Neural changes that drive inappropriate behavior in addiction are due in part to transcription factor-dependent changes in expression of genes that set the form and function of the brain. Knowledge of how drugs like ethanol affect transcription factor activity and discovery of genes regulated by specific transcription factors will improve our understanding of drug action and provide new approaches to potential treatments. Drosophila is a useful model for identifying the molecules and mechanisms of action for ethanol. Flies exhibit behaviors that model features of addiction including ethanol sensitivity, tolerance, preference, and reward. Conservation of genes and sophisticated genetics facilitate a rapid pace of discovery. Preclinical translational studies have helped bridge basic findings in flies wit models of addiction in higher organisms. Transcription factors of the nuclear receptor family are candidate targets for ethanol. We focus on one member of this family, NR4a1 and its fly homolog Hr38, that belongs to a class that is regulated by expression level, not ligand binding. In rodents NR4a1 is increased following acute ethanol exposure and in protracted abstinence. In flies we showed that Hr38 expression is similarly increased in specific brain regions following acute ethanol exposure. Importantly, we provide evidence that mutation of Hr38 results in altered ethanol behaviors, implicating Hr38 and likely the genes that it regulates in the actions o ethanol. Our goal is to define the signaling pathway that ethanol uses to increase Hr38 expression and determine the consequences of perturbing pathway components. Published evidence points to two Hr38 signaling pathways that include molecules implicated in the actions of ethanol. Some of these molecules are also thought to be important for the effects of social environment, which in turn can have profound effects on alcohol consumption in humans and animal models. The expected outcome of the proposed studies will be a functional description of a novel signaling pathway engaged by ethanol. In future studies we plan to identify effector pathways that alter neuronal function.

Public Health Relevance

Regulation of gene transcription is an important mechanism for lasting alteration of brain function that underlies the addictive properties of drugs of abuse. We plan to characterize a novel transcriptional signaling pathway and to determine its functional role in ethanol sensitivity, tolerance, and withdrawal, and in the effects of social experience on ethanol behavior. These studies will expand our understanding of how the pharmacological effects of ethanol are tied to physiological changes and may provide new approaches to treatment of alcohol use disorders.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Small Research Grants (R03)
Project #
5R03AA023262-02
Application #
8904574
Study Section
Neurotoxicology and Alcohol Study Section (NAL)
Program Officer
Reilly, Matthew
Project Start
2014-08-05
Project End
2017-07-31
Budget Start
2015-08-01
Budget End
2017-07-31
Support Year
2
Fiscal Year
2015
Total Cost
Indirect Cost
Name
University of California Merced
Department
Type
Earth Sciences/Resources
DUNS #
113645084
City
Merced
State
CA
Country
United States
Zip Code
95343
Adhikari, P; Orozco, D; Randhawa, H et al. (2018) Mef2 induction of the immediate early gene Hr38/Nr4a is terminated by Sirt1 to promote ethanol tolerance. Genes Brain Behav :e12486
Jiang, Yiqin; Pitmon, Elise; Berry, Jack et al. (2016) A Genetic Screen To Assess Dopamine Receptor (DopR1) Dependent Sleep Regulation in Drosophila. G3 (Bethesda) 6:4217-4226
Engel, Gregory L; Marella, Sunanda; Kaun, Karla R et al. (2016) Sir2/Sirt1 Links Acute Inebriation to Presynaptic Changes and the Development of Alcohol Tolerance, Preference, and Reward. J Neurosci 36:5241-51