Voluntary Ethanol Drinking During the First Three Postnatal Weeks in Lines of Rats Selectively Bred for Divergent Ethanol Preference

Long-term drinking stability in the open-access self-administration monkey model

The Non-Human Primate (NHP) model for the study of Alcohol Use Disorders (AUD) as developed in our laboratories is critical to our understanding of the pathophysiology of voluntary, chronic, ethanol consumption. Previous work in this model established categories of ethanol consumption that parallel reported categories of human consumption across a spectrum spanning low drinking, binge drinking, heavy drinking, and very heavy drinking, albeit at generally higher daily intakes across categories than documented in people. Original categories assigned to ethanol consumption patterns were established using a limited cohort of rhesus macaques. This study revisits the validity of categorical drinking using an additional 28 monkeys. In addition to finding categorical representations consistent with the original 2014 report, our findings demonstrate that drinking categories remain stable across the observed 12 months of nearly consistent access to ethanol (22 h/day), termed "open access". Animals occupying the two ends of the spectrum, "low" and "very heavy" drinkers, exhibit the largest stability. The findings also indicate a slight escalatory drift over time, with very heavy drinking animals experiencing fatigue near the end of open access.

The role of social isolation in ethanol effects on the preweanling rat

The present experiments investigated the effects of acute ethanol exposure on voluntary intake of 0.1% saccharin or water as well as behavioral and nociceptive reactivity in 12-day-old (P12) rats exposed to differing levels of isolation. The effects of ethanol emerged only during short-term social isolation (STSI) with different patterns observed in males and females and in pups exposed to saccharin or water. The 0.5g/kg ethanol dose selectively increased saccharin intake in females, decreased rearing activity in males and attenuated isolation-induced analgesia (IIA) in all water-exposed pups. Ingestion of saccharin decreased IIA, and the 0.5g/kg ethanol dose further reduced IIA. The 1.0g/kg ethanol dose, administered either intragastrically or intraparentionally, also decreased IIA in P12 females, but not in P9 pups. A significant correlation between voluntary saccharin intake and baseline nociceptive reactivity was revealed in saline injected animals, saccharin intake was inversely correlated with behavioral activation and latency of reaction to noxious heat after 0.5g/kg ethanol in females. The 0.5g/kg ethanol dose did not affect plasma corticosterone (CORT) measured 5h after maternal separation or 20min after ethanol injection. Female pups CORT level was inversely correlated with magnitude of IIA that accompanied the first episode of STSI (pretest isolation) 1.5-2h before CORT measurement. The present findings suggest that the anxiolytic properties of ethanol are responsible for enhancement of saccharin intake during STSI. Furthermore, differential reactivity of P12 males and females to STSI plays an important role in ethanol effects observed at this age.

Ontogeny of ethanol intake in alcohol preferring (P) and alcohol nonpreferring (NP) rats

There is a scarcity of research on ethanol affinity in alcohol-preferring (P) rats before weaning and it is unknown if neonate P rats exhibit ethanol intake preferences comparable to those observed in adult P rats. This study examined ethanol intake in P and alcohol-nonpreferring (NP) rats 3 hr after birth (Experiment 1, surrogate nipple test), at postnatal days (PD) 8, 12, and 18 (Experiment 2, consumption from the floor procedure) and at adolescence (Experiment 3, two-bottle choice test at PD32). The high-preference genotype was readily expressed 3 hr after birth. P neonates drank twice as much ethanol as their NP counterparts. This heightened ethanol preference transiently reversed at P8, reemerged as weaning approached (P18) and was fully expressed during adolescence. These results help to clarify the ontogeny of genetic predisposition for ethanol. Genetic predisposition for higher ethanol intake in P than in NP rats seems to be present immediately following birth.

