Home About us Contact
|
Home About us Contact | ||
|
|
||
Rat Lines (rat + line)
Selected AbstractsThe Expression of an Alcohol Deprivation Effect in the High,Alcohol-Drinking Replicate Rat Lines Is Dependent On Repeated DeprivationsALCOHOLISM, Issue 6 2000Zachary A. Rodd-Henricks Background: The alcohol deprivation effect (ADE) is a temporary increase in the ratio of alcohol/total fluid intake and voluntary intake of ethanol (EtOH) solutions over baseline drinking conditions when EtOH access is reinstated after a period of alcohol deprivation. The ADE has been posited to be an animal model for alcohol craving. In the current study, we examined the effects of initial deprivation length and number of deprivation exposures on the ADE in the replicate lines of the high,alcohol-drinking (HAD) rats. Methods: Adult male HAD-1 and HAD-2 rats received 24 hr free-choice access to 10% (v/v) EtOH and water for 6 weeks. Rats were then assigned to groups deprived of EtOH for 0 (control), or 2 to 8 weeks. All deprived groups were then given 24 hr access to EtOH for 2 weeks before being deprived of EtOH for another 2 weeks. This cycle of 2 weeks of access and 2 weeks of deprivation was carried out for a total of four deprivations. Results: After the initial EtOH deprivation period, EtOH consumption in HAD-1 and HAD-2 rats returned to baseline levels but failed to exhibit either an early onset ADE (initial 2 hr) or prolonged ADE (24 hr). An ADE was observed in two of the four deprived groups for the HAD-1 rats (2 week and 6 week groups) and in all deprived groups for the HAD-2 rats after a second deprivation, and in all deprived groups of both lines after a third deprivation. In the HAD-2 line, but not in the HAD-1 line, the duration of the ADE was prolonged into the second reinstatement day after the fourth deprivation. Conclusions: The expression of an ADE was observed only after repeated deprivation periods in the HAD lines. The duration of the ADE was prolonged in the HAD-2 line, but not in the HAD-1 line, with repeated deprivations, which suggests a dissociation between selection for alcohol preference and the effects of repeated deprivations on the duration of the ADE. [source] RESEARCH FOCUS ON COMPULSIVE BEHAVIOUR IN ANIMALS: Compulsive alcohol drinking in rodentsADDICTION BIOLOGY, Issue 4 2009Valentina Vengeliene ABSTRACT Upon prolonged alcohol exposure, the behaviour of an individual can gradually switch from controlled to compulsive. Our review is focused on the neurobiological mechanisms that might underlie this transition as well as the factors that are influencing it. Animal studies suggest that temporally increased alcohol consumption during post-abstinence drinking is accompanied by a loss of flexibility of the behaviour and therefore, could serve as a model for compulsive alcohol drinking. However, studies using different alcohol-preferring rat lines in the post-abstinence drinking model suggest that high alcohol consumption does not necessarily lead to the development of compulsive drinking. This indicates the significance of genetic predisposition to compulsive behaviour. Neuroimaging data show that chronic alcohol consumption affects the activity of several brain regions such as the extrapyramidal motor system and several areas of the prefrontal cortex including the orbitofrontal and anterior cingulate cortex. Similar changes in brain activity is seen in patients suffering from obsessive,compulsive disorder at baseline conditions and during provocation of obsessive thoughts and urge to perform compulsive-like rituals. This indicates that dysfunction of these regions may be responsible for the expression of compulsive components of alcohol drinking behaviour. Several brain neurotransmitter systems seem to be responsible for the switch from controlled to compulsive behaviour. In particular, hypofunctioning of monoaminergic systems and hyperfunctioning of glutamatergic systems may play a role in compulsive alcohol drinking. [source] High-Alcohol Preferring Mice Are More Impulsive Than Low-Alcohol Preferring Mice as Measured in the Delay Discounting TaskALCOHOLISM, Issue 7 2009B. G. Oberlin Background:, Repeated studies have shown that high impulsivity, when defined as the tendency to choose small immediate rewards over larger delayed rewards, is more prevalent in drug addicts and alcoholics when compared with nonaddicts. Assessing whether impulsivity precedes and potentially causes addiction disorders is difficult in humans because they all share a history of drug use. In this study, we address this question by testing alcohol-naïve mice from lines showing heritable differences in alcohol intake. Methods:, Replicated selected lines of outbred