Development of dopaminergic genetic associations with visuospatial,verbal and social working memory

Dopamine transmission in the prefrontal cortex (PFC) supports working memory (WM), the temporary holding, processing and manipulation of information in one's mind. The gene coding the catechol‐O‐methyltransferase (COMT) enzyme, which degrades dopamine, in particular in the PFC, has a common single nucleotide polymorphism leading to two versions of the COMT enzyme which vary in their enzymatic activity. The methionine (Met) allele has been associated with higher WM performance and lower activation of the PFC in executive function tasks than the valine (Val) allele. In a previous study, COMT genotype was associated with performance on verbal and visuospatial WM tasks in adults, as well as with performance on a novel social WM paradigm that requires participants to maintain and manipulate information about the traits of their friends or family over a delay. Here, data collected in children and adolescents (N = 202) were compared to data from the adult sample (N = 131) to investigate possible age differences in genetic associations. Our results replicate and extend previous work showing that the pattern of superior WM performance observed in Met/Met adults emerges during development. These findings are consistent with a decrease in prefrontal dopamine levels during adolescence. Developmentally moderated genetic effects were observed for both visuospatial and social WM, even when controlling for non‐social WM performance, suggesting that the maintenance and manipulation of social information may also recruit the dopamine neurotransmitter system. These findings show that development should be considered when trying to understand the impact of genetic polymorphisms on cognitive function.     

Association of Catechol-O-Methyltransferase Polymorphism (Val108/158Met) With Parkinson's Disease: A Meta-Analysis

Parkinson's disease (PD) is a common neurodegenerative disease, the risk factors of which are gaining more attentions. Among all these risk factors, catechol-o-methyltransferase (COMT) has been widely studied, and believed to be associated with PD. However, the relationship between COMT polymorphism and PD has not been confirmed hitherto. Therefore, a meta-analysis was performed to evaluate the effect of COMT polymorphism on PD patients. A total of 24 study subjects comprising 3,807 patients with PD and 3,942 unrelated healthy controls were recruited in this meta-analysis. Heterogeneity testing and sensitivity analysis were conducted with Review Manager 5.0 software (The Nordic Cochrane Centre, The Cochrane Collaboration, Copenhagen, Denmark) and Stata software (StataCorp, College Station, TX), together with publication bias by funnel plot method and modified Egger's linear regression test. No evidences of publication bias and heterogeneity were detected. In the 24 studies, the estimated odds ratios (OR) in PD patients are 0.98 for the Met allele (95% confidence interval [0.92, 1.05]) under a fixed-effects model. The authors also conducted a stratified analysis according to geographic region among Europe, Asia, and North America, the ORs for the Met allele are 0.92, 1.02, and 1.10, respectively. According to the results of the meta-analysis, a conclusion could be drawn that polymorphism of Val108/158Met are not associated with the risk of PD. However, more convincing studies are warranted to have a solid conclusion supported.     

Effects of Comt Genotype on Behavioral Symptomatology in the 22q11.2 Deletion Syndrome

The 22q11.2 Deletion Syndrome (DiGeorge/velocardiofacial syndrome) is associated with elevated rates of psychosis, and is also characterized by severe attentional difficulties and executive dysfunction. Behavioral manifestations of this syndrome could result from haploinsufficiency of the catechol-O-methyltransferase (COMT) gene, located within the 22q11 region. The goal of the present study was to examine COMT genotype in relation to behavioral symptomatology in this syndrome. Val^158/108Met was genotyped in 38 patients (16 Met/-, 22 Val/-) with confirmed 22q11.2 deletions who had received the Child Behavior Checklist (CBCL) as part of a comprehensive evaluation. Results indicated that the Val genotype was associated with significantly greater internalizing and externalizing behavioral symptomatology in children with 22q11.2 deletions. Val allele status was associated with a greater-than-four-fold increase in risk for clinically significant behavior problems in children with this syndrome. These data are consistent with previous findings of increased psychopathology associated with the Val genotype in normal individuals and suggest that a functional genetic polymorphism in the 22q11 region may influence behavior in individuals with COMT haploinsufficiency.     

COMT多态性与连续3-back任务相关ERP的关联研究

不同COMT基因型被试者,进行连续3-back任务测试,以探讨被试者工作记忆能力的变化情况。抽取21名不同COMT基因型被试者,观测被试者在连续工作记忆任务中记忆能力和脑电生理的差异。结果表明,Val/Met基因型被试者P300波幅显著低于Val/Val型,Met/Met型被试者的P300波幅居中。Val/Met型被试者显示了最差记忆任务成绩,被试者的P300波幅和记忆能力相关。COMT基因多态性和3-back任务事件相关电位相关联,工作记忆任务的灵活性和稳定性及其交互作用受到遗传因素的调控。     

