Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 20 de 34
Filter
1.
Transl Psychiatry ; 7(4): e1100, 2017 04 18.
Article in English | MEDLINE | ID: mdl-28418400

ABSTRACT

The association between telomere length (TL) dynamics on cognitive performance over the life-course is not well understood. This study meta-analyses observational and causal associations between TL and six cognitive traits, with stratifications on APOE genotype, in a Mendelian Randomization (MR) framework. Twelve European cohorts (N=17 052; mean age=59.2±8.8 years) provided results for associations between qPCR-measured TL (T/S-ratio scale) and general cognitive function, mini-mental state exam (MMSE), processing speed by digit symbol substitution test (DSST), visuospatial functioning, memory and executive functioning (STROOP). In addition, a genetic risk score (GRS) for TL including seven known genetic variants for TL was calculated, and used in associations with cognitive traits as outcomes in all cohorts. Observational analyses showed that longer telomeres were associated with better scores on DSST (ß=0.051 per s.d.-increase of TL; 95% confidence interval (CI): 0.024, 0.077; P=0.0002), and MMSE (ß=0.025; 95% CI: 0.002, 0.047; P=0.03), and faster STROOP (ß=-0.053; 95% CI: -0.087, -0.018; P=0.003). Effects for DSST were stronger in APOE ɛ4 non-carriers (ß=0.081; 95% CI: 0.045, 0.117; P=1.0 × 10-5), whereas carriers performed better in STROOP (ß=-0.074; 95% CI: -0.140, -0.009; P=0.03). Causal associations were found for STROOP only (ß=-0.598 per s.d.-increase of TL; 95% CI: -1.125, -0.072; P=0.026), with a larger effect in ɛ4-carriers (ß=-0.699; 95% CI: -1.330, -0.069; P=0.03). Two-sample replication analyses using CHARGE summary statistics showed causal effects between TL and general cognitive function and DSST, but not with STROOP. In conclusion, we suggest causal effects from longer TL on better cognitive performance, where APOE ɛ4-carriers might be at differential risk.


Subject(s)
Cognitive Dysfunction/genetics , Mendelian Randomization Analysis , Telomere/genetics , White People/genetics , Adult , Aged , Apolipoprotein E4/genetics , Cognitive Dysfunction/diagnosis , Cohort Studies , Female , Genetic Carrier Screening , Genotype , Humans , Male , Middle Aged , Neuropsychological Tests/statistics & numerical data , Psychometrics , Statistics as Topic
2.
Mol Psychiatry ; 21(6): 837-43, 2016 06.
Article in English | MEDLINE | ID: mdl-26390830

ABSTRACT

Inbreeding depression refers to lower fitness among offspring of genetic relatives. This reduced fitness is caused by the inheritance of two identical chromosomal segments (autozygosity) across the genome, which may expose the effects of (partially) recessive deleterious mutations. Even among outbred populations, autozygosity can occur to varying degrees due to cryptic relatedness between parents. Using dense genome-wide single-nucleotide polymorphism (SNP) data, we examined the degree to which autozygosity associated with measured cognitive ability in an unselected sample of 4854 participants of European ancestry. We used runs of homozygosity-multiple homozygous SNPs in a row-to estimate autozygous tracts across the genome. We found that increased levels of autozygosity predicted lower general cognitive ability, and estimate a drop of 0.6 s.d. among the offspring of first cousins (P=0.003-0.02 depending on the model). This effect came predominantly from long and rare autozygous tracts, which theory predicts as more likely to be deleterious than short and common tracts. Association mapping of autozygous tracts did not reveal any specific regions that were predictive beyond chance after correcting for multiple testing genome wide. The observed effect size is consistent with studies of cognitive decline among offspring of known consanguineous relationships. These findings suggest a role for multiple recessive or partially recessive alleles in general cognitive ability, and that alleles decreasing general cognitive ability have been selected against over evolutionary time.