high-alcohol preferring (HAP) mice were compared to a low-alcohol preferring (LAP) line as well as the low-drinking progenitor line (HS/Ibg) on an adjusting amount delay discounting (DD) task. The DD task employs 2 levers to present subjects with a choice between a small, immediate and a large, delayed saccharin reward. By adjusting the quantity of the immediate reward up and down based on choice behavior, the task allows an estimate of how the subjective value of the delayed reinforcer decreases as delays increase. Latency to respond was also measured for each trial. Results:, Both HAP2 and HAP1 lines of mice were more impulsive than the LAP2 and HS/Ibg lines, respectively. Hyperbolic curve-fitting confirmed steeper discounting in the high-alcohol drinking lines. In addition, the high-alcohol drinking lines demonstrated greater within-session increases in reaction times relative to the low-alcohol drinking lines. No other differences (consumption of saccharin, total trials completed) consistently mapped onto genetic differences in alcohol drinking. Conclusions:, Alcohol-naïve outbred mice selected for high-alcohol drinking were more impulsive with saccharin reinforcers than low-alcohol drinkers. These data are consistent with results seen using inbred strain descendents of high-alcohol drinking and low-alcohol drinking rat lines, and suggest that impulsivity is a heritable difference that precedes alcoholism. [source] Behavioral Consequences of Repeated Nicotine During Adolescence in Alcohol-Preferring AA and Alcohol-Avoiding ANA RatsALCOHOLISM, Issue 2 2009Heidi Kemppainen Background:, Epidemiological studies suggest that exposure to nicotine at adolescent age is associated with increased potential to use alcohol and that genetic predisposition may further increase the risk. The present study addressed adolescent vulnerability to repeated nicotine exposure and its influence on subsequent ethanol self-administration by investigating interactions between nicotine-induced behavioral sensitization and voluntary ethanol consumption in alcohol preferring AA (Alko Alcohol) and alcohol nonpreferring ANA (Alko Non-Alcohol) rat lines selected for differential ethanol intake. Methods:, Adolescent and adult rats received 10 injections of nicotine (0.5 mg/kg s.c.), given every second day from postnatal day (Pnd) 27 and 75, respectively. Nicotine-induced (0.5 mg/kg) locomotor activity was measured acutely after the first injection, and after the repeated treatment with nicotine on Pnds 52 and 86 in the adolescent groups and on Pnd 99 in the adult groups. After this, acquisition of voluntary ethanol (10% v/v) consumption as well as nicotine-induced (0.5 mg/kg) ethanol intake was measured in the AA rats. Results:, Adolescent AA rats were more sensitive than adolescent ANA rats to the locomotor effects of nicotine. They were also stimulated more than adult AA rats, but such a difference was not found among ANA rats. Adolescent and adult rats did not differ in their susceptibility to nicotine-induced behavioral sensitization. Genetic predisposition to ethanol self-administration did not interact with development of behavioral sensitization in either adolescents or adults. Acquisition of ethanol intake was enhanced in the adolescent groups relative to the adult groups in a manner that was independent of the nicotine treatment. An increase in ethanol intake was found after challenging animals with nicotine, and this effect was enhanced in the nicotine-treated adolescent group. Conclusions:, These findings provide no or little support for the views that adolescent animals are more sensitive to the neurobehavioral effects of repeated exposure to nicotine and that exposure to nicotine in adolescence may contribute to enhanced vulnerability to ethanol abuse. Furthermore, genetic predisposition to high or low ethanol self-administration does not seem to be a factor that influences individual vulnerability to the neurobehavioral effects of repeated administration of nicotine. [source] Effects of CRF1 -Receptor and Opioid-Receptor Antagonists on Dependence-Induced Increases in Alcohol Drinking by Alcohol-Preferring (P) RatsALCOHOLISM, Issue 9 2008Nicholas W. Gilpin Background:, Selective breeding of rats over generations and induction of alcohol dependence via chronic vapor inhalation both enhance alcohol consumption in animal models. The purpose of this study was to determine whether dependence-induced increases in alcohol consumption by P rats is sensitive to naltrexone, a general opioid receptor antagonist (but with highest affinity at the ,-opioid receptor at low doses), and the recently characterized small molecule CRF1 -receptor antagonist MPZP (N,N -bis(2-methoxyethyl)-3-(4-methoxy-2-methylphenyl)-2,5-dimethyl-pyrazolo[1,5- a]pyrimidin-7-amine). Methods:, P rats (n = 20) were trained to respond for alcohol and water in a 2-lever operant situation during daily 30-minute sessions. P rats were then matched for alcohol intake and exposed to chronic intermittent alcohol vapor (n = 10) or ambient air (n = 10) for approximately 10 weeks. All rats were then administered MPZP and naltrexone in 2 separate and consecutive Latin-square designs. Results:, MPZP attenuated dependence-induced increases in alcohol intake by P rats while having no effect on alcohol consumption by nondependent controls. Conversely, operant alcohol responding was reduced similarly in dependent and nondependent P rats by naltrexone. Conclusions:, These results confirm a role for brain CRF1 -receptor systems in dependence-induced changes in the reinforcing properties of alcohol, and CRF1 -receptor blockade appears to suppress dependence-induced drinking at lower doses in P rats relative to other rat lines. Therefore, brain CRF1 -receptor systems are important in the regulation of dependence-induced alcohol consumption, whereas brain opioid systems are important in the regulation of basal alcohol consumption by rats. [source] Alcohol Consumption and the Body's Biological ClockALCOHOLISM, Issue 8 2005Rainer Spanagel This review summarizes new findings on the bidirectional interactions between alcohol and the clock genes, underlying the generation of circadian rhythmicity. At the behavioral level, both adult and perinatal ethanol treatments alter the free-running period and light response of the circadian clock in rodents; genetic ethanol preference in alcohol-preferring rat lines is also associated with alterations in circadian pacemaker function. At the neuronal level, it has been shown that ethanol consumption alters the circadian expression patterns of period (per) genes in various brain regions, including the suprachiasmatic nucleus. Notably, circadian functions of ,-endorphin,containing neurons that participate in the control of alcohol reinforcement become disturbed after chronic alcohol intake. In turn, per2 gene activity regulates alcohol intake through its effects on the glutamatergic system through glutamate reuptake mechanisms and thereby may affect a variety of physiological processes that are governed by our internal clock. In summary, a new pathologic chain has been identified that contributes to the negative health consequences of chronic alcohol intake. Thus, chronic alcohol intake alters the expression of per genes, and, as a consequence, a variety of neurochemical and neuroendocrine functions become disturbed. Further steps in this pathologic chain are alterations in physiological and immune functions that are under circadian control, and, as a final consequence, addictive behavior might be triggered or sustained by this cascade. [source] Spondylarthritis in HLA,B27/human ,2 -microglobulin,transgenic rats is not prevented by lack of CD8ARTHRITIS & RHEUMATISM, Issue 7 2009Joel D. Taurog Objective HLA,B27 predisposes to spondylarthritis by an unknown mechanism. A logical candidate mechanism is through recognition of B27 by CD8+ T cells. The purpose of this study was to examine the effects of a lack of CD8 on the spondylarthritis that develops in B27/human ,2 -microglobulin (Hu,2m),transgenic rats. Methods A missense mutation in the CD8a gene that causes a loss of CD8, expression was identified in offspring of a male Sprague-Dawley rat that had been treated with the mutagen N -ethyl- N -nitrosourea. The mutation was crossed into B27/Hu,2m-transgenic lines on the Lewis background. CD8a,/, and CD8a+/, progeny were compared on a mixed SD-LEW background as well as after at least 10 backcrosses to LEW rats. CD8 function was assessed by generating cytolytic T lymphocytes (CTLs) against allogeneic DA strain antigens. Results Homozygous mutant rats showed normal CD8a and CD8b messenger RNA levels but no detectable expression of either protein and an almost complete abrogation of the allogeneic CTL response. Two disease phenotypes previously observed in different B27/Hu,2m-transgenic lines also occurred in the respective CD8a,/, -transgenic rat lines. There was no significant difference in disease prevalence or severity between CD8a,/, rats and CD8a+/, rats. Conclusion All of the previously described disease manifestations in HLA,B27/Hu,2m-transgenic rats arise in the absence of any functional CD8+ T cells. It thus seems unlikely that classic T cell recognition of HLA,B27 is of primary importance in this animal model. The possibility of a secondary role of a CD8-dependent mechanism cannot be entirely excluded. [source] | ||||||||||