Laboratory models available to study alcohol-induced organ damage and immune variations: choosing the appropriate model

The morbidity and mortality resulting from alcohol-related diseases globally impose a substantive cost to society. To minimize the financial burden on society and improve the quality of life for individuals suffering from the ill effects of alcohol abuse, substantial research in the alcohol field is focused on understanding the mechanisms by which alcohol-related diseases develop and progress. Since ethical concerns and inherent difficulties limit the amount of alcohol abuse research that can be performed in humans, most studies are performed in laboratory animals. This article summarizes the various laboratory models of alcohol abuse that are currently available and are used to study the mechanisms by which alcohol abuse induces organ damage and immune defects. The strengths and weaknesses of each of the models are discussed. Integrated into the review are the presentations that were made in the symposium "Methods of Ethanol Application in Alcohol Model-How Long is Long Enough" at the joint 2008 Research Society on Alcoholism (RSA) and International Society for Biomedical Research on Alcoholism (ISBRA) meeting, Washington, DC, emphasizing the importance not only of selecting the most appropriate laboratory alcohol model to address the specific goals of a project but also of ensuring that the findings can be extrapolated to alcohol-induced diseases in humans.

Postnatal developmental profile of urocortin 1 and cocaine- and amphetamine-regulated transcript in the perioculomotor region of C57BL/6J mice

Urocortin 1 (Ucn 1) is an endogenous corticotropin releasing factor (CRF)-related peptide. Ucn 1 is most highly expressed in the perioculomotor urocortin containing neurons (pIIIu), previously known as the non-preganglionic Edinger-Westphal nucleus (npEW). Various studies indicate that these cells are involved in stress adaptation and the regulation of ethanol (EtOH) intake. However, the developmental trajectory of these neurons remained unexamined. Expression of the cocaine- and amphetamine-regulated transcript (CART), which co-localizes with Ucn 1 in the perioculomotor area (pIII) has been examined prenatally, but not postnatally. The goal of the current study was to characterize the ontogenetic profile of Ucn 1 and CART during postnatal development in C57BL/6J (B6) mice. B6 mice were bred, and brains were collected at postnatal days (PND) 1, 4, 8, 12, 16, 24 and 45. Brightfield immunohistochemical staining for Ucn 1 and CART showed that Ucn 1-immunoreactivity (ir) was absent at PND 1, while CART-ir was already apparent in pIIIu at birth, a finding indicating that although the pIIIu neurons have already migrated to their adult position, Ucn 1 expression is triggered in them at later postnatal stages. Ucn 1-ir gradually increased with age, approaching adult levels at PND 16. This developmental profile was confirmed by double-immunofluorescence, which showed that Ucn 1 was absent in CART-positive cells of pIII at PND 4 and that Ucn 1 and CART are strongly but not completely co-localized in pIII at PND 24. Quantitative reverse transcriptase polymerase chain reaction (qRT-PCR) analysis confirmed that Ucn 1 mRNA levels are significantly lower at PND 4 and PND 12 than in adult animals. The lack of brain Ucn 1 immunoreactivity at birth and the gradual postnatal increase in Ucn 1 in pIIIu suggests that this peptide plays a greater behavioral role in adulthood than during the early postnatal development of an organism.

Pharmacological effects of ethanol on ingestive behavior of the preweanling rat

The present study was designed to test the hypothesis that sensitivity of ingestive behavior of infant rat to the pharmacological effects of ethanol changes between postnatal (P) days 9 and 12. The intake of 0.1% saccharin and water, general motor activity, and myoclonic twitching activity were assessed following administration of three doses of ethanol (0, 0.25, and 0.5 g/kg) while fluids were free available to the animals. The 0.5 g/kg dose of ethanol attenuated saccharin intake in P9 pups and enhanced saccharin intake in P12 rats. On P12 some sex-related differences emerged at 0.5 g/kg of ethanol, with saccharin intake being higher in females than in their male counterparts. Taste reactivity probe revealed that 0.5 g/kg of ethanol increased taste responsiveness to saccharin on P12 but only to infusions presented at a high rate. The results of the present study indicate that ontogenetic changes in sensitivity to the effects of ethanol on ingestive behavior occur during the second postnatal week, with P9 animals being more sensitive to the inhibitory (sedative) effects on saccharin intake and P12 rats being more sensitive to the stimulatory effects of ethanol. We suggest that acute ethanol enhanced saccharin intake via sensitization of oral response to appetitive taste stimulation.