Subject(s)
Cognition/physiology , Inbreeding Depression/genetics , Adult , Alleles , Chromosome Mapping/methods , Female , Genome, Human/genetics , Genome-Wide Association Study , Homozygote , Humans , Inbreeding Depression/physiology , Male , Polymorphism, Single Nucleotide/genetics , White People/genetics
3.
Mol Psychiatry ; 21(3): 419-25, 2016 Mar.
Article in English | MEDLINE | ID: mdl-25754080

ABSTRACT

Cognitive impairment is common among individuals diagnosed with autism spectrum disorder (ASD) and attention-deficit hyperactivity disorder (ADHD). It has been suggested that some aspects of intelligence are preserved or even superior in people with ASD compared with controls, but consistent evidence is lacking. Few studies have examined the genetic overlap between cognitive ability and ASD/ADHD. The aim of this study was to examine the polygenic overlap between ASD/ADHD and cognitive ability in individuals from the general population. Polygenic risk for ADHD and ASD was calculated from genome-wide association studies of ASD and ADHD conducted by the Psychiatric Genetics Consortium. Risk scores were created in three independent cohorts: Generation Scotland Scottish Family Health Study (GS:SFHS) (n=9863), the Lothian Birth Cohorts 1936 and 1921 (n=1522), and the Brisbane Adolescent Twin Sample (BATS) (n=921). We report that polygenic risk for ASD is positively correlated with general cognitive ability (beta=0.07, P=6 × 10(-7), r(2)=0.003), logical memory and verbal intelligence in GS:SFHS. This was replicated in BATS as a positive association with full-scale intelligent quotient (IQ) (beta=0.07, P=0.03, r(2)=0.005). We did not find consistent evidence that polygenic risk for ADHD was associated with cognitive function; however, a negative correlation with IQ at age 11 years (beta=-0.08, Z=-3.3, P=0.001) was observed in the Lothian Birth Cohorts. These findings are in individuals from the general population, suggesting that the relationship between genetic risk for ASD and intelligence is partly independent of clinical state. These data suggest that common genetic variation relevant for ASD influences general cognitive ability.


Subject(s)
Attention Deficit Disorder with Hyperactivity/etiology , Autism Spectrum Disorder/complications , Autism Spectrum Disorder/genetics , Cognition Disorders/etiology , Multifactorial Inheritance/genetics , Polymorphism, Single Nucleotide/genetics , Adolescent , Adult , Attention Deficit Disorder with Hyperactivity/genetics , Autism Spectrum Disorder/epidemiology , Cohort Studies , Databases, Factual/statistics & numerical data , Family Health , Female , Genome-Wide Association Study , Humans , Intelligence Tests , Linear Models , Male , Risk Factors , Scotland , Severity of Illness Index , Young Adult
4.
Genes Brain Behav ; 13(8): 821-30, 2014 Nov.
Article in English | MEDLINE | ID: mdl-25199620

ABSTRACT

Understanding the aetiology of patterns of variation within and covariation across brain regions is key to advancing our understanding of the functional, anatomical and developmental networks of the brain. Here we applied multivariate twin modelling and principal component analysis (PCA) to investigate the genetic architecture of the size of seven subcortical regions (caudate nucleus, thalamus, putamen, pallidum, hippocampus, amygdala and nucleus accumbens) in a genetically informative sample of adolescents and young adults (N = 1038; mean age = 21.6 ± 3.2 years; including 148 monozygotic and 202 dizygotic twin pairs) from the Queensland Twin IMaging (QTIM) study. Our multivariate twin modelling identified a common genetic factor that accounts for all the heritability of intracranial volume (0.88) and a substantial proportion of the heritability of all subcortical structures, particularly those of the thalamus (0.71 out of 0.88), pallidum (0.52 out of 0.75) and putamen (0.43 out of 0.89). In addition, we also found substantial region-specific genetic contributions to the heritability of the hippocampus (0.39 out of 0.79), caudate nucleus (0.46 out of 0.78), amygdala (0.25 out of 0.45) and nucleus accumbens (0.28 out of 0.52). This provides further insight into the extent and organization of subcortical genetic architecture, which includes developmental and general growth pathways, as well as the functional specialization and maturation trajectories that influence each subcortical region.