COMT基因rs6267多态性与青少年期亲子亲合与冲突的关系：性别与父母教养行为的调节作用分析

采用基因－环境设计, 以208名初中生为被试, 系统考察COMT基因rs6267多态性与青少年期亲子亲合与冲突的关系, 以及性别与父母教养行为在其中的调节作用。结果显示rs6267多态性对亲子关系无显著主效应, 但其与亲子亲合、母子情绪冲突的关联模式在男女青少年群体中相反; rs6267多态性与父母积极教养行为对亲子关系无显著交互作用, 但其与母亲消极教养行为对母子冲突具有交互作用趋势。     

MAOA基因T941G多态性与同伴侵害对男青少年早期抑郁的交互作用:COMT基因Val158Met多态性的调节效应

抑郁具有复杂的多基因遗传基础,然而既有研究大多采用单基因以及单基因-环境交互设计(G×E)考察抑郁的遗传机制。以757名男青少年为被试(初次测评时Mage=11.32岁,SD=0.49岁),采用多基因-环境交互(G×G×E)设计,本研究考察了MAOA(monoamine oxidase A,单胺氧化酶A)基因T941G多态性、COMT(catechol-O-methyltransferase,儿茶酚胺氧位甲基转移酶)基因Val158Met多态性与同伴侵害对青少年早期抑郁的影响。结果显示,MAOA基因T941G多态性与同伴侵害交互作用于青少年抑郁,同伴侵害仅显著正向预测G等位基因(而非T等位基因)青少年抑郁。而且,MAOA基因T941G多态性与同伴侵害的交互作用受到COMT基因Val158Met多态性的调节,上述交互作用仅存在于COMT Met等位基因而非Val/Val基因型携带者中。研究结果显示,抑郁的产生与个体差异存在多基因与环境间的复杂交互机制。     

Serotonin transporter and BDNF polymorphisms interact to predict trait worry

Background and Objectives: Excessive worry is associated with a range of psychological disorders. While previous studies have examined genes associated with a range of different anxiety phenotypes, none have explored genes specifically associated with the general tendency to worry. Design: The present study tested associations between trait worry and functional polymorphisms of three candidate genes: the serotonin transporter-linked polymorphic region (5-HTTLPR) of the SLC6A4 gene, the Val66Met region of the brain-derived neurotrophic factor (BDNF) gene, and the Val158Met region of the catechol-O-methyltransferase (COMT) gene. Methods: A heterogeneous sample of adult participants (n = 173) completed the Penn State Worry Questionnaire (PSWQ) and provided DNA samples for genotyping. Results: Results revealed a significant interaction between 5-HTTLPR and BDNF genotypes predicting levels of worry. Specifically, there was a significant positive association between 5-HTTLPR short alleles and PSWQ scores, but only in BDNF met allele carriers. COMT genotype was not significantly associated levels of worry, nor did COMT interact with 5-HTTLPR or BDNF genotypes to predict PSWQ scores. Conclusions: These findings provide preliminary evidence about the putative genetic etiology of worrying. Key limitations of the present study and corresponding directions for future research on this topic are discussed.     

负性生活事件与青少年早期抑郁的关系：COMT基因Val158Met多态性与父母教养行为的调节作用

采用环境×基因×环境(E×G×E)研究设计, 以637名青少年为被试, 考察了负性生活事件、COMT基因Val158Met多态性和父母教养行为对青少年早期抑郁的影响。结果发现：负性生活事件对青少年早期抑郁具有显著正向预测作用, 且COMT基因Val158Met多态性和父亲积极教养行为在其中起调节作用, 但该调节作用仅存在于男青少年群体中：在携带Val/Val基因型的男青少年中, 当父亲积极教养行为水平较低时, 青少年的抑郁水平随负性生活事件的增多而显著上升, 当父亲积极教养行为水平较高时, 负性生活事件对抑郁无显著预测作用; 在携带Met等位基因的男青少年中, 上述交互作用不显著。     

Developmental imaging genetics: Linking dopamine function to adolescent behavior

Adolescence is a period of development characterized by numerous neurobiological changes that significantly influence behavior and brain function. Adolescence is of particular interest due to the alarming statistics indicating that mortality rates increase two to three-fold during this time compared to childhood, due largely to a peak in risk-taking behaviors resulting from increased impulsivity and sensation seeking. Furthermore, there exists large unexplained variability in these behaviors that are in part mediated by biological factors. Recent advances in molecular genetics and functional neuroimaging have provided a unique and exciting opportunity to non-invasively study the influence of genetic factors on brain function in humans. While genes do not code for specific behaviors, they do determine the structure and function of proteins that are essential to the neuronal processes that underlie behavior. Therefore, studying the interaction of genotype with measures of brain function over development could shed light on critical time points when biologically mediated individual differences in complex behaviors emerge. Here we review animal and human literature examining the neurobiological basis of adolescent development related to dopamine neurotransmission. Dopamine is of critical importance because of (1) its role in cognitive and affective behaviors, (2) its role in the pathogenesis of major psychopathology, and (3) the protracted development of dopamine signaling pathways over adolescence. We will then focus on current research examining the role of dopamine-related genes on brain function. We propose the use of imaging genetics to examine the influence of genetically mediated dopamine variability on brain function during adolescence, keeping in mind the limitations of this approach.