Browsing by Author "Grahame, Nicholas"
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Item Assessing Motivational and Associative Learning Mechanisms Underlying Compulsive Drinking(2021-08) Carron, Claire R.; Grahame, Nicholas; Czachowski, Cristine; Lapish, Christopher; Hopf, FredricContinued consumption of alcohol despite the knowledge of negative consequences is a hallmark of alcohol use disorder (AUD), yet much remains unknown about what motivates these behaviors. Compulsive drinking may require motivational resources that are not necessary when drinking in unchallenged conditions in order to counteract the addition of these negative consequences. Increased sensitivity to drug-paired stimuli via associative learning processes may provide this additional motivation. To evaluate if alcohol-paired stimuli enhance alcohol seeking, selectively bred crossed High Alcohol Preferring mice experienced Pavlovian conditioning procedures with an alcohol unconditioned stimulus. We hypothesized that after repeated pairings, alcohol cues would elicit seeking conditioned responses. Then, to determine if the motivation provided by these cues influenced responding, mice were trained to respond for alcohol and tested in the presence of alcohol cues. Finally, to test if alcohol-paired cues influence compulsive drinking, this same test was repeated with the addition of response-contingent footshock. We hypothesized the cue paired with alcohol would increase responding for alcohol in unchallenged conditions, but especially in challenged conditions, contributing to compulsivity. An auditory stimulus paired with alcohol did elicit enhanced seeking responses, but contrary to hypothesis, we observed no effect of these same cues on instrumental responding. To validate these findings, training and testing procedures must be optimized to ensure conditioning has properly occurred and compulsivity is being appropriately measured.Item Chronic free-choice drinking in crossed HAP (cHAP) mice leads to sustained blood ethanol levels and metabolic tolerance without evidence of liver damage(Wiley, 2013-02) Matson, Liana; Liangpunsakul, Suthat; Crabb, David; Buckingham, Amy; Ross, Ruth Ann; Halcomb, Meredith; Grahame, Nicholas; Department of Psychology, School of ScienceBackground Crossed High Alcohol Preferring (cHAP) mice were selectively bred from a cross of the HAP1xHAP2 replicate lines, and demonstrate blood ethanol concentrations (BECs) during free-choice drinking that are reminiscent of those observed in alcohol-dependent humans. Therefore, this line may provide an unprecedented opportunity to learn about the consequences of excessive voluntary ethanol consumption, including metabolic tolerance and liver pathology. Cytochrome p450 2E1 (CYP 2E1) induction plays a prominent role in driving both metabolic tolerance and ethanol-induced liver injury. In this report, we sought to characterize cHAP drinking by assessing whether pharmacologically relevant BEC levels are sustained throughout the active portion of the light-dark cycle. Given that cHAP intakes and BECs are similar to those observed in mice given an ethanol liquid diet, we assessed whether free-choice exposure results in metabolic tolerance, hepatic enzyme induction, and hepatic steatosis. Methods In Experiment 1, blood samples were taken across the dark portion of a 12:12 light-dark cycle to examine the pattern of ethanol accumulation in these mice. In Experiments 1 and 2, mice were injected with ethanol following 3–4 weeks of access to water or 10% ethanol and water, and blood samples were taken to assess metabolic tolerance. In Experiment 3, 24 mice had 4 weeks access to 10% ethanol and water or water alone, followed by necropsy and hepatological assessment. Results In experiment 1, cHAP mice mean BEC values exceeded 80 mg/dl at all sampling points, and approached 200 mg/dl during the middle of the dark cycle. In experiments 1 and 2, ethanol-exposed mice metabolized ethanol faster than ethanol-naïve mice, demonstrating metabolic tolerance (p < .05). In experiment 3, ethanol-drinking mice showed greater expression of hepatic CYP 2E1 than water controls, consistent with the development of metabolic tolerance (p < .05). Ethanol access altered neither hepatic histology nor levels of ADH and ALDH. Conclusions These results demonstrate that excessive intake by cHAP mice results in sustained BECs throughout the active period, leading to the development of metabolic tolerance and evidence of CYP 2E1 induction. Together