Wolfgang Sommer scite author profile

Context Identification of genes contributing to alcohol dependence will improve our understanding of the mechanisms underlying this disorder. Objective To identify susceptibility genes for alcohol dependence through a genome-wide association study (GWAS) and follow-up study in a population of German male inpatients with an early age at onset. Design The GWAS included 487 male inpatients with DSM-IV alcohol dependence with an age at onset below 28 years and 1,358 population based control individuals. The follow-up study included 1,024 male inpatients and 996 age-matched male controls. All subjects were of German descent. The GWAS tested 524,396 single nucleotide polymorphisms (SNPs). All SNPs with p<10-4 were subjected to the follow-up study. In addition, nominally significant SNPs from those genes that had also shown expression changes in rat brains after chronic alcohol consumption were selected for the follow-up step. Results The GWAS produced 121 SNPs with nominal p<10-4. These, together with 19 additional SNPs from homologs of rat genes showing differential expression, were genotyped in the follow-up sample. Fifteen SNPs showed significant association with the same allele as in the GWAS. In the combined analysis, two closely linked intergenic SNPs met genome-wide significance (rs7590720 p=9.72×10-9; rs1344694 p=1.69×10-8). They are located on chromosome 2q35, a region which has been implicated in linkage studies for alcohol phenotypes. Nine SNPs were located in genes, including CDH13 and ADH1C genes which have been reported to be associated with alcohol dependence. Conclusion This is the first GWAS and follow-up study to identify a genome-wide significant association in alcohol dependence. Further independent studies are required to confirm these findings.

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

Rimondini

et al. 2002

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Prolonged exposure of the brain to ethanol is a prerequisite for developing ethanol dependence, but the underlying neural adaptations are unknown. Here we demonstrate that rats subjected to repeated cycles of intoxication and withdrawal develop a marked and long-lasting increase in voluntary ethanol intake. Exposure-induced but not spontaneous alcohol intake is antagonized by acamprosate, a compound clinically effective in human alcoholism. Expression analysis of cingulate cortex and amygdala reveals a set of long-term up-regulated transcripts in this model. These include members of pathways previously implicated in alcohol dependence (glutamatergic, endocannabinoid, and monoaminergic neurotransmission), as well as pathways not previously thought to be involved in this disorder (e.g., members of the mitogen-activated protein kinase pathway). Thus, alternating periods of ethanol intoxication and withdrawal are sufficient to induce an altered functional brain state, which is likely to be encoded by long-term changes in gene expression. These observations may have important implications for how alcoholism is managed clinically. Novel clinically effective treatments may be possible to develop by targeting the products of genes found to be regulated in our model.

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Variation at the rat Crhr1 locus and sensitivity to relapse into alcohol seeking induced by environmental stress

Hansson

Cippitelli

Sommer

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

242

280

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Alcoholism is a chronic relapsing disorder with substantial heritability. Uncovering gene-environment interactions underlying this disease process can aid identification of novel treatment targets. Here, we found a lowered threshold for stress-induced reinstatement of alcohol seeking in Marchigian-Sardinian Preferring (msP) rats genetically selected for high alcohol preference. In situ hybridization for a panel of 20 stress-related genes in 16 brain regions was used to screen for differential gene expression that may underlie this behavioral phenotype. An innate up-regulation of the Crhr1 transcript, encoding the corticotropin-releasing hormone receptor 1 (CRH-R1), was found in several limbic brain areas of msP rats genetically selected for high alcohol preference, was associated with genetic polymorphism of the Crhr1 promoter, and was accompanied by increased CRH-R1 density. A selective CRH-R1 antagonist (antalarmin, 10 -20 mg͞kg) was devoid of effects on operant alcohol self-administration in unselected Wistar rats but significantly suppressed this behavior in the msP line. Stressinduced reinstatement of alcohol seeking was not significantly affected by antalarmin in Wistar rats but was fully blocked in msP animals. These data demonstrate that Crhr1 genotype and expression interact with environmental stress to reinstate alcohol-seeking behavior.lcohol use is the number three modifiable cause of death in the United States (1). Alcohol dependence, hereafter called alcoholism, is a complex behavioral disorder in which substantial heritable susceptibility factors interact with the environment to produce and maintain the disease state (2). Alcoholism is clinically characterized by a chronic relapsing course similar to other common medical conditions (3). Relapse, i.e., return to alcohol seeking and uncontrolled drinking after varying intervals of sobriety, is a key phenomenon in this process, making relapse prevention a primary therapeutic objective.Gene-environment interactions are commonly implicated in alcoholism and propensity to relapse, but their exact nature is presently unknown. A behavioral analysis has long pointed to three broad categories of environmental stimuli with an ability to trigger relapse in susceptible individuals (4): consumption of small, ''priming'' doses of alcohol, presentation of conditioned cues associated with prior availability of alcohol, and stress. It is unclear whether, in alcohol-dependent individuals, these stimuli trigger relapse by interacting with preexisting genetic susceptibility factors, acquired CNS neuroadaptations secondary to a prolonged history of alcohol use, or both.Models in experimental animals offer tools in the search for novel alcoholism treatments (5, 6) and may be helpful in addressing this question. Genetic selection for high alcohol preference in rats has resulted in several lines with pharmacologically relevant levels of voluntary intake of alcohol, as well as other alcohol-related phenotypes (7,8), and an improved understanding of mechanisms mediating rel...

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Wolfgang Sommer

Upregulation of Voluntary Alcohol Intake, Behavioral Sensitivity to Stress, and Amygdala Crhr1 Expression Following a History of Dependence

Genome-wide Association Study of Alcohol Dependence

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

Variation at the rat Crhr1 locus and sensitivity to relapse into alcohol seeking induced by environmental stress

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