Patterns of ethanol intake in preadolescent, adolescent, and adult Wistar rats under acquisition, maintenance, and relapse-like conditions

BACKGROUND

Animal behavioral models of voluntary ethanol consumption represent a valuable tool to investigate the relationship between age and propensity to consume alcohol using an experimental methodology. Although adolescence has been considered as a critical age, few are the studies that consider the preadolescence age. This study examines the ethanol consumption/preference and the propensity to show an alcohol deprivation effect (ADE) after a short voluntary ethanol exposure from a developmental perspective.

METHODS

Three groups of heterogeneous Wistar rats of both sexes with ad libitum food and water were exposed for 10 days to 3 ethanol solutions at 3 different ontogenetic periods: preadolescence (PN19), adolescence (PN28), and adulthood (PN90). Ethanol intake (including circadian rhythm), ethanol preference, water and food consumption, and ADE were measured.

RESULTS

During the exposure, the 3 groups differed in their ethanol intake; the greatest amount of alcohol (g/kg) was consumed by the preadolescent rats while the adolescents showed a progressive decrease in alcohol consumption as they approached the lowest adult levels by the end of the assessed period. The pattern of ethanol consumption was not fully explained in terms of hyperphagia and/or hyperdipsia at early ages, and showed a wholly circadian rhythm in adolescent rats. After an abstinence period of 7 days, adult rats showed an ADE measured both as an increment in ethanol consumption and preference, whereas adolescent rats only showed an increment in ethanol preference. Preadolescent rats decreased their consumption and their preference remained unchanged.

CONCLUSIONS

In summary, using a short period of ethanol exposure and a brief deprivation period the results revealed a direct relationship between chronological age and propensity to consume alcohol, being the adolescence a transition period from the infant to the adult pattern of alcohol consumption. Preadolescent animals showed the highest ethanol consumption level. The ADE was only found in adult animals for both alcohol consumption and preference, whereas adolescents showed an ADE only for preference. No effect of sex was detected in any phase of the experiment.

Ethanol, saccharin, and quinine: early ontogeny of taste responsiveness and intake

BACKGROUND

Rat pups demonstrate high levels of immediate acceptance of ethanol during the first 2 weeks of postnatal life. Given that the taste of ethanol is most likely perceived by infant rats as a combination of sweet and bitter, high intake of ethanol early in ontogeny may be associated with age-related enhanced responsiveness to the sweet component of ethanol taste, as well as with ontogenetic decreases in sensitivity to its bitter component. Therefore, the present study compared responsiveness to ethanol and solutions with bitter (quinine) and sweet (saccharin) taste in terms of intake and palatability across the first 2 weeks of postnatal life.

METHODS

Characteristic patterns of responsiveness to 10% (v/v) ethanol, 0.1% saccharin, 0.2% quinine, and water in terms of taste reactivity and fluid intake were assessed in rat pups tested on postnatal day (P) 4, 9, or 12 using a new technique of on-line monitoring of fluid flow through a two-channel intraoral cannula. Taste reactivity included analysis of ingestive and aversive responses following six intraoral infusions of the test fluids. This taste reactivity probe was followed by the intake test, in which animals were allowed to voluntarily ingest fluids from an intraoral cannula.

RESULTS

Pups of all ages showed more appetitive responses to saccharin and ethanol than to water or quinine. No age-related differences were apparent in taste responsiveness to saccharin and ethanol. However, the age-related pattern of ethanol intake drastically differed from that of saccharin. Intake of saccharin increased from P4 to P9 and decreased substantially by P12, whereas intake of ethanol gradually increased from P4 to P12. Intake of ethanol was significantly lower than intake of saccharin on P9, whereas P12 pups took in more ethanol than saccharin.

CONCLUSION

The findings of the present study indicate ontogenetic dissociations between taste reactivity to ethanol and saccharin and intake of these solutions, and suggest that high acceptance of ethanol early in ontogeny may not be associated with its orosensory properties but rather with the pharmacological effects of ethanol.