Subject(s)
Cerebrum/anatomy & histology , Twins/genetics , Adolescent , Adult , Female , Humans , Male , Organ Size/genetics , Young Adult
5.
Transl Psychiatry ; 4: e341, 2014 Jan 07.
Article in English | MEDLINE | ID: mdl-24399044

ABSTRACT

Differences in general cognitive ability (intelligence) account for approximately half of the variation in any large battery of cognitive tests and are predictive of important life events including health. Genome-wide analyses of common single-nucleotide polymorphisms indicate that they jointly tag between a quarter and a half of the variance in intelligence. However, no single polymorphism has been reliably associated with variation in intelligence. It remains possible that these many small effects might be aggregated in networks of functionally linked genes. Here, we tested a network of 1461 genes in the postsynaptic density and associated complexes for an enriched association with intelligence. These were ascertained in 3511 individuals (the Cognitive Ageing Genetics in England and Scotland (CAGES) consortium) phenotyped for general cognitive ability, fluid cognitive ability, crystallised cognitive ability, memory and speed of processing. By analysing the results of a genome wide association study (GWAS) using Gene Set Enrichment Analysis, a significant enrichment was found for fluid cognitive ability for the proteins found in the complexes of N-methyl-D-aspartate receptor complex; P=0.002. Replication was sought in two additional cohorts (N=670 and 2062). A meta-analytic P-value of 0.003 was found when these were combined with the CAGES consortium. The results suggest that genetic variation in the macromolecular machines formed by membrane-associated guanylate kinase (MAGUK) scaffold proteins and their interaction partners contributes to variation in intelligence.


Subject(s)
Cognition/physiology , Genome-Wide Association Study , Guanylate Kinases/genetics , Intelligence/genetics , Receptors, N-Methyl-D-Aspartate/genetics , Signal Transduction/genetics , Aged , Aged, 80 and over , Cognition/classification , Cohort Studies , Female , Genetic Variation , Humans , Male , Middle Aged , Phenotype , Proteomics
6.
Mol Psychiatry ; 19(2): 253-8, 2014 Feb.
Article in English | MEDLINE | ID: mdl-23358156

ABSTRACT

Intelligence in childhood, as measured by psychometric cognitive tests, is a strong predictor of many important life outcomes, including educational attainment, income, health and lifespan. Results from twin, family and adoption studies are consistent with general intelligence being highly heritable and genetically stable throughout the life course. No robustly associated genetic loci or variants for childhood intelligence have been reported. Here, we report the first genome-wide association study (GWAS) on childhood intelligence (age range 6-18 years) from 17,989 individuals in six discovery and three replication samples. Although no individual single-nucleotide polymorphisms (SNPs) were detected with genome-wide significance, we show that the aggregate effects of common SNPs explain 22-46% of phenotypic variation in childhood intelligence in the three largest cohorts (P=3.9 × 10(-15), 0.014 and 0.028). FNBP1L, previously reported to be the most significantly associated gene for adult intelligence, was also significantly associated with childhood intelligence (P=0.003). Polygenic prediction analyses resulted in a significant correlation between predictor and outcome in all replication cohorts. The proportion of childhood intelligence explained by the predictor reached 1.2% (P=6 × 10(-5)), 3.5% (P=10(-3)) and 0.5% (P=6 × 10(-5)) in three independent validation cohorts. Given the sample sizes, these genetic prediction results are consistent with expectations if the genetic architecture of childhood intelligence is like that of body mass index or height. Our study provides molecular support for the heritability and polygenic nature of childhood intelligence. Larger sample sizes will be required to detect individual variants with genome-wide significance.


Subject(s)
Carrier Proteins/genetics , Intelligence/genetics , Multifactorial Inheritance , Adolescent , Child , Cohort Studies , Female , Genome-Wide Association Study , Genotyping Techniques , Humans , Intelligence Tests , Male , Phenotype , Polymorphism, Single Nucleotide , Quantitative Trait, Heritable , Software , White People/genetics
7.
Genes Brain Behav ; 12(6): 645-52, 2013 Aug.
Article in English | MEDLINE | ID: mdl-23738518

ABSTRACT

Candidate genes have been identified for both reading and language, but most of the heritable variance in these traits remains unexplained. Here, we report a genome-wide association meta-analysis of two large cohorts: population samples of Australian twins and siblings aged 12-25 years (n = 1177 from 538 families), and a younger cohort of children of the UK Avon Longitudinal Study of Parents and their Children (aged 8 and 9 years; maximum n = 5472). Suggestive association was indicated for reading measures and non-word repetition (NWR), with the greatest support found for single nucleotide polymorphisms (SNPs) in the pseudogene, ABCC13 (P = 7.34 × 10(-8)), and the gene, DAZAP1 (P = 1.32 × 10(-6)). Gene-based analyses showed significant association (P < 2.8 × 10(-6)) for reading and spelling with genes CD2L1, CDC2L2 and RCAN3 in two loci on chromosome 1. Some support was found for the same SNPs having effects on both reading skill and NWR, which is compatible with behavior genetic evidence for influences of reading acquisition on phonological-task performance. The results implicate novel candidates for study in additional cohorts for reading and language abilities.


