Glutamate-mediated excitatory pathways play an important role in the pathogenesis of alcohol dependence. The present association study tested the candidate gene hypothesis that variation of the gene encoding the astroglial glutamate transporter EAAT2 confers vulnerability to alcohol dependence. Genotypes of a silent G603A nucleotide exchange in exon 5 of the EAAT2 gene were assessed in 565 subjects of German descent, comprising 342 alcohol-dependent subjects and 223 control subjects. Two more homogeneous subgroups of alcoholics were selected: (1) 112 alcoholics with a history of alcohol withdrawal seizure or delirium; and (2) 54 alcoholics with an antisocial personality disorder. The Tridimensional Personality Questionnaire was applied to assess personality dimensions in 106 alcohol-dependent males. The allele frequencies of the G603A polymorphism did not differ significantly between the control subjects and either the entire sample of alcoholics or the alcoholics with severe physiological withdrawal symptoms. Without correction for multiple testing, there was a significant increase of the frequency of the A603 allele in the antisocial alcoholics compared with either the control subjects [chi2 = 4.587, 1 degree of freedom (df), P = 0.032] or the alcoholics without ASPD (chi2 = 4.968, 1 df, P = 0.026). The personality trait of Harm Avoidance was significantly lower in alcoholics carrying the A603 allele compared with those lacking it (U-test; P = 0.009). These two consistent lines of evidence suggest that genetic variation of the EAAT2 gene confers vulnerability to risk-taking behavior in alcoholics.