Ethanol acceptance is high during early infancy and becomes still higher after previous ethanol ingestion

BACKGROUND

Infant (preweanling) rats readily accept ethanol without initiation procedures. During their second and third postnatal weeks, rats ingest large quantities of even high concentrations of ethanol. The present study tested the consequences of still earlier exposure to ethanol differing in concentration, mode of administration, and contextual circumstances.

METHODS

Every 48 hours from postnatal day 2 (P2) to P10, pups were given access to 0, 5, 15, or 25% ethanol through an independent feeding procedure (consumption off the floor; COF) or by intragastric (i.g.) administration. The amount of ethanol consumed was matched for the 2 modes of ethanol delivery. On P12 pups were tested for intake of 15% ethanol through an intraoral infusion test or COF.

RESULTS

Beginning on P6, pups ingested more ethanol solution than water, and by P8 and P10 they ingested large quantities of ethanol--1.5 to 2.0 g/kg ethanol from 15 or 25% ethanol solution within a 10-minute period. This early experience with ingestion of ethanol increased subsequent ethanol intake on P12, particularly when concentration and mode of ingestion were the same as before.

CONCLUSIONS

Intake on P12 was increased by prior exposure to ethanol intragastrically as well as by the conventional oral route, suggesting pharmacological effects of prior ethanol exposure. Yet, the apparently greater influence of prior exposure by the oral route and the influence of prior ethanol concentration also implicate the importance of ethanol's chemosensory attributes for effects of prior ethanol exposure. The equivalent g/kg intake of ethanol in 15 or 25% solutions during the early part of the second postnatal week suggests that regulation of ethanol intake at P8 and P10 is similar to that observed previously in adults. Change in aspects of ethanol ingestion at about P6 may reflect the shift in function of the GABA system at about this age.

Ethanol intake in the juvenile, adolescent, and adult rat: effects of age and prior exposure to ethanol

BACKGROUND

Initial ingestion of ethanol by naïve rats has seemed to decrease dramatically with age. During the preweanling period, infant rats consume large quantities of high concentrations of ethanol without initiating procedures, in some instances exceeding doses required for severe motor incoordination. During adulthood, however, initial ingestion of ethanol without initiation procedures is low and infrequent. In the present study, the ontogeny of ethanol intake was measured in juvenile, adolescent and adult rats using a technique [consume off the floor (COF)] similar to that used to study intake during infancy. How this initial experience with ethanol affected subsequent affinity for ethanol intake was later assessed using 2-bottle choice preference tests.

METHODS

Independent ingestion of ethanol was measured at 3 developmental periods, the juvenile period (P22-P28), adolescence (P30-P34) and adulthood (P60-P64), with systematic variation in ethanol concentration (15 or 30% v/v) and palatability (sweetness) of ethanol. Blood ethanol concentrations (BECs) were determined in all animals. This dependent variable served as an estimate of absolute ethanol ingestion. Three COF sessions were conducted for each age group. Following these sessions animals' ethanol consumption was also assessed using a 2-bottle choice test (water vs 15% v/v unsweetened ethanol).

RESULTS

In all experiments, groups consuming 30% v/v ethanol exhibited significantly higher BECs than those exposed to 15% v/v ethanol. Adding saccharin to the ethanol increased absolute ethanol ingestion in only the oldest animals. During the pre-exposure phase (COF sessions) of each experiment, absolute ethanol intake was found to decline with repeated exposures. Sex effects were particularly evident during later stages of ontogeny (adolescents and adults). The overall pattern of results indicated that juveniles relative to adults show a marked predisposition to consume highly concentrated ethanol solutions and that BECs derived from the COF sessions influenced ethanol acceptance patterns in the subsequent 2-bottle test.

CONCLUSIONS

Using the (COF) technique with BECs as an estimate of intake, absolute ethanol consumption seems to be quite high early in ontogeny and decline gradually into adulthood. Adding saccharin to ethanol solutions at the concentration used in the present study (0.1%) was generally not sufficient to increase absolute ethanol intake from the floor, except during adulthood. The experimental strategy employed in this study represents a novel approach for examining ethanol acceptance patterns across ontogeny and how experience with the process of intoxication affects subsequent ethanol preferences.

