Karolinska Institutet, Stockholm, Sweden.
J Cogn Neurosci. 2014 Jan;26(1):54-62. doi: 10.1162/jocn_a_00478. Epub 2013 Sep 3.
Studying the effects of cognitive training can lead to finding better treatments, but it can also be a tool for investigating factors important for brain plasticity and acquisition of cognitive skills. In this study, we investigated how single-nucleotide polymorphisms (SNPs) and ratings of intrinsic motivation were associated to interindividual differences in improvement during working memory training. The study included 256 children aged 7-19 years who were genotyped for 13 SNPs within or near eight candidate genes previously implicated in learning: COMT, SLC6A3 (DAT1), DRD4, DRD2, PPP1R1B (DARPP32), MAOA, LMX1A, and BDNF. Ratings on the intrinsic motivation inventory were also available for 156 of these children. All participants performed at least 20 sessions of working memory training, and performance during the training was logged and used as the outcome variable. We found that two SNPs, rs1800497 and rs2283265, located near and within the dopamine receptor 2 (DRD2) gene, respectively, were significantly associated with improvements during training (p < .003 and p < .0004, respectively). Scores from a questionnaire regarding intrinsic motivation did not correlate with training outcome. However, we observed both the main effect of genotype at those two loci as well as the interaction between genotypes and ratings of intrinsic motivation (perceived competence). Both SNPs have previously been shown to affect DRD2 receptor density primarily in the BG. Our results suggest that genetic variation is accounting for some interindividual differences in how children acquire cognitive skills and that part of this effect is also seen on intrinsic motivation. Moreover, they suggest that dopamine D2 transmission in the BG is a key factor for cognitive plasticity.
研究认知训练的效果可以导致找到更好的治疗方法,但它也可以作为一种工具,用于研究对大脑可塑性和认知技能获得很重要的因素。在这项研究中,我们研究了单核苷酸多态性(SNP)和内在动机评分与工作记忆训练中个体间改善差异的关系。该研究包括 256 名年龄在 7-19 岁的儿童,他们对先前与学习有关的 8 个候选基因内或附近的 13 个 SNP 进行了基因分型:COMT、SLC6A3(DAT1)、DRD4、DRD2、PPP1R1B(DARPP32)、MAOA、LMX1A 和 BDNF。其中 156 名儿童还提供了内在动机量表的评分。所有参与者至少完成了 20 次工作记忆训练,并且在训练过程中的表现被记录下来作为结果变量。我们发现,两个 SNP,分别位于多巴胺受体 2(DRD2)基因附近和内部的 rs1800497 和 rs2283265,与训练期间的改善显著相关(p <.003 和 p <.0004,分别)。关于内在动机的问卷得分与训练结果无关。然而,我们观察到这两个基因座的基因型的主要效应以及基因型和内在动机评分(感知能力)之间的相互作用。这两个 SNP 先前已被证明主要影响 BG 中的 DRD2 受体密度。我们的结果表明,遗传变异解释了儿童获得认知技能的个体间差异的一部分,并且这种影响的一部分也表现在内在动机上。此外,它们表明 BG 中的多巴胺 D2 传递是认知可塑性的关键因素。