these results provide additional support for the cHAP mice as a highly translational rodent model of alcoholism.Item Determining the Impact of Repeated Binge Drinking on Corticostriatal Theta Synchrony(2020-12) Ardinger, Cherish; Lapish, Christopher; Grahame, Nicholas; Linsenbardt, DavidThe development of alcohol use disorder (AUD) is believed to involve functional adaptations in corticostriatal projections which regulate the reinforcing properties of ethanol (EtOH). To further our understanding of how repeated EtOH consumption impacts the corticostriatal circuit, extracellular electrophysiological recordings (local field potentials; LFPs) were gathered from the nucleus accumbens and prefrontal cortex of female and male C57BL/6J mice voluntarily consuming EtOH or water using ‘drinking-in-the-dark’ (DID) procedures. Mice were given 15 consecutive days of two-hours of access to EtOH (20% v/v), three hours into the dark cycle while LFPs were recorded. To determine the impact of repeated EtOH consumption on neural activity between these brain regions, theta phase-locking value (PLV, a measure of synchrony) was calculated. Specifically, theta PLV was calculated during active drinking periods (bouts) and average PLV during the first bout was compared to the last bout to determine within session changes in synchrony. Results indicated significantly lower PLV during the last bout than the first bout. Additionally, longer bouts predicted lower PLV during the last bout, but not the first bout when mice were consuming EtOH. These results may suggest that alcohol intoxication decreases corticostriatal synchrony over a drinking period. Results considering changes in theta power spectral density (PSD) indicated an increase in PSD when mice were given access to water during the typical EtOH access time following the 15-day EtOH drinking history. This effect was not seen when mice were drinking water prior to EtOH access and may be indicative of a successive negative contrast effect. This work identifies unique functional characteristics of corticostriatal communication associated with binge-like EtOH intake and sets the stage for identifying the biological mechanisms subserving them.Item Effect of Drinking History on Reinforced and Extinction Responding in Crossed High Alcohol-Preferring Mice(2022-12) Winkler, Garrett; Grahame, Nicholas; Lapish, Christopher; Logrip, MarianTolerance is a diagnostic criterion for alcohol use disorder (AUD) and dependence and is often measured metabolically or behaviorally by comparing blood ethanol concentrations (BEC) or locomotor performance to an ethanol (EtOH) challenge before and after a drinking history, respectively. To explore another aspect of chronic behavioral tolerance in a family history positive (FH+) model of AUD, crossed High Alcohol Preferring (cHAP) mice were allowed to respond instrumentally for an EtOH reinforcer after either a five-week history of continuous home cage two-bottle choice (2BC) drinking or a concurrent five-week water-drinking period. Additionally, some of these animals were placed back into the operant box after home cage drinking histories to respond in extinction, allowing for the quantification of alcohol-motivated seeking alone in the absence of EtOH taking and its intoxicating effects. The results demonstrate that an alcohol history does not lead to a subsequent increase in active lever responding or inactive lever responding when compared to water-drinking controls. However, female cHAP mice with an EtOH-drinking history respond more on the inactive lever in extinction compared to water controls, suggesting that home cage EtOH history potentiates variation in responding in extinction. Overall, female mice responded more on the active lever and drank more alcohol in the reinforced condition, but again, there was not an effect of drinking history on this sex-specific effect. Together these results suggest that while female cHAPs, regardless of drinking history, are more motivated to work to drink EtOH, reinforced and non-reinforced instrumental responding are not reliable readouts for tolerance in cHAP mice compared to other endpoints such as drinking in the dark (DID) assays.Item THE EFFECT OF ETHANOL ON IMPULSIVITY IN HIGH ALCOHOL PREFERRING MICE(2010-07-21T20:19:33Z) Oberlin, Brandon G.; Grahame, Nicholas; Fetterman, J. Gregor; Kareken, David; McBride, William J.Impulsivity is associated with addiction in many human studies. Delay discounting (DD) is often used to measure impulsive