Infantile sensitivity to ethanol's motivational effects: Ethanol reinforcement during the third postnatal week

BACKGROUND

Although tests specific to newborn rats have frequently verified their susceptibility to the reinforcing properties of ethanol, demonstration of comparable reinforcing effects in older infants has been elusive. Using a second-order conditioning procedure, the present study assessed in preweanling rats whether pairing with early postabsorptive effects of ethanol would render intraorally delivered gustatory stimuli capable of positive reinforcement for association with a salient texture. Direct reinforcing effects of ethanol were also evaluated through intake tests of gustatory stimuli previously paired with the drug. Blood ethanol levels (BELs) were determined for each of the ethanol doses used.

METHODS

Pups (14 days old) were stimulated with intraoral infusion of sucrose (10% v/v), water, or quinine (0.0045% w/v) 5 minutes after being intragastrically (i.g.) administered 0.00, 0.25, 0.50, or 2.00 g/kg ethanol (Experiments 1 and 2). These stimuli were then briefly presented while pups experienced a rough texture (sandpaper). Rats were subsequently evaluated in a 2-way texture location test (sandpaper vs smooth surface). In Experiment 3, sucrose, water, or quinine was paired with early postabsorptive effects of ethanol (0.00, 0.50, or 2.0 g/kg). Consumption of these stimuli was later assessed. Motor activity patterns during the intake test were also evaluated. In Experiment 4, BELs corresponding to 0.25, 0.50, or 2.0 g/kg ethanol were determined 5 and 20 minutes after i.g. administration (time periods were in accord with the onset and offset of intraoral stimulation used in the previous experiments).

RESULTS

Intraoral infusion of sucrose, water, or quinine, while under a state of sobriety and paired with sandpaper, resulted in roughly 50% preference for this texture. Sandpaper preferences were significantly elevated in pups that had experienced sucrose or water in a nonsober state-while under the effects of ethanol (Experiments 1 and 2). This indicated reinforcing effects of the ethanol intoxication. Pairing ethanol intoxication directly with consumption of sucrose, water, or quinine did not affect their later consumption. Yet, there were clear indications that this pairing resulted in conditioned behavioral activity patterns. Blood ethanol levels corresponding to the ethanol doses used here ranged between 10 and 150 mg%.

CONCLUSIONS

Infants appear sensitive to pharmacological reinforcing properties of low and relatively high ethanol doses. This sensitivity was revealed indirectly, by pairing gustatory stimuli with ethanol intoxication and then allowing these stimuli to act as second-order reinforcement for a quite different (tactile) stimulus. Behavioral activation elicited by the gustatory stimuli previously paired with a state of intoxication seems to compete with the expression of ethanol's motivational properties as assessed through intake tests.

Immediate acceptance of ethanol in infant rats: ontogenetic differences with moderate but not high ethanol concentration

BACKGROUND

During the preweanling period, infant rats consume large quantities of ethanol without initiating procedures. Ethanol intake during this period has seemed to be age related, with peak consumption occurring near the end of the second postnatal week, on postnatal day (P)12, but only a narrow range of conditions has been tested.

METHODS

Independent ingestion of ethanol was measured at each of two ages, P12 and P18, with systematic variation in ethanol concentration, duration of exposure, and mode of fluid presentation. Ethanol ingestion was measured in terms of percentage body weight gain, grams of absolute ethanol ingested per unit body weight, and blood ethanol concentration.

RESULTS

Ingestion of 30% ethanol during a 40-min period led to blood ethanol concentrations approaching 300 mg/100 ml at both P12 and P18. For ethanol concentrations of 10 or 20%, ingestion at P12 was greater than at P18. When ethanol was available from ethanol-soaked Kimwipe on the floor, ethanol intake transdermally or by inhalation was apparent but accounted for less than half of the overall ethanol intake. It was clear that for older infants, which are susceptible to ethanol's diuretic effects and are much more likely to self-void than those at P12, measurement of intake by percentage body weight gain can underestimate ethanol ingestion.

