A family based study of catechol-O-methyltransferase (COMT) and attention deficit hyperactivity disorder (ADHD).

Neurobiological studies have suggested that altered dopaminergic function may contribute to the etiology of attention deficit hyperactivity disorder (ADHD). The gene encoding catechol-O-methyltransferase (COMT) is an attractive candidate for ADHD susceptibility as it plays a major role in the degradation of dopamine. Moreover, a functional Val158Met polymorphism in COMT that alters the activity of the encoded protein has been strongly implicated in frontal lobe function, with the high activity Valine allele being associated with poorer performance, and ADHD is thought to involve fronto-striatal pathways. We have examined this functional variant for association with ADHD in a family based association sample comprising 279 probands and their parents. We have also examined two other markers in the COMT gene (rs737865, rs165599) which, together with the Val/Met variant, have recently been shown to be associated with altered COMT expression rather than enzyme activity. No evidence for association was observed with any single marker or haplotype in a sample of 279 affected children and their parents.     

Differential effects of COMT on gait and executive control in aging

Walking speed is associated with attention and executive control processes subserved by the prefrontal cortex. Because polymorphisms in catechol-O-methyltransferase (COMT) influence these cognitive processes we hypothesized that the same polymorphisms may influence gait velocity. We examined the associations between the Val(158)Met polymorphism in COMT and gait velocity as well as attention and executive function. Participants were 278 non-demented older adults. The results revealed that methionine (Met)/valine (Val) was associated with faster gait velocity. This association can be explained by the putative role of the Val allele in regulating tonic dopamine release in the striatum. In contrast, Met/Met was associated with better attention and executive function. Stratification by gender revealed that the association between COMT genotype and gait was significant only in men. Conversely, the association between COMT genotype and attention and executive function was significant only in women. These findings suggest a differential effect in relating the Val(158)Met polymorphism to gait and to cognitive function while supporting the previously described sexual dimorphism in the phenotypic expressions of COMT.     

注意缺陷多动障碍与儿茶酚-O-甲基转移酶基因Val158Met多态性的关联分析

目的探讨注意缺陷多动障碍(attention-deficit hyperactivity disorder,ADHD)汉族患儿与儿茶酚-O-甲基转移酶(catechol-O-methyltransferase,COMT)基因第158位密码子G→A点突变所引起的缬氨酸→甲硫氨酸(Val158Met)的错义突变多态性的关系.方法采用聚合酶链反应-限制性片段长度多态性技术,分析了117例符合DSM-Ⅳ诊断标准的上海汉族ADHD患儿与105例正常健康对照组的COMT基因的Val158Met多态性位点频率.结果 ADHD组的A等位基因频率为25.21%,而对照组为23.81%,两组差异无显著性(χ2=0.5197, P＞0.05). COMT各基因型的分布频率在ADHD和对照组之间的差异也无显著性(P＞0.05).结论汉族儿童注意缺陷多动障碍COMT基因Val158Met多态性可能与ADHD无关联.     

Cognitive correlates of a functional COMT polymorphism in children with 22q11.2 deletion syndrome

Chromosome 22q11.2 deletion syndrome (22q11DS) is a common microdeletion syndrome associated with a markedly elevated risk of schizophrenia in adulthood. Cognitive impairments such as a low IQ and deficits in attention and executive function are common in childhood. The catechol O-methyltransferase (COMT) gene maps within the deleted region and is involved in the degradation of dopamine, a neurotransmitter thought to be important in cognition and the development of schizophrenia. Thus, we examined the correlation between neurocognitive deficits and a common polymorphism Val(158)Met in the COMT gene in a cohort of children with 22q11DS. Our results show that children with 22q11DS who have the Met allele have higher IQ and achievement scores and perform better on measures of prefrontal cognition, such as the Continuous Performance Task, as compared with those with the Val allele. These results confirm that the hemizygous COMT Val(158)Met genotype impacts upon cognition in children with 22q11DS.     

