JT Jensen scite author profile

Rationale The rapid membrane actions of neuroactive steroids, particularly via an enhancement of γ-aminobutyric acidA receptors (GABAARs), participate in the regulation of central nervous system excitability. Prior evidence suggests an inverse relationship between endogenous GABAergic neuroactive steroid levels and behavioral changes in excitability during ethanol withdrawal. Objectives Previously, we found that ethanol withdrawal significantly decreased plasma allopregnanolone (ALLO) levels, a potent GABAergic neuroactive steroid, and decreased GABAAR sensitivity to ALLO in Withdrawal Seizure–Prone (WSP) but not in Withdrawal Seizure–Resistant (WSR) mice. However, the effect of ethanol withdrawal on levels of other endogenous GABAAR-active steroids is not known. Methods After validation of a gas chromatography-mass spectrometry method for the simultaneous quantification of 10 neuroactive steroids, we analyzed plasma from control male WSP-1 and WSR-1 mice and during ethanol withdrawal. Results We quantified levels of 9 neuroactive steroids in WSP-1 and WSR-1 plasma; levels of pregnanolone were not detectable. Basal levels of 5 neuroactive steroids were higher in WSR-1 versus WSP-1 mice. Ethanol withdrawal significantly suppressed 5 neuroactive steroids in WSP-1 and WSR-1 mice, including ALLO. Conclusions Due to lower basal levels of some GABAAR-active steroids in WSP-1 mice, a withdrawal-induced decrease in WSP-1 mice may have a greater physiological consequence than a similar decrease in WSR-1 mice. Because WSP-1 mice also exhibit a reduction in GABAAR sensitivity to neuroactive steroids during withdrawal, it is possible that the combined decrease in neuroactive steroids and GABAAR sensitivity during ethanol withdrawal in WSP-1 mice represents a neurochemical substrate for severe ethanol withdrawal.

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Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Bergeson

Nipper

Jensen

et al. 2016

Alcoholism Clin & Exp Res

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Background The chronic intermittent ethanol (CIE) paradigm is valuable for screening compounds for efficacy to reduce drinking traits related to alcohol use disorder (AUD), as it measures alcohol consumption and preference under physical dependence conditions. Air control treated animals allow simultaneous testing of similarly treated, non-dependent animals. As a consequence, we used CIE to test the hypothesis that tigecycline, a semi-synthetic tetracycline similar to minocycline and doxycycline, would reduce alcohol consumption regardless of dependence status. Methods Adult C57BL/6J female and male mice were tested for tigecycline efficacy to reduce ethanol consumption using a standard CIE paradigm. The ability of tigecycline to decrease 2-bottle choice of 15% ethanol (15E) versus water intake in dependent (CIE-vapor) and non-dependent (air-treated) male and female mice was tested after four cycles of CIE vapor or air exposure using a within-subjects design and a dose response. Drug doses of 0, 40, 60, 80, 100 mg/kg in saline were administered intraperitoneally (0.01 mL/g body weight) and in random order, with a 1 hr pretreatment time. Baseline 15E intake was re-established prior to administration of subsequent injections, with a maximum of two drug injections tested per week. Results Tigecycline was found to effectively reduce high alcohol consumption in both dependent and non-dependent female and male mice. Conclusions Our data suggest that tigecycline may be a promising drug with novel pharmacotherapeutic characteristics for the treatment of mild to severe AUD in both sexes.

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Chronic ethanol drinking increases during the luteal menstrual cycle phase in rhesus monkeys: implication of progesterone and related neurosteroids

et al. 2019

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Rationale: Sporadic reports of alcohol consumption being linked to menstrual cycle phase highlight the need to consider hormonally-characterized menstrual cycle phase in understanding the sex-specific effects of risk for alcohol drinking in women. Objectives:We investigated the association between menstrual cycle phase, characterized by circulating progesterone and menses, with accurate daily alcohol intakes in rhesus monkeys, and the contribution of progesterone derived neuroactive steroids to cycle-related alcohol drinking.Methods: Menses (daily) and progesterone (2-3x/week) were obtained in female monkeys (n=8, 5 ethanol, 3 control) for 12-18 months. Ethanol monkeys were then induced to drink ethanol (4% w/v; 3 months) and given 22 hrs/day access to ethanol and water for approximately one year. In selected cycles, a panel of neuroactive steroids were assayed during follicular and luteal phases from pre-ethanol and ethanol exposure.Results: There were minimal to no effects of ethanol on menstrual cycle length, progesterone levels, follicular or luteal phase length. The monkeys drank more ethanol during the luteal phase, compared to the follicular phase, and ethanol intake was highest in the late luteal phase when progesterone declines rapidly. Two neuroactive steroids were higher during the luteal phase versus the follicular phase, and several neuroactive steroids were higher in the pre-vs post-ethanol drinking menstrual cycles.

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JT Jensen

Sex differences in the synergistic effect of prior binge drinking and traumatic stress on subsequent ethanol intake and neurochemical responses in adult C57BL/6J mice

Continuous or extended cycle vs. cyclic use of combined oral contraceptives for contraception

Quantification of ten neuroactive steroids in plasma in Withdrawal Seizure-Prone and -Resistant mice during chronic ethanol withdrawal

Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Chronic ethanol drinking increases during the luteal menstrual cycle phase in rhesus monkeys: implication of progesterone and related neurosteroids

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