Subject(s)
Genome-Wide Association Study , Language Development , Population/genetics , Reading , ATP-Binding Cassette Transporters/genetics , Adaptor Proteins, Signal Transducing/genetics , Adolescent , Adult , Case-Control Studies , Child , Chromosomes, Human, Pair 1/genetics , Cyclin-Dependent Kinases/genetics , Dyslexia/genetics , Female , Genetic Loci , Humans , Language Tests , Male , Polymorphism, Single Nucleotide , Pseudogenes , RNA-Binding Proteins/genetics , Siblings , Twins
8.
Mol Psychiatry ; 17(3): 337-49, 2012 Mar.
Article in English | MEDLINE | ID: mdl-21173776

ABSTRACT

Personality can be thought of as a set of characteristics that influence people's thoughts, feelings and behavior across a variety of settings. Variation in personality is predictive of many outcomes in life, including mental health. Here we report on a meta-analysis of genome-wide association (GWA) data for personality in 10 discovery samples (17,375 adults) and five in silico replication samples (3294 adults). All participants were of European ancestry. Personality scores for Neuroticism, Extraversion, Openness to Experience, Agreeableness and Conscientiousness were based on the NEO Five-Factor Inventory. Genotype data of ≈ 2.4M single-nucleotide polymorphisms (SNPs; directly typed and imputed using HapMap data) were available. In the discovery samples, classical association analyses were performed under an additive model followed by meta-analysis using the weighted inverse variance method. Results showed genome-wide significance for Openness to Experience near the RASA1 gene on 5q14.3 (rs1477268 and rs2032794, P=2.8 × 10(-8) and 3.1 × 10(-8)) and for Conscientiousness in the brain-expressed KATNAL2 gene on 18q21.1 (rs2576037, P=4.9 × 10(-8)). We further conducted a gene-based test that confirmed the association of KATNAL2 to Conscientiousness. In silico replication did not, however, show significant associations of the top SNPs with Openness and Conscientiousness, although the direction of effect of the KATNAL2 SNP on Conscientiousness was consistent in all replication samples. Larger scale GWA studies and alternative approaches are required for confirmation of KATNAL2 as a novel gene affecting Conscientiousness.


Subject(s)
Genome-Wide Association Study , Personality/genetics , Adenosine Triphosphatases/genetics , Adenosine Triphosphatases/physiology , Adult , Aged , Australia , Chromosomes, Human/genetics , Computer Simulation , Europe/ethnology , Exploratory Behavior , Female , Genotype , Humans , Katanin , Male , Middle Aged , Models, Psychological , Personality Inventory , Phenotype , Polymorphism, Single Nucleotide , Sampling Studies , United States , White People/genetics
9.
Psychol Med ; 42(6): 1249-60, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22051348

ABSTRACT

BACKGROUND: Genetic studies in adults indicate that genes influencing the personality trait of neuroticism account for substantial genetic variance in anxiety and depression and in somatic health. Here, we examine for the first time the factors underlying the relationship between neuroticism and anxiety/depressive and somatic symptoms during adolescence. METHOD: The Somatic and Psychological Health Report (SPHERE) assessed symptoms of anxiety/depression (PSYCH-14) and somatic distress (SOMA-10) in 2459 adolescent and young adult twins [1168 complete pairs (35.4% monozygotic, 53% female)] aged 12-25 years (mean=15.5 ± 2.9). Differences between boys and girls across adolescence were explored for neuroticism, SPHERE-34, and the subscales PSYCH-14 and SOMA-10. Trivariate analyses partitioned sources of covariance in neuroticism, PSYCH-14 and SOMA-10. RESULTS: Girls scored higher than boys on both neuroticism and SPHERE, with SPHERE scores for girls increasing slightly over time, whereas scores for boys decreased or were unchanged. Neuroticism and SPHERE scores were strongly influenced by genetic factors [heritability (h(2)) = 40-52%]. A common genetic source influenced neuroticism, PSYCH-14 and SOMA-10 (impacting PSYCH-14 more than SOMA-10). A further genetic source, independent of neuroticism, accounted for covariation specific to PSYCH-14 and SOMA-10. Environmental influences were largely specific to each measure. CONCLUSIONS: In adolescence, genetic risk factors indexed by neuroticism contribute substantially to anxiety/depression and, to a lesser extent, perceived somatic health. Additional genetic covariation between anxiety/depressive and somatic symptoms, independent of neuroticism, had greatest influence on somatic distress, where it was equal in influence to the factor shared with neuroticism.