COMT genotype and cognitive ability: a longitudinal aging study

Dopaminergic neurotransmission in the pre-frontal cortex (PFC) contributes to individual cognitive differences in animals and humans. Catechol-O-methyltransferase (COMT) influences dopamine concentration in the PFC. Functional variation in the human COMT gene occurs at a single nucleotide polymorphism (SNP)--472G>A--that results in a valine (Val) to methionine (Met) amino acid substitution (Val158Met). The Met/Met form is less active resulting in higher dopamine concentrations and thus may enhance cognitive function. We applied repeated measures mixed general linear modelling over three waves between ages 64 and 68 years to optimise cognitive phenotype characterisation in a cohort of 473 community volunteers who had validated childhood IQ data. After adjusting for childhood IQ, wave of testing and specific test type, COMT Val158Met genotype polymorphism had a significant overall effect on cognition (F(2,935.7)=7.92, p<.001) with adjusted means of all cognitive test scores taken together being: Val/Val 33.0 (95% C.I. 32.2-33.8), Val/Met 34.9 (95% C.I. 34.3-35.5), and Met/Met 34.9 (95% C.I. 34.1-35.8). This study adds to the evidence that the Val/Val polymorphism has a detrimental effect on cognition, extending upwards the age range in which such an effect has been detected.     

注意缺陷多动障碍与儿茶酚-O-甲基转移酶基因的关联分析

目的：分析COMT基因多态性与ADHD的关联;寻找ADHD的易感基因。方法：采用PCR-RFLP技术,检测54名ADHD患者及其父母（n=82）和正常对照者（n=30）COMT基因Val158Met多态性的基因型和等位基因频率,运用病例对照研究和核心家系的关联分析（HRR和TDT）方法分别进行分析。结果：Val158Met多态性的各基因型和等位基因频率在ADHD组与对照组以及核心家系中的分布差异均无显著性（均P〉0．05）。注意缺陷为主型患儿COMT基因的G／G型频率和G等位基因频率明显高于混合型的（P〈0．05）,A等位基因与ADHD的某些临床症状如注意问题、违纪行为、攻击行为等相关。结论：（1）COMT基因可能与ADHD缺乏关联。仅起微效基因的作用：（2）COMT可能与ADHD临床亚型或临床症状有关。     

Association study of a functional catechol-O-methyltransferase polymorphism and executive function in elderly males without dementia

Cognitive function in older people is a major factor influencing quality of life. The catechol-O-methyltransferase (COMT) gene, which is essential in the metabolic degradation of prefrontal dopamine, has been considered as a leading candidate gene in the variation in cognitive performance. The aim of this study was to investigate the effect of a functional COMT (Val158Met) polymorphism on several cognition domains in a relatively homogeneous population consisting of elderly Chinese males without dementia. Six neuropsychological measurements, including Spatial Span Forward and Backward, Digit Span Forward and Backward, and Trail Making Test-A and -B, were assessed in 161 aged males. It was found that the Met/Met carriers showed a better performance than the Val/Met and Val/Val subjects on the Digit Span Forward (a measure of general attention; p=0.017, after correction for education level) test, but not on the other cognitive tests. These findings suggest that the COMT Val158Met genotype may contribute to differences in normal cognitive aging, particularly in the area of general attention.     

Genes,cognition and brain through a COMT lens

Various genes are known to modulate the delicate balance of dopamine in prefrontal cortex and influence cortical information processing. Catechol-O-methyltransferase (COMT) on chromosome 22q11 is the most widely studied of these genes. Val158Met, a common, functional variant in the coding sequence that increases or decreases the enzymatic activity of the gene has been shown to impact the efficiency of prefrontally-mediated cognition, specifically executive functioning, working memory, fluid intelligence and attentional control. We review the rapidly evolving literature exploring the association between COMT genotype and cognitive performance, and illustrate how this polymorphism has served a pivotal role in characterizing various interacting dimensions of complexity in the relationship between genes and cognition. We review how Val158Met has been used to help develop and validate behavioral and neurophysiological phenotypes, as a critical tool in dissecting overlapping neural functional systems and exploring interactions within and between genes, and in exploring how gene effects on cognition are modulated by environmental, demographic and developmental factors. Despite the impressive range of findings, the COMT story is also a bracing reminder of how much work remains to translate this knowledge into practical clinical applications.     

