on ethanol consumption in the CIE model of dependence and relapse drinking. After stable baseline ethanol intake was established in adult male C57BL/6J mice, subjects received chronic intermittent exposure (16 h/day × 4 days/week) to ethanol vapor (CIE group) or air (CTL group). Weekly cycles of inhalation exposure were alternated with 5-day limited access drinking tests (1 h access to 15% ethanol). Experiment 1 compared effects of daily FSS and KOR activation on ethanol consumption. CIE and CTL mice were either exposed to FSS (10 min), the KOR agonist U50,488 (5 mg/kg), or a vehicle injection (non-stressed condition) prior to each daily drinking session during test weeks. FSS selectively increased drinking in CIE mice. U50,488 mimicked this effect in CIE mice, but also increased drinking in CTL mice. Experiment 2 assessed effects of KOR blockade on stress-induced drinking in CIE and CTL mice. Stressed and non-stressed mice were administered the short-acting KOR antagonist LY2444296 (0 or 5 mg/kg) 30 min prior to each drinking session during test weeks. FSS selectively increased ethanol consumption in CIE mice, an effect that was abolished by LY2444296 pretreatment. In Experiment 3, CIE and CTL mice were administered one of four doses of U50,488 (0, 1.25, 2.5, 5.0 mg/kg) 1 h prior to each daily drinking test (in lieu of FSS). All doses of U50,488 increased ethanol consumption in both CIE and CTL mice. The U50,488-induced increase in drinking was blocked by LY2444296. Our results demonstrate that the KOR system contributes to the stress enhancement of ethanol intake in mice with a history of chronic ethanol exposure.

Cocaine does not influence the teratogenic effects of acute ethanol in mice.

The teratogenic effects of the coadministration of alcohol (ethanol) and cocaine to pregnant C57BL/6J mice were investigated using an acute treatment model on gestation day 10 (GD10). The day of mating was designated as GD1. Pregnant mice were assigned to treatment groups generated from a 3(0, 4, 6 g/kg alcohol) x 3 (0, 40, 60 mg/kg cocaine) factorial design to explore possible interactive effects of these commonly abused drugs. Females were treated on GD10 (alcohol gavage followed by SC cocaine injection) and their litters were evaluated on GD19 by cesarean delivery. Two additional free-fed groups, as well as a pair-fed group, were employed. Food and water intake was recorded in treated groups. Results indicated that only the high dose alcohol produced a significant decrease in fetal body weight and a significant elevation of the incidence of kidney and limb malformations. These effects could not be attributed to restricted food intake. Cocaine was not found to produce any significant perturbations of development, either alone or in combination with alcohol. These results suggest that acute prenatal cocaine exposure on GD10 does not produce teratogenic effects when administered alone or in combination with acute alcohol in C57BL/6J mice, at least under the present experimental conditions.

Indomethacin does not antagonize the anxiolytic action of ethanol in the elevated plus-maze

The present study was designed to examine whether the prostaglandin (PG) synthesis inhibitor indomethacin (INDO) could antagonize the anxiolytic effects of ethanol (EtOH) in the elevated plus-maze test of anxiety. EtOH (1.6 g/kg) significantly increased the percentage of open arm entries and time spent on the open arms in both inbred C57BL/6J and outbred CD-1 mouse strains. However, this anxiolytic effect of EtOH was not significantly antagonized by pretreatment with INDO (5 and 10 mg/kg) in either strain. EtOH also significantly increased total arm entries in CD-1 mice, but not in the C57BL/6J strain. These data from C57BL/6J mice indicate that the low-dose stimulant properties of EtOH can be dissociated from the anxiolytic action of the drug in the plus-maze task. Finally, although INDO did not antagonize the stimulant effect of EtOH in the plus-maze task (in CD-1 mice), it did attenuate EtOH-induced stimulation of locomotor activity in an open-field arena. Taken together, these results suggest some specificity with regard to the role of PGs in mediating (or modulating) the neurobehavioral actions of EtOH, and further support the notion that the anxiolytic and stimulant effects of EtOH may be mediated by different mechanisms.

PGE measurement in mouse embryos and uterine/embryo tissue

Embryonic tissue of rodents and other species has been reported to produce prostaglandins (PG) of the E series during gestation. We attempted to establish the presence of PGE in C57BL/6J mouse embryos and peri-embryonic tissue as an initial step in examining the role of maternal ethanol treatment on PG production. Gestation day 10 embryos were found not to produce or degrade PGE. However, a tissue complex which included embryonic tissue, peri-embryonic membranes, placenta and uterus was capable of producing PGE from both endogenous and exogenous arachidonic acid. Furthermore, in vivo and in vitro aspirin was able to suppress PGE production from this tissue. It is concluded that gestation day 10 C57BL/6J mouse embryonic tissue, unlike that of rat, is not capable of measurable PGE production. However, uterine and peri-embryonic tissues, needed to support pregnancy, are capable of significant PGE production.

Effect of acute ethanol and cocaine administration on gestation days 14–17 in mice

The teratogenic effects of the coadministration of alcohol and cocaine on gestation days 14-17 were investigated using an acute exposure model. Pregnant C57BL/6J mice were assigned randomly to treatment groups generated from a 2 (0 or 6 g/kg alcohol) x 2 (0 or 60 mg/kg cocaine) x 4 (day of treatment) factorial design. An untreated control group was also employed. On GD14, 15, 16, or 17, females were intubated with alcohol or an isocaloric solution and injected (SC) 10 min later with cocaine or saline. Litters were evaluated on GD19 following cesarean delivery. A significant number of females in the alcohol-only group treated on GD16 or GD17 delivered litters prior to GD19. The results indicated that, in general, prenatal alcohol exposure was associated with decreased fetal body weight and suggested a possible increase in malformations of vascular origin. Cocaine and the alcohol/cocaine interaction did not affect the outcome variables in any reliable manner. Thus, with the animal model employed, cocaine did not exert teratogenic effects on its own nor did it influence alcohol-induced teratogenesis.