Involvement of the <scp>GABA<sub>A</sub></scp> Receptor in Age‐Dependent Differences in Binge‐Like Ethanol Intake

Quoilin, Caroline; Boehm, Stephen L.

doi:10.1111/acer.12953

Cited by 10 publications

(16 citation statements)

References 52 publications

(65 reference statements)

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“…Previous studies from our lab (Moore et al, 2007; Fritz and Boehm, 2014; Quoilin and Boehm, 2016) and others (Ramaker et al, 2011, 2012, 2014a, 2014b) have shown that THIP can significantly reduce voluntary ethanol consumption and operant responding for the drug. Given THIP’s high affinity for δ-GABA A Rs, these data support a possible role for these extrasynaptically located GABA A receptors in mediating this pattern of ethanol use.…”

Section: Discussionmentioning

confidence: 68%

“…Indeed, genetic inactivation of δ-GABA A R in the nucleus accumbens reduces alcohol-drinking behavior in male mice (Nie et al, 2011). Further, pharmacological manipulation using 4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridine-3-ol (THIP/gaboxadol), an agonist with high efficacy and selectivity for δGABA A Rs (Boehm et al, 2006; Bhattarai, 2011; Meera, 2011; Mortensen 2010), reduces binge alcohol consumption in mice (Moore et al, 2007; Fritz and Boehm, 2014; Quoilin and Boehm, 2016). However, no study has explored the effect that estrous cycle may have on the role that δ-GABA A Rs play in mediating binge drinking in females.…”

Section: Introductionmentioning

confidence: 99%

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Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Melón

Nolan

Colar

et al. 2017

Hormones and Behavior

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Recent reports support higher than expected rates of binge alcohol consumption among women and girls. Unfortunately, few studies have assessed the mechanisms underlying this pattern of intake in females. Studies in males suggest that alcohol concentrations relevant to the beginning stages of binge intoxication may selectively target tonic GABAergic inhibition mediated by GABAA receptor subtypes expressing the δ-subunit protein (δ-GABAAR). Indeed, administration of agonists that interact with these δ-GABAAR prior to alcohol access can abolish binge drinking behavior in male mice. These δ-GABAAR have also been shown to exhibit estrous-dependent plasticity in regions relevant to drug taking behavior, like the hippocampus and periaqueductal grey. The present experiments were designed to determine whether the estrous cycle would alter binge drinking, or our ability to modulate this pattern of alcohol use with THIP, an agonist with high selectivity and efficacy at δ-GABAAR. Using the Drinking-in-the-Dark (DID) binge-drinking model, regularly cycling female mice were given 2 hours of daily access to alcohol (20%v/v). Vaginal cytology or vaginal impedance was assessed after drinking sessions to track estrous status. There was no fluctuation in binge drinking associated with the estrous cycle. Both Intra-posterior-VTA administration of THIP and systemic administration of the drug was also associated with an estrous cycle dependent reduction in drinking behavior. Pre-treatment with finasteride to inhibit synthesis of 5α-reduced neurosteroids did not disrupt THIP’s effects. Analysis of δ-subunit mRNA from posterior-VTA enriched tissue samples revealed that expression of this GABAA receptor subunit is elevated during diestrus in this region. Taken together, these studies demonstrate that δGABAARs in the VTA are an important target for binge drinking in females and confirm that the estrous cycle is an important moderator of the pharmacology of this GABAA receptor subtype.

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Section: Discussionmentioning

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Melón

Nolan

Colar

et al. 2017

Hormones and Behavior

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“…It is also noteworthy that adolescent rats are initially less sensitive to ethanol-induced sleep disruption (Ehlers et al, 2013). Thus, it is conceivable that the initial lack of circadian- and sleep-related consequences adolescent rodents experience with acute ethanol may contribute to their higher alcohol consumption (Holstein et al, 2011, Melendez, 2011, Moore et al, 2010, Quoilin and Boehm, 2016). However, given that adolescent rats also show greater slow wave sleep suppression the day following acute ethanol compared to adults (Ehlers et al, 2013), it is also tempting to speculate that heavy drinking in adolescents may be reinforced during hangover to induce sleep.…”

Section: Discussionmentioning

confidence: 99%

“…Results from studies employing C57BL/6J mice are somewhat more variable, although generally comparable to those in rats. During adolescence, mice of this strain consume more alcohol than adults, particularly in models of limited access, intermittent access, and binge-drinking (Holstein et al, 2011, Melendez, 2011, Moore et al, 2010, Quoilin and Boehm, 2016; but see also Hefner and Holmes, 2007). Adolescent C57BL/6J mice also show differential sensitivity to acute ethanol, including increased sensitivity to ethanol-induced locomotor stimulation (Hefner and Holmes, 2007, Melon and Boehm, 2011), anxiolysis (Hefner and Holmes, 2007), and certain memory impairments (Lacaille et al, 2015, Spanos et al, 2012), and decreased sensitivity to ethanol-induced conditioned taste aversion (CTA; (Holstein et al, 2011, Moore et al, 2013), sedation (Hefner and Holmes, 2007, Linsenbardt et al, 2009), hypothermia and locomotor suppression (Lopez et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Differential Sensitivity to Ethanol‐Induced Circadian Rhythm Disruption in Adolescent and Adult Mice