Subject(s)
Anxiety Disorders/genetics , Depressive Disorder/genetics , Diseases in Twins , Models, Genetic , Neurotic Disorders/genetics , Somatoform Disorders/genetics , Adolescent , Adult , Age of Onset , Anxiety Disorders/epidemiology , Child , Comorbidity , Depressive Disorder/epidemiology , Female , Genetic Predisposition to Disease , Genetic Variation , Humans , Male , Neurotic Disorders/epidemiology , Personality Assessment , Self Report , Sex Distribution , Social Environment , Somatoform Disorders/epidemiology , Twins/genetics , Twins/statistics & numerical data , Young Adult
10.
Mol Psychiatry ; 16(9): 927-37, 881, 2011 Sep.
Article in English | MEDLINE | ID: mdl-21502949

ABSTRACT

The caudate is a subcortical brain structure implicated in many common neurological and psychiatric disorders. To identify specific genes associated with variations in caudate volume, structural magnetic resonance imaging and genome-wide genotypes were acquired from two large cohorts, the Alzheimer's Disease NeuroImaging Initiative (ADNI; N=734) and the Brisbane Adolescent/Young Adult Longitudinal Twin Study (BLTS; N=464). In a preliminary analysis of heritability, around 90% of the variation in caudate volume was due to genetic factors. We then conducted genome-wide association to find common variants that contribute to this relatively high heritability. Replicated genetic association was found for the right caudate volume at single-nucleotide polymorphism rs163030 in the ADNI discovery sample (P=2.36 × 10⁻6) and in the BLTS replication sample (P=0.012). This genetic variation accounted for 2.79 and 1.61% of the trait variance, respectively. The peak of association was found in and around two genes, WDR41 and PDE8B, involved in dopamine signaling and development. In addition, a previously identified mutation in PDE8B causes a rare autosomal-dominant type of striatal degeneration. Searching across both samples offers a rigorous way to screen for genes consistently influencing brain structure at different stages of life. Variants identified here may be relevant to common disorders affecting the caudate.


Subject(s)
Caudate Nucleus/anatomy & histology , Dopamine/genetics , Genome-Wide Association Study/statistics & numerical data , 3',5'-Cyclic-AMP Phosphodiesterases/genetics , Adult , Age Factors , Aged , Female , Genetic Variation , Genome-Wide Association Study/methods , Genotype , Heredity/genetics , Humans , Magnetic Resonance Imaging/methods , Male , Neuroimaging/statistics & numerical data , Polymorphism, Single Nucleotide
11.
Transl Psychiatry ; 1: e49, 2011 Oct 18.
Article in English | MEDLINE | ID: mdl-22833195

ABSTRACT

The tendency to seek stimulating activities and intense sensations define excitement-seeking, a personality trait akin to some aspects of sensation-seeking. This trait is a central feature of extraversion and is a component of the multifaceted impulsivity construct. Those who score high on measures of excitement-seeking are more likely to smoke, use other drugs, gamble, drive recklessly, have unsafe/unprotected sex and engage in other risky behaviors of clinical and social relevance. To identify common genetic variants associated with the Excitement-Seeking scale of the Revised NEO Personality Inventory, we performed genome-wide association studies in six samples of European ancestry (N=7860), and combined the results in a meta-analysis. We identified a genome-wide significant association between the Excitement-Seeking scale and rs7600563 (P=2 × 10(-8)). This single-nucleotide polymorphism maps within the catenin cadherin-associated protein, alpha 2 (CTNNA2) gene, which encodes for a brain-expressed α-catenin critical for synaptic contact. The effect of rs7600563 was in the same direction in all six samples, but did not replicate in additional samples (N=5105). The results provide insight into the genetics of excitement-seeking and risk-taking, and are relevant to hyperactivity, substance use, antisocial and bipolar disorders.


