多巴胺系统（多巴胺受体D4、儿茶酚-O-甲基转移酶）中的基因变异性调节对得失的神经生理反应。

Genetic variability in the dopamine system (dopamine receptor D4, catechol-O-methyltransferase) modulates neurophysiological responses to gains and losses.

作者信息

Marco-Pallarés Josep, Cucurell David, Cunillera Toni, Krämer Ulrike M, Càmara Estela, Nager Wido, Bauer Peter, Schüle Rebecca, Schöls Ludger, Münte Thomas F, Rodriguez-Fornells Antoni

机构信息

Department of Neuropsychology, Otto von Guericke University, Magdeburg, Germany.

出版信息

Biol Psychiatry. 2009 Jul 15;66(2):154-61. doi: 10.1016/j.biopsych.2009.01.006. Epub 2009 Feb 28.

DOI:10.1016/j.biopsych.2009.01.006

PMID:19251248

Abstract

BACKGROUND

Interindividual variability in the processing of reward might be partially explained by genetic differences in the dopamine system. Here, we study whether brain responses (event-related potentials [ERPs], oscillatory activity) to monetary gains and losses in normal human subjects are modulated as a function of two dopaminergic polymorphisms (catechol-O-methyltransferase [COMT] valine [Val]158methionine [Met], dopamine receptor D4 [DRD4] single nucleotide polymorphism [SNP] -521).

METHODS

Forty participants homozygous for the different alleles of both polymorphisms were selected from a larger population to assess the main effects and interactions. Based on the phasic/tonic dopamine hypothesis, we expected increased brain responses to losses and gains in participants homozygous for the Val/Val variant of the COMT polymorphism (related to higher enzyme activity).

RESULTS

The medial frontal negativity (MFN) of the ERP and the increase in beta power for gains were enhanced for participants homozygous for the COMT ValVal allele when compared with homozygous MetMet participants. In contrast, no modulations in gain- and loss-related brain activity were found to be a function of the DRD4 SNP -521 polymorphism.

CONCLUSIONS

The results demonstrate the role of the COMT Val/Met polymorphism in the processing of reward, consistent with theoretical explanations that suggest the possible role of dopamine in the MFN and beta power increase generation. In addition, the present results might agree with the phasic/tonic dopamine theory that predicts higher phasic dopamine responses in ValVal participants.

摘要

背景

奖励处理过程中的个体差异可能部分由多巴胺系统的基因差异所解释。在此，我们研究正常人类受试者对金钱得失的大脑反应（事件相关电位[ERP]、振荡活动）是否会根据两种多巴胺能多态性（儿茶酚-O-甲基转移酶[COMT]缬氨酸[Val]158蛋氨酸[Met]、多巴胺受体D4[DRD4]单核苷酸多态性[SNP]-521）而受到调节。

方法

从更大的人群中选取40名两种多态性不同等位基因的纯合参与者，以评估主要效应和相互作用。基于阶段性/持续性多巴胺假说，我们预期COMT多态性Val/Val变体纯合的参与者（与较高的酶活性相关）对得失的大脑反应会增强。

结果

与纯合MetMet参与者相比，COMT ValVal等位基因纯合的参与者ERP的内侧额叶负波（MFN）以及收益时β功率的增加更为明显。相比之下，未发现与DRD4 SNP -521多态性相关的收益和损失相关大脑活动的调节作用。

结论

结果表明COMT Val/Met多态性在奖励处理中发挥作用，这与理论解释一致，即多巴胺可能在MFN和β功率增加的产生中发挥作用。此外，目前的结果可能与阶段性/持续性多巴胺理论相符，该理论预测ValVal参与者的阶段性多巴胺反应更高。

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多巴胺系统（多巴胺受体D4、儿茶酚-O-甲基转移酶）中的基因变异性调节对得失的神经生理反应。

Genetic variability in the dopamine system (dopamine receptor D4, catechol-O-methyltransferase) modulates neurophysiological responses to gains and losses.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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