Browsing by Author "Czachowski, Cristine Lynn"
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Item Alcohol Preferring P Rats Exhibit Elevated Motor Impulsivity Concomitant with Operant Responding and Self-Administration of Alcohol(Wiley, 2016-05) Wesley Beckwith, Steven; Czachowski, Cristine Lynn; Psychology, School of ScienceBACKGROUND: Increased levels of impulsivity are associated with increased illicit drug use and alcoholism. Previous research in our laboratory has shown that increased levels of delay discounting (a decision-making form of impulsivity) are related to appetitive processes governing alcohol self-administration as opposed to purely consummatory processes. Specifically, the high-seeking/high-drinking alcohol-preferring P rats showed increased delay discounting compared to nonselected Long Evans rats (LE) whereas the high-drinking/moderate-seeking HAD2 rats did not. The P rats also displayed a perseverative pattern of behavior such that during operant alcohol self-administration they exhibited greater resistance to extinction. METHODS: One explanation for the previous findings is that P rats have a deficit in response inhibition. This study followed up on this possibility by utilizing a countermanding paradigm (stop signal reaction time [SSRT] task) followed by operant self-administration of alcohol across increasing fixed ratio requirements (FR; 1, 2, 5, 10, and 15 responses). In separate animals, 24-hour access 2-bottle choice (10% EtOH vs. water) drinking was assessed. RESULTS: In the SSRT task, P rats exhibited an increased SSRT compared to both LE and HAD2 rats indicating a decrease in behavioral inhibition in the P rats. Also, P rats showed increased operant self-administration across all FRs and the greatest increase in responding with increasing FR requirements. Conversely, the HAD2 and LE had shorter SSRTs and lower levels of operant alcohol self-administration. However, for 2-bottle choice drinking HAD2s and P rats consumed more EtOH and had a greater preference for EtOH compared to LE. CONCLUSIONS: These data extend previous findings showing the P rats to have increased delay discounting (decision-making impulsivity) and suggest that P rats also have a lack of behavioral inhibition (motor impulsivity). This supports the notion that P rats are a highly impulsive as well as "high-seeking" model of alcoholism, and that the HAD2s' elevated levels of alcohol consumption are not mediated via appetitive processes or impulsivity.Item Effect of GABRA2 expression in the central nucleus of the amygdala on anxiety and alcohol's anxiolytic capacity in C57BL/6J mice(2016) Smoker, Michael P.; Boehm, Stephen L.; Lapish, Christopher C.; Czachowski, Cristine Lynn; Grahame, Nicholas J.The GABRA2 gene, which encodes the α2 subunit of GABAA receptors, is one of the genes most frequently associated with alcohol-related behavior in human studies (Demers, Bogdan, & Agrawal, 2014). Polymorphisms in GABRA2 have been found to be associated with alcohol dependence, changes in drinking frequency, and alcohol’s stimulating and euphoric effects (Arias et al., 2014; Dick et al., 2014; Edenberg et al., 2004). However, the GABRA2-alcohol relationship may not be direct, as anxiety and impulsiveness have been found to be mediating factors (Enoch, Schwartz, Albaugh, Virkkunen, & Goldman, 2006; Villafuerte, Strumba, Stoltenberg, Zucker, & Burmeister, 2013). Comorbidity of anxiety and alcohol use disorders is both prevalent and clinically relevant (J. P. Smith & Randall, 2012), and GABAA receptors play a significant role in each. Benzodiazepines, primary pharmacologic treatments for anxiety disorders and alcohol withdrawal, facilitate signaling at GABAA receptors, and their anxiolytic effects appear to depend on the presence of α2 subunits in these receptors (Low et al., 2000). The amygdala is widely implicated in both anxiety disorders as well as addiction (Janak & Tye, 2015), and its central nucleus is an important mediator of responses to both alcohol- and stress-related stimuli (Roberto, Gilpin, & Siggins, 2012), some of which may be related to GABRA2 expression within this region (Jin et al., 2014). The aim of the current study was to explore the role of Gabra2 (mouse ortholog of GABRA2) expression within the central nucleus of the amygdala (CeA) in anxiety-related behavior and alcohol’s anxiolytic effects in mice. C57BL/6J (B6) mice underwent surgery for bilateral infusion of GFP-tagged lentivirus targeting Gabra2 or a scramble control lentivirus into the CeA. Following 12-13 days of recovery, mice were assessed for anxiety-like behavior in the elevated plus maze (EPM) naïve or following IP injection of 0, 0.75, or 1.5 g/kg ethanol. After assessment, brains were extracted and sectioned through the CeA. Finally, GFP was quantified, the CeA was collected via laser microdissection, and α2 protein was quantified via ELISA. In mice expressing GFP in the CeA, α2 protein concentrations were lower for Virus mice relative to Control mice. The EPM was anxiogenic, and alcohol was found to be anxiolytic. In naïve mice, while there was no difference between Control mice and Virus mice on any behavioral measure, there were significant correlations between CeA α2 protein concentration and time spent in closed arms as well as both total and average time spent in open arms. In mice receiving injection of 0, 0.75, or 1.5 g/kg ethanol, there was a main effect of dose on several behavioral measures, but no interaction between viral condition and dose, and only a main effect of viral condition on average time spent in closed arms. There were no significant correlations between CeA α2 protein concentration