Browsing by Author "Boehm, Stephen L., II."

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    Altered excitatory transmission in striatal neurons after chronic ethanol consumption in selectively bred crossed high alcohol-preferring mice
    (Elsevier, 2021) Rangel-Barajas, Claudia; Boehm, Stephen L., II.; Logrip, Marian L.; Psychology, School of Science
    Genetic predisposition to heavy drinking is a risk factor for alcohol misuse. We used selectively bred crossed high alcohol-preferring (cHAP) mice to study sex differences in alcohol drinking and its effect on glutamatergic activity in dorsolateral (DLS) and dorsomedial (DMS) striatum. We performed whole-cell patch-clamp recording in neurons from male and female cHAP mice with 5-week alcohol drinking history and alcohol-naïve controls. In DMS, alcohol-naïve males' neurons displayed lower cell capacitance and higher membrane resistance than females' neurons, both effects reversed by drinking. Conversely, in DLS neurons, drinking history increased capacitance only in males and changed membrane resistance only in females. Altered biophysical membrane properties were accompanied by disrupted glutamatergic transmission. Drinking history increased spontaneous excitatory postsynaptic current (sEPSC) amplitude in DMS and frequency in DLS female neurons, compared to alcohol-naïve females, without effect in males. Acute ethanol differentially impacted DMS and DLS neurons by sex and drinking history. In DMS, acute alcohol significantly increased sEPSC frequency only in neurons from alcohol-naïve females, an effect that disappeared after drinking history. In DLS, acute alcohol had opposing effects in males and females based on drinking history. Estrous cycle also impacted DMS and DLS neurons differently: sEPSC amplitudes were higher in DMS cells from drinking history than alcohol-naïve females, whereas estrous cycle, not drinking history, modified DLS firing rate. Our data show sex differences in cHAP ethanol consumption and neurophysiology, suggesting differential dysregulation of glutamatergic drive onto DMS and DLS after chronic ethanol consumption.
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    Attentional set shifting in HAP3, LAP3, and cHAP mice is unaffected by either genetic differences in alcohol preference or an alcohol drinking history
    (American Psychological Association, 2020-08) Millie, Lauren A.; Boehm, Stephen L., II.; Grahame, Nicholas J.; Psychology, School of Science
    Alcohol consumption may precede, or result from, behavioral inflexibility and contribute to individuals' difficulties ceasing drinking. Attentional set shifting tasks are an animal analog to a human behavioral flexibility task requiring recognition of a previous strategy as inappropriate, and the formation and maintenance of a novel strategy (Floresco, Block, & Tse, 2008). Abstinent individuals with alcohol use disorder, nonalcoholic individuals with a family history of alcoholism, and mice exposed to chronic-intermittent alcohol vapor show impaired behavioral flexibility (Gierski et al., 2013; Hu, Morris, Carrasco, & Kroener, 2015; Oscar-Berman et al., 2009). Behavioral flexibility deficits can be linked to frontal cortical regions connected to the striatum (Ragozzino, 2007), and alterations to the endocannabinoid system, implicated in drug seeking and consumption (Economidou et al., 2006; Serrano & Parsons, 2011), may affect these behaviors. Alcohol-preferring and nonpreferring rodents exhibit differences in CB1 receptor expression (CB1R; Hansson et al., 2007; Hungund & Basavarajappa, 2000), but whether dorsal striatal CB1Rs are important for other alcohol-related behaviors such as attentional set shifting tasks remains unclear. This study assesses whether selectively bred high (HAP) versus low alcohol-preferring mice differ in an operant attentional set shifting task or CB1R levels in the dorsal striatum and whether a history of voluntary alcohol consumption in crossed HAP mice exacerbates inflexibility. Contrary to our hypothesis, neither genetic differences in alcohol preference nor drinking affected set shifting. However, high alcohol-preferring mice-3 mice showed reduced levels of dorsal striatal CB1R compared with low alcohol-preferring-3 mice, suggesting that genetic differences in alcohol consumption may be mediated in part by striatal CB1R.