Association study of a functional catechol-O-methyltransferase-gene polymorphism and cognitive function in healthy females

Using the Wisconsin Card Sorting Test, it has been determined, that the catechol-O-methyltransferase (COMT) Val158Met genetic polymorphism, a functional polymorphism that may affect dopamine metabolism, is associated with prefrontal cognitive function. This study of a cohort of 120 healthy young Chinese females attempted to utilize P300 event-related potentials to replicate this finding and to test the relationship between this COMT polymorphism and cortical physiology. The results demonstrate that subjects bearing the Met/Met homozygote have significantly lower mean P300 latencies than do analogs bearing the Val allele. A significant association between this COMT polymorphism and perseverative errors was not demonstrated in the Wisconsin Card Sorting Test, however. We suggest that, although the COMT Val158Met genetic polymorphism may play a role in cognitive function, ethnicity and testing method may affect the association. Since statistical relationships between P300 components and both the COMT genetic polymorphism and schizophrenic disorders have been demonstrated, it seems reasonable to suggest that this COMT genetic variant may affect the P300 abnormality in schizophrenia.     

Catechol O-methyl transferase and dopamine D2 receptor gene polymorphisms: evidence of positive heterosis and gene-gene interaction on working memory functioning

The COMT Val(108/158)Met polymorphism has been extensively studied in relation to individual differences in working memory (WM) performance. The present study tested the association of the COMT Val(108/158)Met polymorphism with WM performance in two independent family-based Dutch samples: 371 children (mean age 12.4 years) and 391 adults (mean age 36.2 years). A significant association was found between the COMT polymorphism and WM scores in the combined adult and young cohorts. The association reflected positive heterosis such that the Met/Met and Val/Val homozygotes did not perform as well as the Met/Val heterozygotes on the WM tasks. A secondary analysis was conducted in which a DRD2-tagging SNP (rs2075654) was tested for an interactive effect with the COMT polymorphism on WM performance. A significant interactive effect of the DRD2 and COMT genes was found such that heterosis was present only in the DRD2 genotype that has been linked to lower receptor density. Our results support previous findings that WM performance needs an optimal level of dopamine signaling within the PFC. This optimum level depends on enzymatic activity controlling dopamine level as well as dopamine receptor sensitivity, both of which may differ as a function of age and genotype. We conclude that the effects of a single polymorphism in a dopaminergic gene on a well-defined cognitive trait may easily remain hidden if the interaction with age and other genes in the pathway are not taken into account.     

Meta-analysis of Association Between a Catechol-O-Methyltransferase Gene Polymorphism and Attention Deficit Hyperactivity Disorder

There have been conflicting reports on the association between the Val158/108Met polymorphism of the catechol-O-methyltransferase (COMT) gene and attention deficit hyperactivity disorder (ADHD). Therefore we would like to perform a meta-analysis of previous studies to assess the overall magnitude and significance of the association. Family-based and case–control studies of the association between the COMT gene polymorphism and ADHD were searched systematically and comprehensively. Odds ratios (OR) of association were pooled by the fixed effects model if no significant heterogeneity was present among different studies. Subgroup analysis by gender and ADHD subtypes were also performed. Eleven family-based and two case–control studies were identified. After pooling the results, no significant association between the COMT Val158/108Met polymorphism and ADHD was found (OR 0.99 (95% CI: 0.88–1.12), P = 0.87). There was also no significant association when the results were stratified by gender or ADHD subtype. There was no significant statistical heterogeneity (χ² = 12.27, P = 0.2) although clinical heterogeneity was present in the studies, especially the ethnicity of subjects. Sensitivity analysis demonstrated absence of undue influence of any single study. Standard regression analysis showed no significant publication bias. We concluded that no significant association was present between the most common COMT gene polymorphism and ADHD. Further studies should employ larger sample size in more homogeneous subjects. Further investigations in moderator variables and gene–gene and gene–environment interactions are also warranted.     