Subject(s)
Genetic Variation , Genome-Wide Association Study/methods , Psychomotor Agitation/genetics , Psychomotor Agitation/metabolism , alpha Catenin/genetics , Adolescent , Adult , Australia/epidemiology , Baltimore/epidemiology , Estonia/epidemiology , Female , Finland/epidemiology , Germany/epidemiology , Humans , Italy/epidemiology , Longitudinal Studies , Male , Middle Aged , Netherlands/epidemiology , Polymorphism, Single Nucleotide/genetics , Psychomotor Agitation/classification , Young Adult
12.
Transl Psychiatry ; 1: e50, 2011 Oct 18.
Article in English | MEDLINE | ID: mdl-22833196

ABSTRACT

The relationship between major depressive disorder (MDD) and bipolar disorder (BD) remains controversial. Previous research has reported differences and similarities in risk factors for MDD and BD, such as predisposing personality traits. For example, high neuroticism is related to both disorders, whereas openness to experience is specific for BD. This study examined the genetic association between personality and MDD and BD by applying polygenic scores for neuroticism, extraversion, openness to experience, agreeableness and conscientiousness to both disorders. Polygenic scores reflect the weighted sum of multiple single-nucleotide polymorphism alleles associated with the trait for an individual and were based on a meta-analysis of genome-wide association studies for personality traits including 13,835 subjects. Polygenic scores were tested for MDD in the combined Genetic Association Information Network (GAIN-MDD) and MDD2000+ samples (N=8921) and for BD in the combined Systematic Treatment Enhancement Program for Bipolar Disorder and Wellcome Trust Case-Control Consortium samples (N=6329) using logistic regression analyses. At the phenotypic level, personality dimensions were associated with MDD and BD. Polygenic neuroticism scores were significantly positively associated with MDD, whereas polygenic extraversion scores were significantly positively associated with BD. The explained variance of MDD and BD, ∼0.1%, was highly comparable to the variance explained by the polygenic personality scores in the corresponding personality traits themselves (between 0.1 and 0.4%). This indicates that the proportions of variance explained in mood disorders are at the upper limit of what could have been expected. This study suggests shared genetic risk factors for neuroticism and MDD on the one hand and for extraversion and BD on the other.


Subject(s)
Bipolar Disorder/genetics , Depressive Disorder, Major/genetics , Multifactorial Inheritance/genetics , Adult , Aged , Female , Genome-Wide Association Study , Humans , Male , Meta-Analysis as Topic , Middle Aged , Personality/genetics , Personality Inventory , Registries
13.
Genes Brain Behav ; 6(3): 260-8, 2007 Apr.
Article in English | MEDLINE | ID: mdl-16848784

ABSTRACT

Brain-derived neurotrophic factor (BDNF) may play a role in modulating memory function and there is growing evidence that the BDNF V166M polymorphism may influence episodic memory in humans. However, previous association studies examining this polymorphism and working memory are inconsistent. The current study examined this association in a large sample of adolescent twin-pairs and siblings (785 individuals from 439 families). A range of measures (event-related potential, general performance and reaction time) was obtained from a delayed-response working-memory task and total association was examined using the quantitative transmission disequilibrium tests (QTDT) program. Analyses had approximately 93-97% power (alpha= 0.05) to detect an association accounting for as little as 2% of the variance in the phenotypes examined. Results indicated that the BDNF V166M polymorphism is not associated with variation in working memory in healthy adolescents.


Subject(s)
Brain-Derived Neurotrophic Factor/genetics , Event-Related Potentials, P300/genetics , Memory, Short-Term/physiology , Polymorphism, Single Nucleotide , Reaction Time/genetics , Adolescent , Adult , Brain-Derived Neurotrophic Factor/metabolism , Chi-Square Distribution , Event-Related Potentials, P300/physiology , Female , Humans , Linkage Disequilibrium , Reaction Time/physiology , Reference Values , Siblings , Statistics, Nonparametric , Twins, Dizygotic/genetics , Twins, Dizygotic/metabolism
14.
Behav Genet ; 36(1): 29-44, 2006 Jan.
Article in English | MEDLINE | ID: mdl-16331531

