A comparison of female and male rats' ETOH-induced ataxia and exploration following restraint or swim stress

Sex differences in adolescent ethanol drinking to behavioral intoxication

Rodent models have been especially useful for investigating adolescent ethanol exposure. However, there is a paucity of studies examining sex differences in behavioral intoxication from adolescent ethanol drinking. Here, we used an ethanol drinking model to investigate if adolescent rats of both sexes readily drink ethanol to measurable behavioral intoxication, indicated by increased impulsive action and motor incoordination. Beginning on postnatal day (P) 28, male and female Long-Evans rats were given 30-min access to a solution of sucrose (20%) or sweetened ethanol (20% sucrose +15% ethanol) every other day until P60 and once after 2 weeks of forced abstinence (on P75). On alternate (nondrinking) days, rats were reinforced with a food pellet for making a cued nosepoke response. Beginning on P56, rats were tested in this task after drinking sessions to assess ethanol-induced changes in impulsive action, defined as premature responding prior to cue presentation. Motor coordination was assessed before and after drinking sessions using an incline plane test. Adolescent male and female rats readily consumed ethanol to behavioral intoxication, measured as reduced motor coordination. Following forced abstinence, females displayed greater ethanol-induced impulsive action. These studies provide evidence for sex differences in behavioral intoxication following adolescent ethanol drinking.

Locomotor sensitization to EtOH: contribution of β-Endorphin

Alcohol use disorders, like all drug addictions, involve a constellation of adaptive changes throughout the brain. Neural activity underlying changes in the rewarding properties of alcohol reflect changes in dopamine transmission in mesolimbic and nigrostriatal pathways and these effects are modulated by endogenous opioids such as β-Endorphin. In order to study the role of β-Endorphin in the development of locomotor sensitization to repeated EtOH exposure, we tested transgenic mice that vary in their capacity to synthesize this peptide as a result of constitutive modification of the Pomc gene. Our results indicate that mice deficient in β-Endorphin show attenuated locomotor activation following an acute injection of EtOH (2.0 g/kg) and, in contrast to wildtype mice, fail to demonstrate locomotor sensitization after 12 days of repeated EtOH injections. These data support the idea that β-Endorphin modulates the locomotor effects of EtOH and contributes to the neuroadaptive changes associated with chronic use.

Differences in the social consequences of ethanol emerge during the course of adolescence in rats: Social facilitation, social inhibition, and anxiolysis

The present experiments explored social consequences of ethanol during adolescence by examining dose-dependent ethanol-induced social facilitation and inhibition in a non-anxiogenic (familiar) environment, and ethanol-related anxiolysis in an anxiogenic (unfamiliar) environment in early (P28) and late (P42) adolescent rats. Pronounced age-related differences in the social consequences of ethanol emerged during the course of adolescence, with early adolescents being uniquely sensitive to activating effects of low doses of ethanol when tested in the familiar context in terms of play fighting-an adolescent-characteristic form of social interactions, but conversely less sensitive than late adolescents to ethanol-associated social suppression when tested at higher ethanol doses in this context. Early adolescents were also less sensitive than late adolescents to the anxiolytic effects of ethanol revealed in the unfamiliar test situation, when indexed in terms of increases in social investigation and the ethanol-induced transformation of social avoidance into social preference. Anti-anxiety properties of ethanol were found to be sex-dependent in older animals, with late adolescent females being more sensitive to ethanol anxiolysis than their male counterparts. Considerable ontogenetic differences in the social consequences of ethanol are evident even within the adolescent period, with early adolescence being a time of particularly pronounced adolescent-typical sensitivities to ethanol.

Motor Impairing Effects of Ethanol and Diazepam in Rats Selectively Bred for High and Low Ethanol Consumption in a Limited-Access Paradigm

BACKGROUND

Some clinical studies suggest that an initial low-level response in ethanol sensitivity is a good predictor of risk for developing subsequent high levels of ethanol consumption in humans; however, there are some inconsistencies in the data. In experimental research, this association between low ethanol sensitivity and high ethanol intake has not been consistently reported in studies that have used rat lines that have been genetically selected for differences in ethanol intake under continuous access conditions (e.g., UChA versus UchB, P versus NP, AA versus ANA). The present study investigated ethanol sensitivity in high (HARF) and low (LARF) ethanol-preferring rats selectively bred under limited-access conditions. For comparative purposes, motor impairment induced by diazepam was also examined.

METHODS

Motor impairment was assessed using the tilt plane. Ethanol (1.25, 2.0, and 2.5 g/kg, intraperitoneally) was administered to ethanol-naive male and female HARF and LARF rats, and their performance was assessed at t = 0, 30, and 60 min. Blood ethanol levels were measured in a separate group of ethanol-naive rats. Finally, in a separate group of male and female HARF and LARF rats, diazepam-induced (1, 3, and 10 mg/kg, intraperitoneally) motor impairments were evaluated in a similar manner.

RESULTS

In the ethanol study, HARF rats showed greater dose-dependent impairments than their LARF counterparts. Male rats exhibited greater sensitivity to ethanol-induced impairment than their female counterparts. These observations were unrelated to sex or line differences in the blood ethanol levels achieved. Similar impairments were observed with diazepam, with HARF rats exhibiting greater motor impairment than LARF rats.

CONCLUSIONS

The results suggest that selective breeding for high and low ethanol drinking in a limited-access paradigm has led to inherent differences in sensitivity to ethanol- and diazepam-induced motor impairments. The pattern of diazepam-induced impairments suggests possible variations in GABA(A) receptor activity, although more research is necessary to determine such involvement.

Anxiolytic effects of diazepam and ethanol in two behavioral models: comparison of males and females

The present study compared the anxiolytic effects of the benzodiazepine agonist diazepam and ethanol in adult male and female rats. Varying doses of diazepam (1-3 mg/kg) or ethanol (0.5-2.0 g/kg) were tested using both the elevated plus maze and defensive prod-burying models. Two time points following ethanol administration (10 and 30 min) were tested in the plus maze. Sex differences were seen in some anxiety-related behaviors, with females showing greater open arm time and reduced burying behavior than males. Although this suggests females displayed less anxiety-like behavior than males, the differences in the plus maze were not observed in all testing situations. Both diazepam and ethanol dose-dependently increased open arm times in the plus maze and reduced burying behavior in the defensive prod-burying task. The parallel nature of the dose-response curves suggests that both diazepam and ethanol have similar anxiolytic effects in males and females. No sex differences were seen in the brain levels of diazepam-like activity or blood alcohol levels with these treatments. A greater corticosterone response was observed in females than males with these two behavioral tests, but neither diazepam nor ethanol decreased this response. These results suggest a dissociation between the anxiety-reducing influences of these compounds and the changes in stress-related endocrine responses.