Association of Single Nucleotide Polymorphisms in CYP1B1 and COMT Genes with Breast Cancer Susceptibility in Indian Women

Cytochrome P450 1B1 (CYP1B1) and catechol-$O$-methyltransferase (COMT) enzymes play critical roles in estrogen metabolism. Alterations in the catalytic activity of CYP1B1 and COMT enzymes have been found associated with altered breast cancer risk in postmenopausal women in many populations. The substitution of leucine (Leu) to valine (Val) at codon 432 increases the catalytic activity of CYP1B1, however, substitution of Val to methionine (Met) at codon 158 decreases the catalytic activity of COMT. The present study was performed to evaluate the associations of CYP1B1 Leu⁴³²Val and/or COMT Val¹⁵⁸Met polymorphisms with total, premenopausal and postmenopausal breast cancer risks in Indian women. COMT and CYP1B1 polymorphisms in controls and breast cancer patients were analyzed employing polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) followed by gel electrophoresis. Although CYP1B1 and COMT genotypes did not exhibit statistically significant association with breast cancer risks when analyzed individually, COMT wild type (Val¹⁵⁸Val) in combination with CYP1B1 heterozygous variant (Leu⁴³²Val) [OR: 0.21; 95% CI (0.05–0.82), p value; 0.021] and COMT heterozygous variant (Val¹⁵⁸Met) in combination with CYP1B1 wild type (Leu⁴³²Leu) [OR: 0.29; 95% CI (0.08–0.96), p value; 0.042] showed significant protective association with premenopausal breast cancer risk. The results demonstrate that CYP1B1 wild type in combination with COMT heterozygous or their inverse combination offer protection against breast cancer in premenopausal Indian women.     

Oppositional COMT Val158Met effects on resting state functional connectivity in adolescents and adults

Prefrontal dopamine levels are relatively increased in adolescence compared to adulthood. Genetic variation of COMT (COMT Val158Met) results in lower enzymatic activity and higher dopamine availability in Met carriers. Given the dramatic changes of synaptic dopamine during adolescence, it has been suggested that effects of COMT Val158Met genotypes might have oppositional effects in adolescents and adults. The present study aims to identify such oppositional COMT Val158Met effects in adolescents and adults in prefrontal brain networks at rest. Resting state functional connectivity data were collected from cross-sectional and multicenter study sites involving 106 healthy young adults (mean age 24 ± 2.6 years), gender matched to 106 randomly chosen 14-year-olds. We selected the anterior medial prefrontal cortex (amPFC) as seed due to its important role as nexus of the executive control and default mode network. We observed a significant age-dependent reversal of COMT Val158Met effects on resting state functional connectivity between amPFC and ventrolateral as well as dorsolateral prefrontal cortex, and parahippocampal gyrus. Val homozygous adults exhibited increased and adolescents decreased connectivity compared to Met homozygotes for all reported regions. Network analyses underscored the importance of the parahippocampal gyrus as mediator of observed effects. Results of this study demonstrate that adolescent and adult resting state networks are dose-dependently and diametrically affected by COMT genotypes following a hypothetical model of dopamine function that follows an inverted U-shaped curve. This study might provide cues for the understanding of disease onset or dopaminergic treatment mechanisms in major neuropsychiatric disorders such as schizophrenia and attention deficit hyperactivity disorder.     

No association between the Catechol-O-Methyltransferase (COMT) val158met polymorphism and cognitive improvement following cognitive remediation therapy (CRT) in schizophrenia