choice in humans and animals. In DD testing, a small immediate reward is pitted against a larger delayed reward, and relative preference is assessed. The relative contribution of ethanol to impulsivity in alcoholism is not well-understood, therefore I will test the hypothesis that ethanol exposure will increase impulsivity in High Alcohol Preferring (HAP) mice as measured in an adjusting amount DD task. Selectively bred HAP mice were exposed to ethanol and tested in DD in 3 different experiments. Experiment 1: ad lib homecage ethanol drinking for 21 days and 17 days were used to expose mice to ethanol. Additionally, mice were tested in DD while “currently drinking” vs. “abstinent”. In experiment 2, to achieve higher blood alcohol concentrations, mice were injected with 3.5 g/kg ethanol 8 times and tested before and after in DD. In both experiments 1 and 2, mice were tested at only 2 delays (0.5 sec and 10 sec), to maximize sensitivity to detect shifts in choice behavior. In experiment 3, mice responded for 8% ethanol or 0.01% saccharin at a full range of delays: 0, 1, 2, 4, and 8 sec. Experiment 1 did not reveal any impact of ethanol drinking on impulsivity. Experiment 2 revealed a strong trend of reduced impulsivity in the 10 sec delay group after ethanol injections. Experiment 3 revealed reduced impulsivity at the 8 sec delay in the group responding for ethanol, and also revealed a significant correlation between higher ethanol drinking and reduced impulsivity. These data were unexpected, and imply that the a priori hypothesis not only should be rejected, but that the opposite hypothesis may be true: ethanol decreases impulsivity, at least with high dose exposure and in responding for it as a reinforcer. This effect was similar to the effect observed in other studies with amphetamine, which consistently decreases impulsivity. Ethanol may have been exerting an amphetamine-like effect on impulsivity at the doses tested here. There is no evidence in the data generated in these studies that ethanol increases impulsivity.Item Effects of the Selective PDE4B Inhibitor TDP-003 on Ethanol Consumption(Office of the Vice Chancellor for Research, 2014-04-11) Despard, Jessica Lee; Grahame, Nicholas; Halcomb, MeredithAlcoholism is a disease that affects about 18 million Americans. Inhibition of drinking behavior can help develop better therapeutic and medical treatments to these people. Phosphodiesterase-4 (PDE4) is an enzyme that helps breakdown cAMP, which in turn decrease alcohol consumption. cHAP mice are known to have a unique strong preference to ethanol. However, it is not yet known whether or not this relatively new strain of mice are affected by known agonists and antagonist neurotransmitters that reduce ethanol consumption in cousin strains. cHAP mice were used in this particular study due to their unique genetic make-up of having an above average preference to ethanol. The mice were trained for ethanol preference for two weeks. Once the cHAPs obtained stable ethanol consumption, the drug TDP-003, which contains the PDE4B subtype inhibitor, was administered in the morning with interval ethanol and water consumption readings every two hours from the time of injection. TDP-003 was given in three separate doses; 0.03ml, 0.1ml, and a 0.3ml mg/k along with a vehicle dose, which served as a control. Once data was collected and analyzed, it was found that there was not a significant effect in the amount of ethanol the cHAPs were consuming with the drug. In order to ensure that this result was not due to an experimental methods design error, the cHAPs were ran for another week on stable ethanol consumption and then injected with rolipram to see if a positive effect occurred. Rolipram is also a PDE4 inhibitor; predominantly affecting the PDE4B subtype. cHAPS were given three separate doses of rolipram, a 0.1ml, 0.25ml, and a 0.5ml mg/k dose, along with a vehicle dose. Once again, there were no significant differences in the amount of ethanol consumption that was consumed; thus implying that TDP-003 did not work.Item Evaluating Sex and Line Differences in Successive Negative Contrast and Ethanol Consumption Using Alcohol Preferring and High Alcohol Drinking Rats(2023-12) Smith, Nicholle; Czachowski, Cristine; Grahame, Nicholas; Logrip, MarianA loss of a job or relationship are a few examples of unexpected reward loss. Life events such as these can induce negative emotional reactions (e.g., anxiety and stress) which have been associated with increased