and behavioral measures within any injected dose. These results are consistent with GABRA2-anxiety associations and effects of Gabra2 manipulation on anxiety-like behavior. Furthermore, they suggest that CeA α2 protein concentration is positively related to basal anxiety, which could affect alcohol use through various routes. However, these results also suggest that CeA α2 protein concentration is not related to alcohol’s anxiolytic capacity, at least when acutely administered in alcohol-naïve animals.Item The effect of voluntary binge caffeine and ethanol co-exposure on neurobehavioral sensitivity to cocaine in male C57BL/6J mice(2016-05) Fritz, Brandon M.; Boehm, Stephen L., II; Czachowski, Cristine Lynn; Kinzig, Kimberly; Engleman, Eric A.; Grahame, Nicholas J.Recently, the co-consumption of highly caffeinated energy drinks and alcohol has become a public health concern. Consumption of these beverages has been linked to a wide variety negative consequences including alcohol poisoning, driving under the influence, physical harm, and sexual violence. The more protracted consequences of caffeinated alcohol consumption have received very little attention, however. Some evidence suggests that individuals that frequently consume energy drinks mixed with alcohol are more likely to develop an alcohol use disorder. Interestingly, both caffeine and alcohol use alone have been linked to polydrug abuse. It is therefore of interest whether combined caffeine and alcohol consumption may pose an additive risk for substance abuse. Given that both compounds can positively influence dopamine signaling in mesolimbocortical reward circuitry via different mechanisms, this is an important question to address. Psychostimulants, such as cocaine, are of particular interest considering the significant involvement of dopamine in their effects. The current project explored this possibility employing an established mouse model of binge caffeine and alcohol co-consumption. Male C57BL/6J mice underwent 14 days of daily, 2hr limited access to water, alcohol, caffeine, or combined caffeine and alcohol. Water was freely available after these sessions. In Experiment 1, mice underwent an 11-day locomotor sensitization protocol for cocaine initiating on day 15. Locomotor sensitization has been associated with a greater propensity to self-administer psychostimulants in rodents. Mice were subjected to injections of cocaine (5 or 10 mg/kg; i.p.) or saline every other day, with 15 minute activity monitoring until day 25. In Experiment 2, a separate group of mice underwent an identical drinking procedure. A conditioned place preference (CPP) protocol commenced on day 15. CPP assesses the conditioned rewarding effects of cues associated with drugs of abuse. On day 15, mice received saline injections and were immediately placed onto a neutral floor texture (paper) in the place conditioning box for 15 minutes in order to habituate the animals to the apparatus and injection procedure. Starting on day 16, mice received daily alternating systemic injections of cocaine (1 or 5 mg/kg; i.p.) and saline or saline throughout (naïve controls) and were placed onto one of two particular tactile floor cues: a metal floor with holes punched out or a grid floor made of metal rods. Mice were exposed to the other injection/floor pairing on the alternate days. Mice were placed into these activity monitors for 15 minute conditioning sessions. These sessions alternated drug and vehicle over the course of 8 days so that a total of 4 drug and 4 saline injections were given. The first place preference test occurred on day 24 wherein all mice were injected with saline and offered access to both floor textures. On day 25, mice were returned to the conditioning protocol for another 8 days and a second CPP test on day 33. The results of Experiment 1 suggested that prior caffeine consumption, irrespective of the presence of ethanol, enhanced the initial psychomotor stimulating effect of 10 mg/kg cocaine. However, prior fluid consumption history did not influence the capacity to develop locomotor sensitization. The results of Experiment 2 indicate that prior caffeine and/or ethanol consumption had no influence on the development or expression of CPP for 1 mg/kg or 5 mg/kg cocaine. Collectively, these results suggest that a history of caffeine consumption may increase the stimulant response to a moderate dose of cocaine, perhaps indicating cross-sensitization. Although the conditioned rewarding effects of cocaine were not altered by prior caffeine and/or ethanol consumption, an enhanced stimulant response may be indicative of enhanced cocaine abuse potential. This study demonstrates that moderate caffeine consumption may influence an individual’s early interactions with cocaine which may eventually influence the likelihood of later problematic use.Item Ethanol pre-exposure does not increase delay discounting in P rats, but does impair the ability to dynamically adapt behavioral allocation to changing reinforcer contingencies(Elsevier, 2019-12) Beckwith, Steven Wesley; Czachowski, Cristine Lynn; Psychology, School of ScienceIncreased subjective discounting of delayed rewards is associated with substance abuse, and individuals tend to discount their drug of choice at a greater rate compared to monetary rewards. While there is evidence indicating that increased delay discounting (DD) is a risk factor for substance abuse, some results suggest that exposure to drugs of abuse also increases DD, but effects are mixed. The current study examined whether ethanol pre-exposure increases DD and if an ethanol reinforcer would be discounted at a greater rate than