Cognitive deficits are rate limiters on recovery in schizophrenia that respond poorly to pharmacotherapy. Cognitive remediation therapy (CRT), a novel psychological therapy, has produced promising outcomes for cognition. However, little is known about the biological mechanisms that might underlie individual differences in CRT response. Catechol-O-Methyltransferase (COMT) is associated specifically with prefrontal cognition. The COMT Val158Met polymorphism is known to have a functional effect on the rate of dopamine degradation, which may be related to cognitive treatment response. This study aimed to determine whether COMT genotype influences cognitive improvement following CRT in schizophrenia. Participants with schizophrenia were recruited from three randomised controlled trials of CRT compared to treatment as usual, and one CRT treatment only trial, each providing 40 CRT sessions. Eighty-seven participants (40%) agreed to participate in the genetic study, and provided DNA for COMT genotyping. Cognitive function and psychopathology were assessed at baseline, post-treatment and 3-6-month follow-up. People with the COMT Val/Met genotype performed more poorly on categories achieved at baseline on the Wisconsin Card Sorting Test (WCST) than those homozygous for the Val or Met allele. Cognitive function improved with CRT but there was no association between this cognitive improvement and COMT genotype, either in the CRT group or in the total sample. The COMT val158Met polymorphism does not appear to be a clinically useful biomarker of cognitive improvement following CRT in schizophrenia. A complex set of factors may influence cognitive change, however, such that the COMT genotype might still have a subtle effect on response to CRT or similar interventions.     

Association study of a functional catechol-o-methyltransferase polymorphism and smoking in healthy Caucasian subjects

Tobacco smoking is a global health problem. The association of a functional common polymorphism in the catechol-o-methyltransferase gene (COMT Val158Met) with smoking behavior has been extensively studied, but with divergent findings. In the present study the frequency of COMT genotypes and alleles was evaluated in 578 male and a smaller group of 79 female unrelated, medication-free Caucasian healthy subjects of Croatian origin. Smokers were classified as subjects smoking ≤10 cigarettes per day, while subjects who never smoked in their life were regarded as nonsmokers. A χ²-test with standardized residuals and Bonferroni correction revealed significant (P = 0.017) differences in Met/Met, Met/Val or Val/Val genotype frequency between male smokers and nonsmokers. This significant association between COMT Val158Met polymorphism and smoking was not detected in female subjects, due to the small number of women, which represents a limitation of the study. Our results confirmed the significant association between COMT variants and smoking, which was due to the higher frequency of Val/Val homozygotes in male smokers compared to male nonsmokers. These results suggest that carriers of the high activity COMT variant are more prone to develop a higher level of nicotine dependence, or that they release more dopamine than carriers of Met/Met or Met/Val genotypes.     

RGS4 mRNA expression in postmortem human cortex is associated with COMT Val158Met genotype and COMT enzyme activity

Linkage, association and postmortem studies have implicated regulator of G-protein signaling 4 (RGS4), which negatively modulates signal transduction at G-protein-coupled receptors, as a candidate schizophrenia susceptibility gene. We compared RGS4 mRNA expression in the dorsolateral prefrontal cortex (DLPFC), between normal controls and patients with schizophrenia in two independent cohorts (>100 subjects each) (the CBDB/NIMH Collection and the Stanley Array Collection), and in the hippocampus in the CBDB/NIMH Collection. We also examined the effects of the four previously identified putative RGS4 risk SNPs (rs10917670, rs951436, rs951439, rs2661319) on RGS4 expression levels in these cohorts. As dopamine signaling is linked to RGS4 expression and there is evidence for statistical epistasis between COMT Val158Met polymorphism and RGS4 alleles, we also examined relationships between the COMT Val158Met genotype and RGS4 expression in the DLPFC. We did not detect a difference in RGS4 expression levels between schizophrenic patients (or bipolar disorder patients in the Stanley Collection) and controls and found no significant association between any of the RGS4 risk SNPs and RGS4 expression. However, COMT Val158Met genotype was associated with prefrontal and hippocampal RGS4 mRNA expression in an allele dose-dependent manner, with carriers of the COMT Val allele showing significantly lower expression than heterozygous individuals or subjects homozygous for the Met allele. Consistent with these genotype effects, RGS4 mRNA was inversely correlated with the COMT enzyme activity in the DLPFC. These data suggest that RGS4 mRNA expression is associated with cortical dopamine signaling and illustrate the importance of genetic and/or environmental background in gene expression studies in schizophrenia.     

A gender-moderated effect of a functional COMT polymorphism on prefrontal brain morphology and function in velo-cardio-facial syndrome (22q11.2 deletion syndrome).