CONCLUSIONS

The infant rat ingests extraordinarily high levels of ethanol, in concentrations as high as 30%, without initiation procedures. Acceptance of ethanol by infants on first exposure contrasts with the conventional rejection of these concentrations by adults. It is unclear why younger infants (P12) consume more 10 and 20% ethanol than older (P18) infants. These and other differences in ethanol intake between infants and older animals may be due initially to the relative ontogeny of receptors for bitter and sweet taste and subsequently to other factors.

Effects of periadolescent ethanol exposure on alcohol preference in two BALB substrains

Ethanol exposure during adolescence is a rite of passage in many societies, but only a subset of individuals exposed to ethanol becomes dependent on alcohol. To explore individual differences in response to ethanol exposure, we compared the effects of periadolescent ethanol exposure on alcohol drinking in an animal model. Male and female mice of two BALB substrains were exposed to ethanol in one of three forms--choice [water vs. 10% (volume/volume) ethanol], forced (10% ethanol in a single bottle), or gradual (single bottle exposure, starting with 0.5% ethanol and increasing at 2-day intervals to 10% ethanol)--from the 6th through the 12th week of age and administered two-bottle alcohol preference tests (10% ethanol vs. water) for 15 days immediately thereafter. All three forms of ethanol exposure increased alcohol preference in male and female BALB/cByJ mice, relative to findings for ethanol-naive control animals. Only gradual ethanol exposure produced an increase in alcohol preference in BALB/cJ mice. During extended alcohol preference testing (for a total of 39 days) of mice in the gradual ethanol exposure group, the higher alcohol preference of the gradual ethanol-exposed BALB/cByJ male mice persisted, but alcohol preference of control group female mice in this strain--formerly ethanol naive, but at this point having received 10% ethanol in the two-bottle paradigm for 15 days--rose to the level of alcohol preference of female mice in the gradual ethanol exposure group. This finding demonstrated that both adolescent and adult ethanol exposure stimulated alcohol preference in female mice of this strain. Across days of testing in adulthood, alcohol preference of the gradual ethanol-exposed BALB/cJ mice decreased, resulting in a lack of effect of gradual exposure to ethanol on alcohol preference in both male and female mice of this strain during the period of extended testing. These strain differences support a genetic basis for the effects of ethanol exposure on alcohol preference and fit within a body of literature, showing substantial individual differences in the effects of ethanol exposure among genetically undefined rats and differences in response to ethanol exposure among inbred rat strains. Exploration of the mechanisms underlying this gene by environment interaction in a mouse model may help elucidate individual differences in the effects of ethanol exposure in human beings and contribute to the understanding of the causes of alcoholism.

Long-lasting alterations of the mesolimbic dopamine system after periadolescent ethanol drinking by alcohol-preferring rats

BACKGROUND

This study tested the hypothesis that ethanol consumption by alcohol-preferring (P) rats during the periadolescent period causes persistent alterations in the mesolimbic dopamine (DA) system. After ethanol drinking during periadolescence, P rats were examined for alterations in basal locomotor activity, changes in extracellular DA levels and extraction fraction in the nucleus accumbens (NAc) by using no-net-flux (NNF) microdialysis, and changes in the response of the mesolimbic DA system to ethanol.

METHODS

Male P rat pups were given 24-hr free-choice access to 15% (v/v) ethanol from postnatal day (PD) 30 through PD 60. On PD 70, rats were assessed for locomotor activity. On PD 70 to 80, rats were implanted with bilateral guide cannulas aimed above the NAc. After at least 5 days, microdialysis probes were inserted bilaterally; on the following day, NNF microdialysis experiments were conducted. On the day after the NNF experiment, conventional microdialysis experiments were conducted to measure extracellular levels of DA in response to intraperitoneal injection of saline or ethanol 2.5 g/kg.

RESULTS

Compared with the ethanol-naive group, ethanol drinking by P rats during periadolescence did not alter basal locomotor activity, nor did it alter the basal extracellular concentration of DA. There was, however, a significant increase in the extraction fraction of DA of ethanol-drinking animals relative to the controls (57.4 +/- 2.7% and 45.8 +/- 2.3%, respectively). Additionally, compared with controls, P rats with exposure to ethanol during the periadolescent period showed a prolonged increase in the extracellular levels of DA after a challenge dose of ethanol.