Ruby

Palmer

Zhang

et al. 2016

Alcoholism Clin & Exp Res

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Background Growing evidence supports a central role for the circadian system in alcohol use disorders, but few studies have examined this relationship during adolescence. In mammals, circadian rhythms are regulated by the suprachiasmatic nucleus (SCN), a biological clock whose timing is synchronized (reset) to the environment primarily by light (photic) input. Alcohol (ethanol) disrupts circadian timing in part by attenuating photic phase-resetting responses in adult rodents. However, circadian rhythms change throughout life and it is not yet known whether ethanol has similar effects on circadian regulation during adolescence. Methods General circadian locomotor activity was monitored in male C57BL6/J mice beginning in adolescence (P27) or adulthood (P61) in a 12 h light, 12 h dark photocycle for ~2 weeks to establish baseline circadian activity measures. On the day of the experiment, mice received an acute injection of ethanol (1.5 g/kg, i.p.) or equal volume saline 15 min prior to a 30-min light pulse at Zeitgeber Time 14 (2 h into the dark phase), then were released into constant darkness (DD) for ~2 weeks to assess phase-resetting responses. Control mice of each age group received injections but no light pulse prior to DD. Results While adults showed the expected decrease in photic phase-delays induced by acute ethanol, this effect was absent in adolescent mice. Adolescents also showed baseline differences in circadian rhythmicity compared to adults, including advanced photocycle entrainment, larger photic phase-delays, a shorter free-running (endogenous) circadian period, and greater circadian rhythm amplitude. Conclusions Collectively, our results indicate that adolescent mice are less sensitive to the effect of ethanol on circadian photic phase-resetting and that their daily activity rhythms are markedly different than those of adults.

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“…As a positive control, we also assessed the effects of the non-selective GABA A agonist muscimol, which has been previously shown to potentiate the sedative effects of ethanol (Holstein et al, 2004). We selected doses of pBBG and Muscimol that had been previously shown to inhibit ethanol drinking (McMurray et al, 2017a;Quoilin & Boehm, 2016). To further explore whether GLO1 alterations affect the locomotor response to ethanol, we also assessed the effect of Glo1 overexpression on the locomotor response to ethanol.…”

Section: Introductionmentioning

confidence: 99%

Glyoxalase (GLO1) inhibition or genetic overexpression does not alter ethanol’s locomotor effects: implications for GLO1 as a therapeutic target in alcohol use disorders

Barkley-Levenson

Lagarda

Palmer

2017

Preprint

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Background: Glyoxalase 1 (GLO1) is an enzyme that metabolizes the glycolytic byproduct methylglyoxal (MG), which is a competitive partial agonist at GABAA receptors.Pharmacological inhibition of GLO1 increases concentrations of MG in the brain and decreases binge-like ethanol drinking. The present study assessed whether pharmacological inhibition of GLO1, or genetic over expression of Glo1, would also alter the locomotor effects of ethanol, which might explain reduced ethanol consumption following GLO1 inhibition. We used the prototypical GABAA receptor agonist muscimol as a positive control.Methods: Male C57BL/6J mice were pretreated with a single dose of either the GLO1 inhibitor S-bromobenzylglutathione cyclopentyl diester (pBBG; 7.5 mg/kg; Experiment 1) or muscimol (0.75 mg/kg; Experiment 2), or their corresponding vehicle. We then determined whether the locomotor response to a range of ethanol doses (0, 0.5, 1.0, 1.5, 2.0, and 2.5) was altered by either pBBG or muscimol pretreatment. We also examined the locomotor response to a range of ethanol doses in FVB/NJ wild type and transgenic Glo1 over expressing mice (Experiment 3).We also assessed anxiety-like behavior as measured by time spent in the center of an open field in all three experiments. Results:The ethanol dose-response curve was not altered by pretreatment with pBBG or by transgenic overexpression of Glo1. In contrast, muscimol blunted locomotor stimulation at low ethanol doses, and potentiated locomotor sedation at higher ethanol doses. Conclusions:The dose of pBBG used in this study has been previously shown to reduce ethanol drinking. Glo1 overexpression has been previously shown to increase ethanol drinking.However, neither manipulation altered the dose response curve for ethanol's locomotor effects, whereas muscimol appeared to enhance the locomotor sedative effects of ethanol. The present ! 2 data demonstrate that reduced ethanol drinking caused by GLO1 inhibition is not due to potentiation of ethanol's stimulant or depressant effects.

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Involvement of the GABA_A Receptor in Age‐Dependent Differences in Binge‐Like Ethanol Intake

Abstract: This study adds to the existing literature demonstrating the crucial role of the GABAA receptor in alcohol consumption. In addition, it suggests that age differences in the GABAA receptor modulation of binge alcohol drinking might be more dependent on extrasynaptic GABAA receptors.

Cited by 10 publications

References 52 publications

Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Differential Sensitivity to Ethanol‐Induced Circadian Rhythm Disruption in Adolescent and Adult Mice

Glyoxalase (GLO1) inhibition or genetic overexpression does not alter ethanol’s locomotor effects: implications for GLO1 as a therapeutic target in alcohol use disorders

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Involvement of the GABAA Receptor in Age‐Dependent Differences in Binge‐Like Ethanol Intake

Abstract: This study adds to the existing literature demonstrating the crucial role of the GABAA receptor in alcohol consumption. In addition, it suggests that age differences in the GABAA receptor modulation of binge alcohol drinking might be more dependent on extrasynaptic GABAA receptors.

Cited by 10 publications

References 52 publications

Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Activation of extrasynaptic δ-GABAA receptors globally or within the posterior-VTA has estrous-dependent effects on consumption of alcohol and estrous-independent effects on locomotion

Differential Sensitivity to Ethanol‐Induced Circadian Rhythm Disruption in Adolescent and Adult Mice

Glyoxalase (GLO1) inhibition or genetic overexpression does not alter ethanol’s locomotor effects: implications for GLO1 as a therapeutic target in alcohol use disorders

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Involvement of the GABA_A Receptor in Age‐Dependent Differences in Binge‐Like Ethanol Intake