Caused by a microdeletion at the q11.2 locus of chromosome 22, velo-cardio-facial syndrome (also known as VCFS, 22q11 deletion syndrome, DiGeorge sequence, and conotruncal anomalies face syndrome) is associated with a distinctive physical, neurocognitive, and psychiatric phenotype. Increasing interest has centered on identifying the candidate genes within the deleted region that may contribute to this phenotype. One attractive candidate gene is catechol-O-methyltransferase (COMT) because it encodes for a protein that degrades dopamine. Variability in COMT activity is related to a Val158Met polymorphism that has been implicated in prefrontal lobe cognitive and neuropsychiatric function. We examined the effect of this polymorphism on prefrontal anatomy and frontally-mediated neuropsychological function in 58 children with VCFS, 26 who were hemizygous for the Met allele and 32 for the Val allele. We found an allele by gender interaction effect on the volumes of the dorsal prefrontal and orbital prefrontal cortices. We did not find significant allele or gender by allele effects on neuropsychological tasks, although girls with the Met allele tended to perform better on the Wisconsin card sorting task. These data suggest that this functional COMT polymorphism may play a gender-moderated role in determining the neuroanatomic phenotype of individuals with VCFS. Longitudinal evaluation of these children is essential in order to identify potential clinical implications of this allele by gender interaction.     

COMT genetic variation affects fear processing: psychophysiological evidence

Emotional dysregulation is a core characteristic of many psychiatric diseases, including the anxiety disorders. Although heritable influences account for a significant degree of variation in risk for such disorders, relatively few candidate susceptibility factors have been identified. A coding variant in one such gene, encoding the dopamine catabolic enzyme catechol-O-methyltransferase (COMT Val158Met), has previously been associated with anxiety and with anxiety-related temperament and altered neural responses to affective stimuli in healthy individuals. In 96 healthy women recruited from a sample of 800 participants according to genotype, the authors tested for an association between the DRD2/ANKK1 Taq Ia, the COMT Val158Met, and a psychophysiological measure of emotion processing, the acoustic affective startle reflex modulation (ASRM) paradigm, and found that COMT genotype significantly affected startle reflex modulation by aversive stimuli, with Met158 homozygotes exhibiting a markedly potentiated startle reflex compared with Val158 carriers. A trait measure of anxiety (Gray's Behavioral Inhibition System; J. A. Gray & N. McNaughton, 2000) was also associated with ASRM. The functional polymorphism in the dopamine D2 receptor (DRD2/ANKK1 Taq Ia) had no effect on startle modulation. The findings support prior genetic and neuroimaging associations of the COMT 158Met allele to affective psychopathology and alterations in neural systems for emotional arousal and regulation.     

Association analysis of the DRD4 and COMT genes in methamphetamine abuse.

We analyzed two polymorphisms in genes encoding proteins of the dopamine system, the Val158Met polymorphism in the catechol-O-methyltransferase gene and the 120-bp VNTR polymorphism in the promoter of the dopamine D4 receptor gene for association with methamphetamine abuse. We used a case/control design with 416 methamphetamine abusing subjects and 435 normal controls. All subjects were Han Chinese from Taiwan. We found an excess of the high activity Val158 allele in the methamphetamine abuser group, consistent with several previous reports of association of this allele with drug abuse. The 120-bp VNTR polymorphism in the promoter of the dopamine D4 receptor gene itself did not show significant association with methamphetamine abuse. However, analysis of the 120-bp VNTR polymorphism and the exon 3 VNTR in the dopamine D4 receptor as a haplotype showed significant association with methamphetamine abuse, which gave an empirical P value 0.0034 for a heterogeneity model. Moreover, there were significant interactive effects between polymorphisms in the catechol-O-methyltransferase and dopamine D4 genes. The evidence of interaction between COMT 158 Val/Met and DRD4 48-bp VNTR polymorphisms (P = 0.0003, OR = 1.45, 95% CI: 1.148-1.77), and between COMT 158 Val/Met and DRD4 120 bp promoter polymorphisms (P = 0.01, OR = 1.10, 95% CI: 1.10-1.18) were significant but the latter was weak. We conclude that genetic variation in the dopamine system may encode an additive effect on risk of becoming a methamphetamine abuser.