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Basal forebrain projections to the lateral habenula sex-dependently regulate ethanol and sucrose consumption

Kermoade, K.; Hulet, E.; Paulson, A.; Woods, P.; Woldemariam, G.; Richard, J. M.

2026-07-08 neuroscience
10.64898/2026.07.02.736151 bioRxiv
Show abstract

Background: Compulsive alcohol use despite negative outcomes is a defining characteristic of alcohol use disorder. Rats exposed to long-term intermittent alcohol access (IAA) demonstrate sustained motivation for ethanol despite presence of the bitter additive quinine, offering a useful preclinical model of compulsive alcohol use. However, little is known about the role of habenular circuitry in the development of this phenotype. Here, we employed chemogenetic techniques targeting basal forebrain (BF) input to the lateral habenula (LHb) to probe the involvement of this neural circuitry in aversion-resistant alcohol consumption. Methods: Following long-term IAA or control conditions, male and female Long-Evans rats underwent surgery for the expression of designer receptors in BF-to-LHb projections. We then excited this pathway in rats with IAA history, or inhibited this pathway in rats with more limited ethanol history, before testing consumption of unadulterated and quinine-adulterated ethanol as well as unadulterated and quinine-adulterated sucrose. Results: Long-term IAA elevated ethanol drinking in all rats and aversion-resistant ethanol preference in males. Chemogenetic activation of BF-to-LHb neurons in rats with IAA history produced different effects in males and females: excitation enhanced ethanol intake in females, but reduced ethanol preference in males, regardless of quinine adulteration. Activation also led to a relative insensitivity to quinine-adulteration of sucrose when compared to controls, particularly in females. Chemogenetic inhibition in rats with limited prior ethanol exposure did not alter either ethanol or sucrose consumption with or without quinine. Conclusions: Our results suggest a differential role for BF-to-LHb circuitry in ethanol drinking based on sex, and a potential role for this circuitry in the sensitivity to quinine in the context of natural reward consumption.

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