drinking and in turn, an increased risk of developing an alcohol use disorder (AUD) (Keyes et al., 2011, Sinha, 2008). The present study used a consummatory successive negative contrast (SNC) procedure to demonstrate unexpected reward loss reactivity in two lines selectively bred to consume high amounts of ethanol, alcohol preferring (P) and high alcohol drinking (HAD) rats. Following this reward loss, animals were given free access to ethanol to determine if ethanol consumption would increase to negate any negative emotional reaction provoked by this loss. P rats demonstrated a longer contrast effect than HAD rats, indicated by a longer recovery time following the downshift in reward. Conversely, HAD males did not demonstrate a contrast effect following this downshift in reward. Surprisingly, P rats who experienced a loss of reward consumed significantly less ethanol than animals who did not. Lastly, an individual measure of contrast size, or shift ratio, was significantly associated with greater ethanol consumption in HAD males only, who did not display a contrast effect. These data indicate different reactivity to SNC between these two lines and sexes, suggesting different genetic and sex-related mechanisms underlying sensitivity to an unexpected loss of reward.Item Examining Simultaneous Alcohol and ∆9-Tetrahydrocannabinol Self-Administration on Behavioral Flexibility and Dorsal Striatal CB1 Expression in cHAP Mice(2020-08) Millie, Lauren A.; Grahame, Nicholas; Boehm, Stephen; Logrip, Marian; Mackie, KenAlthough marijuana and alcohol are two of the most commonly used drugs in the United States, relatively little is understood about how these drugs interact to effect drug use, cognitive behaviors, and neurophysiological changes. Specific drug use patterns such as simultaneous use may produce differential effects for consumption and other behaviors in addition to unique neurobiological changes compared to singular drug use. In order to better understand the effects of simultaneous alcohol and marijuana (SAM) use, we used the selectively bred crossed High Alcohol Preferring mice to examine consummatory, cognitive, and neurobiological changes following chronic alcohol and THC self-administration. We hypothesized that SAM mice would consume more drug than animals exposed to either substance alone. We used an operant behavioral flexibility paradigm to assess cognitive impairments believing that drug-exposed animals would show deficits relative to Control animals, with SAM mice being the most impaired of all drug conditions. Finally, we assessed CB1 receptor changes in the dorsal striatum, as this region is critical for behavioral flexibility (Bissonette & Powell, 2012; Ragozzino, 2007), CB1 receptors are the primary target of THC and these receptors are involved in numerous alcohol related behaviors (Maldonado et al., 2006; Pava & Woodward, 2012). Contrary to our hypothesis, SAM animals did not consume higher levels of drug compared to mice exposed to only THC or alcohol. Interestingly, female THC consumption was robust when THC was consumed alone but was reduced when simultaneous access to alcohol was available. Surprisingly, although we speculated that drug-exposed mice would be impaired compared to Control animals, and that SAM animals would likely be more compromised than THC and alcohol for Reversal Learning and Attentional Set-Shifting respectively, behavioral flexibility deficits were absent in our paradigm. Finally, alterations to dorsal striatal CB1 receptor expression were observed following a Short Abstinence period. Despite an absence of cognitive behavioral effects, this research contributes to furthering our understanding of co-drug use for consummatory and neurobiological changes, both of which are critically necessary given the evolving landscape surrounding simultaneous alcohol and recreational marijuana use.Item Externalizing Disorders : Genetics or Prenatal Alcohol Exposure?