Long-lasting increase in voluntary ethanol consumption and transcriptional regulation in the rat brain after intermittent exposure to alcohol

doi:10.1096/fj.01-0593com

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Long-lasting increase in voluntary ethanol consumption and transcriptional regulation in the rat brain after intermittent exposure to alcohol

ROBERTO RIMONDINI, CHRISTINA ARLINDE, WOLFGANG SOMMER and MARKUS HEILIG¹

NEUROTEC, Karolinska Institutet, Stockholm, Sweden

¹Correspondence: M46 Huddinge University Hospital, S-14186 Huddinge, Sweden. E-mail: Markus.Heilig{at}neurotec.ki.se

Prolonged exposure of the brain to ethanol is a prerequisitefor developing ethanol dependence, but the underlying neuraladaptations are unknown. Here we demonstrate that rats subjectedto repeated cycles of intoxication and withdrawal develop amarked and long-lasting increase in voluntary ethanol intake.Exposure-induced but not spontaneous alcohol intake is antagonizedby acamprosate, a compound clinically effective in human alcoholism.Expression analysis of cingulate cortex and amygdala revealsa set of long-term up-regulated transcripts in this model. Theseinclude members of pathways previously implicated in alcoholdependence (glutamatergic, endocannabinoid, and monoaminergicneurotransmission), as well as pathways not previously thoughtto be involved in this disorder (e.g., members of the mitogen-activatedprotein kinase pathway). Thus, alternating periods of ethanolintoxication and withdrawal are sufficient to induce an alteredfunctional brain state, which is likely to be encoded by long-termchanges in gene expression. These observations may have importantimplications for how alcoholism is managed clinically. Novelclinically effective treatments may be possible to develop bytargeting the products of genes found to be regulated in ourmodel.—Rimondini, R., Arlinde, C., Sommer, W., Heilig,M. Long-lasting increase in voluntary ethanol consumption andtranscriptional regulation in the rat brain after intermittentexposure to alcohol.

Key Words: alcoholism • gene chip • expression profiling • cingulate cortex • amygdala

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