Eisenberg Dan T A, Mackillop James, Modi Meera, Beauchemin Joshua, Dang David, Lisman Stephen A, Lum J Koji, Wilson David S
State University of New York at Binghamton, Biology Department, Binghamton, NY, USA.
Behav Brain Funct. 2007 Jan 10;3:2. doi: 10.1186/1744-9081-3-2.
Research on the genetic basis for impulsivity has revealed an array of ambiguous findings. This may be a result of limitations to self-report assessments of impulsivity. Behavioral measures that assess more narrowly defined aspects of impulsivity may clarify genetic influences. This study examined the relationship between possession of the DRD2 TaqI A and DRD4 48 bp VNTR genetic polymorphisms and performance on a behavioral measure of impulsivity, the delay discounting task (DDT), and three traditional self-report measures.
195 individuals (42% male) were recruited from a university campus and were assessed in small group sessions using personal computers. Genotyping was conducted using previously established protocols. For the DRD2 TaqI A locus, individuals were designated as possessing at least one copy of the A1 allele (A1+) or not (A1-), and for the DRD4 48-bp VNTR locus, individuals were designated as having at least one long allele (7 repeats or longer, L+) or not (L-). Principal analyses used multiple univariate factorial 2 (A1+/A1-) x 2 (L+/L-) analyses of variance.
A significant main effect of A1+ status on DDT performance was evident (p = .006) as well as a significant interaction effect (p = .006) between both genes. No other significant effects were evident on the self-report measures, with the exception of a trend toward an interaction effect on the Sensation Seeking Scale. Exploratory analyses suggested that the significant effects were not a function of population stratification or gender.
These data suggest that the DRD2 TaqI A and DRD4 VNTR polymorphisms influence impulsivity as measured with a delay discounting task. Specifically, these findings suggest that an interaction between the functional effects of the two unlinked genotypes results in significant difference in the balance of mesolimbic dopaminergic activation relative to frontal-parietal activation. However, these findings are also the first in this area and must be replicated.
These findings suggest a meaningful interaction between the DRD2 TaqI A and DRD4 VNTR polymorphisms in the expression of impulsivity and provide initial support for the utility of using behavioral measures for clarifying genetic influences on impulsivity.
对冲动性遗传基础的研究揭示了一系列不明确的结果。这可能是由于冲动性自我报告评估存在局限性。评估冲动性更狭义定义方面的行为测量方法可能会阐明遗传影响。本研究考察了DRD2 TaqI A和DRD4 48 bp VNTR基因多态性与冲动性的行为测量指标——延迟折扣任务(DDT)以及三种传统自我报告测量指标之间的关系。
从大学校园招募了195名个体(42%为男性),并使用个人电脑在小组会议中进行评估。基因分型采用先前建立的方案。对于DRD2 TaqI A位点,个体被指定为拥有至少一个A1等位基因拷贝(A1+)或不拥有(A1-),对于DRD4 48-bp VNTR位点,个体被指定为拥有至少一个长等位基因(7次重复或更长,L+)或不拥有(L-)。主要分析采用多变量单因素2(A1+/A1-)×2(L+/L-)方差分析。
A1+状态对DDT表现有显著的主效应(p = .006),并且两个基因之间存在显著的交互效应(p = .006)。在自我报告测量指标上没有其他显著效应,除了在感觉寻求量表上有交互效应的趋势。探索性分析表明,显著效应不是群体分层或性别的函数。
这些数据表明,DRD2 TaqI A和DRD4 VNTR多态性会影响用延迟折扣任务测量的冲动性。具体而言,这些发现表明,两种不连锁基因型的功能效应之间的相互作用导致中脑边缘多巴胺能激活与额顶叶激活平衡的显著差异。然而,这些发现也是该领域的首次发现,必须进行重复验证。
这些发现表明DRD2 TaqI A和DRD4 VNTR多态性在冲动性表达中存在有意义的相互作用,并为使用行为测量方法阐明遗传对冲动性的影响的效用提供了初步支持。
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