We hypothesize that Nr4a1 and GprBB regulate alcohol intake and dependence, mainly at the level of the extended amygdala (EA), and represent potential targets to treat alcoholism. We will test this hypothesis using conventional and EA-conditional knockout mice for the two candidate genes, as well as for a known gene considered a valid target in alcohol research (the mu opioid receptor). These unique mutant lines will be studied at behavioral (Aim 1) and imaging (Aim 2) levels to characterize implication of the three genes in excessive alcohol drinking.
In Aim 1 we will examine conventional knockout mice available in our laboratory for (i) alcohol withdrawal after chronic intermittent exposure to alcohol vapors (CIE) and (ii) voluntary drinking along a history of exposure to air / alcohol vapors (CIE/TBC) leading to recreational / excessive drinking (Aim la).
In Aim lb we will produce and characterize EA-conditional mice for all three genes by crossing floxed mice and Wfsl-Cre mice, all of which were generated in the past funding period.
In Aim 1 c we will examine conditional mutant lines as in Aim la. Phenotypes in conventional knockout mice will establish a functional role of targeted genes in alcohol intake, and phenotypes in EA-conditional mutant mice will uncover implication of EA circuitry in those behaviors.
In Aim 2, we will use cutting-edge DT-MRI and fiber tracking, and implement FcMRI in mice (coll. J. Hennig, Freiburg, Germany) to identify structural and connectivity remodeling in mice undergoing a history of excessive drinking. Experimental conditions will be optimized in wild-type mice (Aims 2a and d), then applied to mutant mice with strongest behavioral phenotype (data from Aim 1) under conditions of chronic exposure (Aim 2b) or voluntary drinking in the CIE/TBC paradigm (Aim 2c) in longitudinal experiments.
Aim 2 will expand our knowledge of gene function with a dynamic anatomical dimension and provide a framework for translational studies from rodents to humans. Together, the proposal integrates unique mouse genetic tools and imaging methodology, to functionally study novel genes in alcohol dependence at molecular and system levels. Interactions with INIA partners involve sharing of material (mouse lines, AAV-shRNAs) and knowledge (imaging, mice and viruses).

Public Health Relevance

INIA gene expression studies have identified novel candidate genes for alcohol research. We have selected two genes, regulated by alcohol exposure in several studies. Nr4a1 encodes an orphan nuclear receptor that acts as a transcription factor, and Gpr88 encodes an orphan G protein coupled receptor with unknown function. Both receptors are druggable targets expressed in the adult brain. Study of their role in brain function is only beginning and their potential involvement in alcohol addiction has not been examined.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Research Project--Cooperative Agreements (U01)
Project #
4U01AA016658-08
Application #
8515873
Study Section
Special Emphasis Panel (ZAA1-DD (50))
Program Officer
Reilly, Matthew
Project Start
2006-09-30
Project End
2016-08-31
Budget Start
2013-09-01
Budget End
2014-08-31
Support Year
8
Fiscal Year
2013
Total Cost
$116,510
Indirect Cost
$8,630
Name
Institute/Genetique/Biologie Molec/Cell
Department
Type
DUNS #
771980620
City
Illkirch
State
Country
France
Zip Code
67404
Ben Hamida, Sami; Mendonça-Netto, Sueli; Arefin, Tanzil Mahmud et al. (2018) Increased Alcohol Seeking in Mice Lacking Gpr88 Involves Dysfunctional Mesocorticolimbic Networks. Biol Psychiatry 84:202-212
Maroteaux, G; Arefin, T M; Harsan, L-A et al. (2018) Lack of anticipatory behavior in Gpr88 knockout mice showed by automatized home cage phenotyping. Genes Brain Behav 17:e12473
Ehrlich, Aliza T; Semache, Meriem; Bailly, Julie et al. (2018) Mapping GPR88-Venus illuminates a novel role for GPR88 in sensory processing. Brain Struct Funct 223:1275-1296
Schmeichel, Brooke E; Matzeu, Alessandra; Koebel, Pascale et al. (2018) Knockdown of hypocretin attenuates extended access of cocaine self-administration in rats. Neuropsychopharmacology 43:2373-2382
Becker, Jérôme A J; Kieffer, Brigitte L; Le Merrer, Julie (2017) Differential behavioral and molecular alterations upon protracted abstinence from cocaine versus morphine, nicotine, THC and alcohol. Addict Biol 22:1205-1217
Meirsman, A C; de Kerchove d'Exaerde, A; Kieffer, B L et al. (2017) GPR88 in A2A receptor-expressing neurons modulates locomotor response to dopamine agonists but not sensorimotor gating. Eur J Neurosci 46:2026-2034
Boulos, Laura-Joy; Darcq, Emmanuel; Kieffer, Brigitte Lina (2017) Translating the Habenula-From Rodents to Humans. Biol Psychiatry 81:296-305
Charbogne, Pauline; Gardon, Olivier; Martín-García, Elena et al. (2017) Mu Opioid Receptors in Gamma-Aminobutyric Acidergic Forebrain Neurons Moderate Motivation for Heroin and Palatable Food. Biol Psychiatry 81:778-788
Meirsman, Aura C; Le Merrer, Julie; Pellissier, Lucie P et al. (2016) Mice Lacking GPR88 Show Motor Deficit, Improved Spatial Learning, and Low Anxiety Reversed by Delta Opioid Antagonist. Biol Psychiatry 79:917-27
Chu Sin Chung, Paul; Keyworth, Helen L; Martin-Garcia, Elena et al. (2015) A novel anxiogenic role for the delta opioid receptor expressed in GABAergic forebrain neurons. Biol Psychiatry 77:404-15

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