CONCLUSIONS

The results of the microdialysis experiments suggest that periadolescent ethanol drinking by P rats increases basal DA neurotransmission (as indicated by higher DA clearance while maintaining the same extracellular DA concentrations) and prolongs the response of DA neurotransmission to ethanol.

Reinforcement from pharmacological effects of ethanol in newborn rats

BACKGROUND

The preweanling period in the rat is characterized by acceptance of substantial amounts of ethanol and susceptibility to its reinforcing effects. It has been unclear, however, whether the neurobiological basis of ethanol reinforcement properties at this age is in ethanol's olfactory, gustatory, or pharmacological effects.

METHODS

The effectiveness of intraperitoneal (ip) ethanol as a reinforcer for newborn (3-hr-old) rats was tested toward separation of the orosensory and pharmacological sources of ethanol reinforcement. Responsiveness to a test nipple by pups given such pairings was compared with that of pups given unpaired presentations of the nipple and ethanol.

RESULTS

Reinforcement was assessed in terms of response to a surrogate nipple 1 hr after a single pairing of a similar nipple providing water (conditioned stimulus) and ip injection of ethanol (0.125, 0.25, 0.50, or 0.75 g/kg; unconditioned stimulus). Significant effects of ethanol reinforcement occurred with the lower doses (0.125 and 0.25 g/kg); higher doses of ethanol (0.50 and 0.75 g/kg) had no significant reinforcement effect. A second experiment determined that for conditioning with ip ethanol as the unconditioned stimulus, a conditioned stimulus consisting of only ingesting water or only suckling on an empty nipple also yielded significant reinforcing effects of ethanol, although with less strength than their combination. Both reinforcing doses of ethanol, 0.125 and 0.25 g/kg, yielded detectable concentrations of ethanol in the blood 5 min after injection, which were sustained at a significantly lower level 60 min after administration.

CONCLUSIONS

These data indicate that aside from possible, and likely weak, hematogenic sources of gustatory and olfactory attributes of ethanol, the basis of ethanol's reinforcement effect in neonatal rats is primarily pharmacological. For the pharmacological effects of ethanol to be reinforcing for the neonatal rat, concurrent appetitive activity on a nipple providing a fluid may be necessary for a substantial effect with this paradigm.

Effects of concurrent access to a single concentration or multiple concentrations of ethanol on the intake of ethanol by male and female periadolescent alcohol-preferring (P) rats

The objectives of this study were to assess the effects of access to different concentrations of ethanol and sex of the animal on ethanol consumption during periadolescence [postnatal days (PNDs) 30-60] in alcohol-preferring (P) rats. On PND 28, female and male P pups were single housed in hanging stainless steel cages with ad libitum access to water and food. Beginning on PND 30, the rats were also given access to either a single concentration [15% volume/volume (vol./vol.)] or multiple concentrations [10%, 20%, and 30% (vol./vol.)] of ethanol. Differences between sex (male vs. female) and ethanol conditions (single concentration vs. multiple concentrations), for the average amount of ethanol consumed for each week (starting on PND 33) of access, were examined. Analyses of the data for ethanol drinking revealed significant (P<.025) main effects of week and ethanol condition, as well as a significant weekxethanol condition interaction. For the first week, both male and female P pups consumed more ethanol under the multiple-ethanol-concentration condition than under the single-ethanol-concentration condition. However, across the second through fourth weeks, this pattern was seen only in female P pups. When preference for one concentration of ethanol over the other concentrations was assessed, it was found that male P pups tended to choose the 30% concentration over the 10% and 20% concentrations, whereas female P pups did not display a preference. The findings of this study corroborate previous work indicating that periadolescent P rats readily acquire high-ethanol-drinking behavior and that, similar to adult P rats, concurrent access to multiple concentrations of ethanol further enhances ethanol intake. These findings suggest to us that innate genetically influenced mechanisms promoting high ethanol intake are present at this stage of development.