sucrose. Alcohol preferring (P) rats were pre-exposed to either ethanol or sucrose using an intermittent access protocol (IAP) for 8 weeks. Then animals completed an operant fixed choice procedure where each pre-exposure group was split into either an ethanol or sucrose reinforcer group. Afterwards, animals completed an adjusting delay DD task using the same groups as the fixed choice task. Animals that received access to ethanol in the IAP showed increased delayed reward preference in a delay and session dependent manner. Specifically, ethanol pre-exposed animals took more sessions to decrease their preference for the delayed reward at longer delays. In the adjusting delay task, no differences in mean adjusting delays were seen, but ethanol pre-exposure impaired animals' ability to reach stability criteria. The observed results are not consistent with ethanol pre-exposure causing a change in DD. Rather they indicate ethanol pre-exposure impaired animals' ability to reallocate their behavior in response to a change in reinforcer contingencies. The current findings extend prior results showing alcohol naïve P rats exhibit both increased DD and decreased response inhibition (Beckwith and Czachowski 2014, 2016) by demonstrating that after alcohol exposure they exhibit a form of behavioral inflexibility. Hence, a "two-hit" genetic vulnerability/environmental acceleration of addictive behavior is supported.Item Increased delay discounting tracks with a high ethanol-seeking phenotype and subsequent ethanol seeking but not consumption(Wiley Online Library, 2014-10) Beckwkith, Steven Wesley; Czachowski, Cristine Lynn; Department of Psychology, School of ScienceBACKGROUND: Increased levels of delay discounting have been associated with alcoholism and problematic levels of drinking. Attempts to assess the directionality of this relationship by studying individuals with a family history of alcoholism as well as rodent lines selectively bred for high home cage alcohol preference have yielded discordant results. One possible reason for this discordance is that increased levels of delay discounting may only track with specific processes that lead to addiction vulnerability. This study investigated this possibility by assessing 3 strains of rats previously identified to exhibit heritable differences in ethanol (EtOH) seeking and consumption. METHODS: In an adjusting amount delay discounting task, alcohol-preferring (P) rats who display high levels of both EtOH seeking and consumption were compared to high alcohol-drinking (HAD2) rats who only exhibit moderate EtOH seeking despite high levels of consumption, and Long Evans (LE) rats who display moderate seeking and consumption. EtOH-seeking and consumption phenotypes were subsequently confirmed in an operant self-administration task with a procedural separation between EtOH seeking and drinking. RESULTS: P rats discounted delayed rewards to a greater extent than both HAD2s and LE who did not show differences in discounting. Moreover, the EtOH-seeking and drinking phenotypes were replicated with P rats displaying greater EtOH seeking compared to both the HAD2s and LE, and both the HAD2s and P rats consuming more EtOH than LEs. CONCLUSIONS: Only the high-seeking strain, the P rats, exhibited increased levels of delay discounting. This suggests that this measure of behavioral under-control is specifically associated with alcohol-related appetitive, but not consummatory, processes as the moderate seeking/high drinking line did not show increased levels of impulsivity. This finding supports the hypothesis that delay discounting is specifically associated with only certain processes which are sufficient but not necessary to confer addiction vulnerability and therefore also supports increased levels of delay discounting as a predisposing risk factor for alcoholism.Item Pharmacological Modulation of Habit Expression(2016-08-17) Houck, Christa A.; Grahame, Nicholas J.; Czachowski, Cristine Lynn; Goodlett, Charles R.Habit expression is emerging as a theory of addiction: subjects begin to use drugs to attain positive reinforcing effects but continue to use in spite of negative effects because the behavior becomes habitual, and therefore divorced from its outcome. Many studies have shown that a history of drug and alcohol use lead to expedited acquisition of a habit, but the acute effects of these drugs on behavior is still unknown. Behaviors that result from acute intoxication, such as increased aggression, risky sexual behavior, and impaired judgment, could be interpreted as habitual: actions performed without regard for the outcome. Therefore, we studied the transition from goal-directed to habitual behavior, when a response is made regardless of outcome value, and how acute intoxication of ethanol (EtOH), amphetamine (AMP), nicotine (NIC), and yohimbine (YOH) affect the resulting behavior. Through a series of four experiments, selectively bred crossed High Alcohol Preferring (cHAP) mice were trained on an operant task to self-administer 1% banana solution, which was subsequently devalued via LiCl CTA. EtOH (1 & 1.5 g/kg), AMP (2.0 mg/kg), NIC (0.5 mg/kg), YOH (1.0 mg/kg), or SAL were administered prior to baseline and post-devaluation tests. We found that acute EtOH at 1- and 1.5-g/kg doses facilitated the expression of a habit, whereas all other pretreatments resulted in devaluation. These data may indicate a unique role for EtOH in facilitating the retrieval of habitual over outcome-based associations. This could shed light on why intoxicated individuals display impaired judgment and a mechanism by which relapse after a period of abstinence can occur.