(2018-12) Wetherill, Leah; Goodlett, Charles; Grahame, Nicholas; Foroud, Tatiana; Mattson, Sarah; Neal-Beliveau, BethanyIntroduction: Externalizing disorders such as attention deficit hyperactivity disorder (ADHD), conduct disorder (CD), and oppositional defiant disorder (ODD) have a high prevalence rate in both children of alcoholics and in those with prenatal alcohol exposure (PAE). These disorders are also predictors of alcohol dependence (alcdep), heritable, and share an underlying genetic liability with alcdep. Furthermore, a mother who drinks while pregnant is likely to be alcohol dependent (AD), and vice-versa. This study incorporated these factors into one model, including as well as a measure of broad genetic risk for ADHD and alcdep to test for the contributions of these effects simultaneously. An independent sample was used to confirm the results for PAE and broad genetic risk. The hypothesis is that PAE will increase the risk to ADHD but not to CD or ODD. Methods: Each of these factors was evaluated independently to test if that effect on its own, significantly contributed to each disorder. Another model included several demographic covariates, to determine which of these environmental effects also contributed to the disorder. The final model for each disorder included environmental effects along with the primary effects of interest. Results: PAE resulted in increased risk for the inattentive (INATT) sub-type of ADHD and conduct disorder (CD) in the discovery sample and for the hyperactive-impulsive (HYPIMP), INATT and CD in the replication sample. PAE and the PAE*maternal alcohol dependence interaction increased the risk for ADHD and INATT. A broad genetic risk for ADHD was associated with all disorders except HYPIMP in the replication sample. Conclusion: This study further supports the trending evidence of a unique etiology of ADHD in those with PAE, and more specifically, that INATT and HYPIMP are affected according to two different mechanisms of action, independent of a genetic contribution due to either ADHD or alcohol dependence, both of which also were associated with a risk for INATT. The contribution of PAE to INATT and CD were the only consistent results across all definitions of alcohol exposure and in both datasets, indicating that PAE is a veritable risk for INATT and CD.Item Habit Formation: Implications for Alcoholism Research(Elsevier B.V., 2014-06) O’Tousa, David; Grahame, Nicholas; Department of Psychology, School of ScienceCharacteristics of individuals with severe alcohol use disorders include heightened cue sensitivity, compulsive seeking, craving, and continued alcohol use in the face of negative consequences. Animal models are useful for understanding behavioral and neurological mechanisms underlying problematic alcohol use. Seeking of operant reinforcers including alcohol is processed by two mechanisms, commonly referred to as “goal-directed” (action-outcome) and “habitual” (stimulus-response). As substance use disorders are characterized by continued use regardless of unfavorable outcomes, it is plausible that drug use causes an unnatural disruption of these mechanisms. We present a critical analysis of literature pertaining to behavioral neuroscience alcoholism research involving habit formation. Traditionally, when operant behavior is unaffected by a loss of subjective value of a reinforcer (devaluation), the behavior is considered habitual. Acquisition of instrumental behavior requires corticostriatal mechanisms that depend heavily on the prefrontal cortex and ventral striatum, whereas practiced behavior is more predominantly controlled by the dorsal striatum. Dopaminergic signaling is necessary for the neurological adaptations involved in stimulus-response action, and drugs of abuse appear to facilitate habitual behavior through high levels of dopamine release. Evidence suggests that the use of alcohol as a reinforcer expedites habit formation, and that a history of alcohol use produces alterations in striatal morphology, aids habit learning for non-psychoactive reinforcers, and promotes alcohol drinking despite aversive adulterants. In this review, we suggest directions for future alcoholism research that seeks to measure action made despite a devalued outcome, including procedural modifications and genotypic, pharmacological, or neurological manipulations. Most alcoholism models currently in use fail to reach substantial blood ethanol concentrations, a shortcoming that may be alleviated through the use of high-drinking rodent lines. Additionally, satiety, one common mechanism of devaluing reinforcers, is not recommended for alcohol research because the psychoactive effects of alcohol depress response rates, mimicking devaluation effects. Overall, further research of habit formation and potentially related perseverative behaviors could be invaluable in discovering genetic variance, traits that correlate with persistent alcohol seeking, implicated neural structures and processes of alcohol use, and eventually novel pharmacological treatment for alcoholism.