ABSTRACT

Working memory is an essential component of wide-ranging cognitive functions. It is a complex genetic trait probably influenced by numerous genes that individually have only a small influence. These genes may have an amplified influence on phenotypes closer to the gene action. In this study, event-related potential (ERP) phenotypes recorded during a working-memory task were collected from 656 adolescents from 299 families for whom genotypes were available. Univariate linkage analyses using the MERLIN variance-components method were conducted on slow wave phenotypes recorded at multiple sites while participants were required to remember the location of a target. Suggestive linkage (LOD > 2.2) was found on chromosomes 4, 5, 6, 10, 17, and 20. After correcting for multiple testing, suggestive linkage remained on chromosome 10. Empirical thresholds were computed for the most promising phenotypes. Those on chromosome 10 remained suggestive. A number of genes reported to regulate neural differentiation and function (i.e. NRP1, ANK3, and CHAT) were found under these linkage peaks and may influence the levels of neural activity occurring in individuals participating in a spatial working-memory task.


Subject(s)
Chromosome Mapping , Evoked Potentials/genetics , Memory/physiology , Adolescent , Analysis of Variance , Computer Simulation , Female , Genotype , Humans , Lod Score , Male , Phenotype , Twins, Dizygotic/genetics , Twins, Monozygotic/genetics
15.
Behav Genet ; 35(6): 695-706, 2005 Nov.
Article in English | MEDLINE | ID: mdl-16273318

ABSTRACT

The aim of this study was to identify genetic covariants for fundamental measures of brain function (event-related potentials (ERPs): P300 latency and slow wave amplitude recorded in a working-memory task) and more complex cognitive measures (behavioral non-ERP measures: working-memory performance, information processing speed, IQ). Data were collected from 252 monozygotic and 297 dizygotic twin pairs aged 16. Multivariate modeling identified two independent genetic factors associated with processing speed that also influenced working-memory performance (one reflected the duration of neural activity required to evaluate target information, the other reflected more general cognitive and speed-related abilities). However, the allocation of neural resources, as assessed by ERP slow wave amplitude measures, was not associated with the other cognitive measures investigated. Thus, of the ERP measures examined, P300 latency, but not slow wave amplitude, may be an informative measure to include (i.e., with working-memory performance) in future multivariate linkage and association analyses of cognitive function.


Subject(s)
Evoked Potentials/genetics , Genetic Variation , Memory/physiology , Cognition/physiology , Evoked Potentials/physiology , Humans
16.
BJOG ; 112(3): 334-9, 2005 Mar.
Article in English | MEDLINE | ID: mdl-15713150

ABSTRACT

OBJECTIVE: Congenital connective tissue dysfunction may partly be responsible for female pelvic organ prolapse and urinary incontinence. We undertook a heritability study to determine whether mobility of the bladder neck, one of the main determinants of stress urinary incontinence, is genetically influenced. DESIGN: Heritability study using a twin model and structural equation modelling. SETTING: Queensland Institute of Medical Research, Brisbane, Australia. POPULATION: One hundred and seventy-eight nulliparous Caucasian female twins and their sisters (46 monozygotic pairs, 24 dizygotic pairs and 38 sisters) aged 18-24 years. METHODS: We performed translabial ultrasound, supine and after bladder emptying, for pelvic organ mobility. Urethral rotation and bladder neck descent were calculated using the best of three effective Valsalva manoeuvres. MAIN OUTCOME MEASURES: Bladder and urethral mobility on Valsalva assessed by urethral rotation, vertical and oblique bladder neck descent. RESULTS: Genetic modelling indicated that additive genes accounted for up to 59% of the variance for bladder neck descent. All remaining variance appeared due to environmental influences unique to the individual, including measurement error. CONCLUSION: A significant genetic contribution to the phenotype of bladder neck mobility appears likely.


Subject(s)
Heredity/physiology , Movement/physiology , Urethra/physiology , Urinary Bladder/physiology , Adolescent , Adult , Age Factors , Analysis of Variance , Environment , Female , Humans , Pelvic Floor , Phenotype , Prolapse , Ultrasonography , Urethra/diagnostic imaging , Urinary Bladder/diagnostic imaging , Urinary Incontinence/genetics , Valsalva Maneuver/genetics
17.
Twin Res ; 4(1): 48-56, 2001 Feb.
Article in English | MEDLINE | ID: mdl-11665325