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    Systemic Administration of the AMPA Receptor Antagonist, NBQX, Reduces Alcohol Drinking in Male C57BL/6J, but not Female C57BL/6J or High Alcohol Preferring (HAP) Mice
    (Wiley, 2020-11) Bauer, Meredith R.; Garcy, Daniel P.; Boehm, Stephen L., II.; Psychology, School of Science
    Background: α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors are ionotropic glutamate receptors that have been investigated for their role in modulating alcohol consumption. However, little is known about the role of AMPA receptors in the control of binge-like or free-access alcohol drinking in C57BL/6J or in selectively bred high-alcohol-preferring (HAP) mice. The purpose of this experiment was to assess the role of systemic administration of the AMPA receptor antagonist, 2,3-dioxo-6-nitro-7-sulfamoyl-benzo[f]quinoxaline (NBQX), on alcohol consumption using a model of binge-like drinking, drinking in the dark (DID) and free-access 2-bottle choice (2BC) in male and female C57BL/6J and HAP mice. Methods: C57BL/6J mice were allowed free access to 20% (v/v) alcohol for 2 hours each day beginning 3 hours into the dark cycle for 4 days. On day 5, mice were intraperitoneally injected with one of 4 doses of NBQX (0, 3, 10, or 30 mg/kg; n = 10) 15 minutes before alcohol presentation and were given 4-hour alcohol access (extended DID). HAP mice were given 24-hour free access to 10% (v/v) alcohol and water for 19 days. On day 20, mice were intraperitoneally injected with one of 4 doses of NBQX (0, 3, 10, or 30 mg/kg; n = 9) 15 minutes before alcohol and water presentation. Results: In the first 2 hours of DID, at 30 mg/kg, male, but not female C57BL/6J or HAP, mice drank significantly less alcohol compared with controls and 30 mg/kg NBQX did not alter saccharin intake in the males. Although male HAP mice drank significantly less alcohol than female mice following 10 mg/kg NBQX, neither sex exhibited drinking that differed significantly from controls. NBQX did not reduce locomotor behavior at any dose, sex, or genotype. Conclusions: These data suggest that AMPA receptors play a key role in modulating binge-like alcohol consumption without altering saccharin consumption or general locomotion and that this effect is specific to sex and genotype.
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    Three Weeks of Binge Alcohol Drinking Generates Increased Alcohol Front-Loading and Robust Compulsive-Like Alcohol Drinking in Male and Female C57BL/6J Mice
    (Wiley, 2021-03) Bauer, Meredith R.; McVey, Megan M.; Boehm, Stephen L., II.; Psychology, School of Science
    Background: Current models of compulsive-like quinine-adulterated alcohol (QuA) drinking in mice, if improved, could be more useful for uncovering the neural mechanisms of compulsive-like alcohol drinking. The purpose of these experiments was to further characterize and improve the validity of a model of compulsive-like QuA drinking in C57BL/6J mice. We sought to determine whether compulsive-like alcohol drinking could be achieved following 2 or 3 weeks of Drinking-in-the-Dark (DID), whether it provides evidence for a robust model of compulsive-like alcohol drinking by inclusion of a water control group and use of a highly concentrated QuA solution, whether repeated QuA exposures alter compulsive-like drinking, and whether there are sex differences in compulsive-like alcohol drinking. Methods: Male and Female C57BL/6J mice were allowed free access to either 20% alcohol or tap water for 2 hours each day for approximately 3 weeks. After 2 or 3 weeks, the mice were given QuA (500 μM) and the effect of repeated QuA drinking sessions on compulsive-like alcohol drinking was assessed. 3-minute front-loading, 2 hour binge-drinking, and blood alcohol concentrations were determined. Results: Compulsive-like QuA drinking was achieved after 3 weeks, but not 2 weeks, of daily alcohol access as determined by alcohol history mice consuming significantly more QuA than water history mice and drinking statistically nondifferent amounts of QuA than nonadulterated alcohol at baseline. Thirty-minute front-loading of QuA revealed that alcohol history mice front-loaded significantly more QuA than water history mice, but still found the QuA solution aversive. Repeated QuA exposures did not alter these patterns, compulsive-like drinking did not differ by sex, and BACs for QuA drinking were at the level of a binge. Conclusions: These data suggest that compulsive-like QuA drinking can be robustly achieved following 3 weeks of DID and male and female C57BL/6J mice do not differ in compulsive-like alcohol drinking.