ABSTRACT

A multidisciplinary collaborative study examining cognition in a large sample of twins is outlined. A common experimental protocol and design is used in The Netherlands, Australia and Japan to measure cognitive ability using traditional IQ measures (i.e., psychometric IQ), processing speed (e.g., reaction time [RT] and inspection time [IT]), and working memory (e.g., spatial span, delayed response [DR] performance). The main aim is to investigate the genetic covariation among these cognitive phenotypes in order to use the correlated biological markers in future linkage and association analyses to detect quantitative-trait loci (QTLs). We outline the study and methodology, and report results from our preliminary analyses that examines the heritability of processing speed and working memory indices, and their phenotypic correlation with IQ. Heritability of Full Scale IQ was 87% in the Netherlands, 83% in Australia, and 71% in Japan. Heritability estimates for processing speed and working memory indices ranged from 33-64%. Associations of IQ with RT and IT (-0.28 to -0.36) replicated previous findings with those of higher cognitive ability showing faster speed of processing. Similarly, significant correlations were indicated between IQ and the spatial span working memory task (storage [0.31], executive processing [0.37]) and the DR working memory task (0.25), with those of higher cognitive ability showing better memory performance. These analyses establish the heritability of the processing speed and working memory measures to be used in our collaborative twin study of cognition, and support the findings that individual differences in processing speed and working memory may underlie individual differences in psychometric IQ.


Subject(s)
Cognition/physiology , Cooperative Behavior , Adolescent , Adult , Aged , Aptitude Tests , Clinical Protocols , Electrophysiology , Female , Humans , Intelligence/genetics , Male , Memory/physiology , Middle Aged , Phenotype , Psychometrics , Reaction Time/genetics , Task Performance and Analysis , Twin Studies as Topic
18.
Behav Genet ; 31(6): 555-65, 2001 Nov.
Article in English | MEDLINE | ID: mdl-11838533

ABSTRACT

The P3(00) event-related potential (ERP) component is widely used as a measure of cognitive functioning and provides a sensitive electrophysiological index of the attentional and working memory demands of a task. This study investigated what proportion of the variance in the amplitude and latency of the P3, elicited in a delayed response working memory task, could be attributed to genetic factors. In 335 adolescent twin pairs and 48 siblings, the amplitude and latency of the P3 were examined at frontal, central, and parietal sites. Additive genetic factors accounted for 48% to 61% of the variance in P3 amplitude. Approximately one-third of the genetic variation at frontal sites was mediated by a common genetic factor that also influenced the genetic variation at parietal and central sites. Familial resemblance in P3 latency was due to genetic influence that accounted for 44% to 50% of the variance. Genetic covariance in P3 latency across sites was substantial, with a large part of the variance found at parietal, central, and frontal sites attributed to a common genetic factor. The findings provide further evidence that the P3 is a promising phenotype of neural activity of the brain and has the potential to be used in linkage and association analysis in the search for quantitative trait loci (QTLs) influencing cognition.


Subject(s)
Cerebral Cortex/physiology , Event-Related Potentials, P300/genetics , Genetic Variation , Intelligence/genetics , Reaction Time/genetics , Twins/genetics , Adolescent , Attention/physiology , Electroencephalography , Female , Humans , Male , Mental Recall/physiology , Parietal Lobe/physiology
19.
Behav Genet ; 31(6): 603-14, 2001 Nov.
Article in English | MEDLINE | ID: mdl-11838537

ABSTRACT

Individual differences in the variance of event-related potential (ERP) slow wave (SW) measures were examined. SW was recorded at prefrontal and parietal sites during memory and sensory trials of a delayed-response task in 391 adolescent twin pairs. Familial resemblance was identified and there was a strong suggestion of genetic influence. A common genetic factor influencing memory and sensory SW was identified at the prefrontal site (accounting for an estimated 35%-37% of the reliable variance) and at the parietal site (51%-52% of the reliable variance). Remaining reliable variance was influenced by unique environmental factors. Measurement error accounted for 24% to 30% of the total variance of each variable. The results show genetic independence for recording site, but not trial type, and suggest that the genetic factors identified relate more directly to brain structures, as defined by the cognitive functions they support, than to the cognitive networks that link them.


Subject(s)
Cerebral Cortex/physiology , Electroencephalography , Intelligence/genetics , Retention, Psychology/physiology , Twins/genetics , Adolescent , Female , Genetic Variation , Humans , Individuality , Male , Models, Genetic , Parietal Lobe/physiology , Prefrontal Cortex/physiology , Social Environment
SELECTION OF CITATIONS
SEARCH DETAIL
...