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52. The Amsterdam resting-state questionnaire reveals multiple phenotypes of resting-state cognition.

Author

Diaz, A.B., Van der Sluis, S., Moens, S., Benjamins, J.S., Migliorati, F., Stoffers, D., Den Braber, A., Poil, S.S., Hardstone, R., Van 't Ent, D.V., Boomsma, D.I., De Geus, E., Mansvelder, H.D., Van Someren, E.J.W., Linkenkaer-Hansen, K., Diaz, A.B., Van der Sluis, S., Moens, S., Benjamins, J.S., Migliorati, F., Stoffers, D., Den Braber, A., Poil, S.S., Hardstone, R., Van 't Ent, D.V., Boomsma, D.I., De Geus, E., Mansvelder, H.D., Van Someren, E.J.W., and Linkenkaer-Hansen, K.

Published
2013

55. The Construction and Validation of an Abridged Version of the Autism-Spectrum Quotient (AQ-Short)

Author

Hoekstra, R.A., Vinkhuyzen, A.A.E., Wheelwright, S., Bartels, M., Boomsma, D.I., Baron-Cohen, S., Posthuma, D., van der Sluis, S., Hoekstra, R.A., Vinkhuyzen, A.A.E., Wheelwright, S., Bartels, M., Boomsma, D.I., Baron-Cohen, S., Posthuma, D., and van der Sluis, S.

Abstract

This study reports on the development and validation of an abridged version of the 50-item Autism-Spectrum Quotient (AQ), a self-report measure of autistic traits. We aimed to reduce the number of items whilst retaining high validity and a meaningful factor structure. The item reduction procedure was performed on data from 1,263 Dutch students and general population adults. The resulting 28-item AQ-Short was subsequently validated in 3 independent samples, both clinical and controls, from the Netherlands and the UK. The AQ-Short comprises two higher-order factors assessing 'social behavioral difficulties' and 'a fascination for numbers/patterns'. The clear factor structure of the AQ-Short and its high sensitivity and specificity make the AQ-Short a useful alternative to the full 50-item version. © 2010 The Author(s).

Published
2011
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56. Individual differences in processing speed and working memory speed as assessed with the Sternberg Memory Scanning Task

Author

Vinkhuijzen, A.A.E., van der Sluis, S., Boomsma, D.I., de Geus, E.J.C., Posthuma, D., Vinkhuijzen, A.A.E., van der Sluis, S., Boomsma, D.I., de Geus, E.J.C., and Posthuma, D.

Abstract

The Sternberg Memory Scanning (SMS) task provides a measure of processing speed (PS) and working memory retrieval speed (WMS). In this task, participants are presented with sets of stimuli that vary in size. After a delay, one item is presented, and participants indicate whether or not the item was part of the set. Performance is assessed by speed and accuracy for both the positive (item is part of the set) and the negative trials (items is not part of the set). To examine the causes of variation in PS and WMS, 623 adult twins and their siblings completed the SMS task. A non-linear growth curve (nLGC) model best described the increase in reaction time with increasing set size. Genetic analyses showed that WMS (modeled as the Slope in the nLGC model) has a relatively small variance which is not due to genetic variation while PS (modeled as the Intercept in the nLGC model) showed large individual differences, part of which could be attributed to additive genetic factors. Heritability was 38% for positive and 32% for negative trials. Additional multivariate analyses showed that the genetic effects on PS for positive and negative trials were completely shared. We conclude that genetic influences on working memory performance are more likely to act upon basic processing speed and (pre)motoric processes than on the speed with which an item is retrieved from short term memory. © 2009 The Author(s).

Published
2010
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57. Phenotypic Complexity, Measurement Bias, and Poor Phenotypic Resolution Contribute to the Missing Heritability Problem in Genetic Association Studies

Author

van der Sluis, S., Verhage, M., Posthuma, D., Dolan, C.V., van der Sluis, S., Verhage, M., Posthuma, D., and Dolan, C.V.

Abstract

Background: The variance explained by genetic variants as identified in (genome-wide) genetic association studies is typically small compared to family-based heritability estimates. Explanations of this 'missing heritability' have been mainly genetic, such as genetic heterogeneity and complex (epi-)genetic mechanisms. Methodology:We used comprehensive simulation studies to show that three phenotypic measurement issues also provide viable explanations of the missing heritability: phenotypic complexity, measurement bias, and phenotypic resolution. We identify the circumstances in which the use of phenotypic sum-scores and the presence of measurement bias lower the power to detect genetic variants. In addition, we show how the differential resolution of psychometric instruments (i.e., whether the instrument includes items that resolve individual differences in the normal range or in the clinical range of a phenotype) affects the power to detect genetic variants. Conclusion:We conclude that careful phenotypic data modelling can improve the genetic signal, and thus the statistical power to identify genetic variants by 20-99%. © 2010 van der Sluis et al.

Published
2010
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58. Estimates of asthma heritability in a large twin sample

Author

Thomsen, S F, van der Sluis, S, Kyvik, K O, Skytthe, A, Backer, V, Thomsen, S F, van der Sluis, S, Kyvik, K O, Skytthe, A, and Backer, V

Abstract

Asthma is a complex disease characterized by symptoms of wheezing, shortness of breath, chest tightness, and cough.

Published
2010

59. The heritability of aptitude and exceptional talent across different domains in adolescents and young adults

Author

Vinkhuyzen, A.A.E., van der Sluis, S., Posthuma, D., Boomsma, D.I., Vinkhuyzen, A.A.E., van der Sluis, S., Posthuma, D., and Boomsma, D.I.

Abstract

The origin of individual differences in aptitude, defined as a domain-specific skill within the normal ability range, and talent, defined as a domain specific skill of exceptional quality, is under debate. The nature of the variation in aptitudes and exceptional talents across different domains was investigated in a population based twin sample. Self-report data from 1,685 twin pairs (12-24 years) were analyzed for Music, Arts, Writing, Language, Chess, Mathematics, Sports, Memory, and Knowledge. The influence of shared environment was small for both aptitude and talent. Additive and non-additive genetic effects explained the major part of the substantial familial clustering in the aptitude measures with heritability estimates ranging between .32 and .71. Heritability estimates for talents were higher and ranged between .50 and .92. In general, the genetic architecture for aptitude and talent was similar in men and women. Genetic factors contribute to a large extent to variation in aptitude and talent across different domains of intellectual, creative, and sports abilities.

Published
2009
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60. Power calculations using exact data simulation: A useful tool for genetic study designs.

Author

van der Sluis, S., Dolan, C.V., Neale, M.C., Posthuma, D., van der Sluis, S., Dolan, C.V., Neale, M.C., and Posthuma, D.

Abstract

Statistical power calculations constitute an essential first step in the planning of scientific studies. If sufficient summary statistics are available, power calculations are in principle straightforward and computationally light. In designs, which comprise distinct groups (e.g., MZ & DZ twins), sufficient statistics can be calculated within each group, and analyzed in a multi-group model. However, when the number of possible groups is prohibitively large (say, in the hundreds), power calculations on the basis of the summary statistics become impractical. In that case, researchers may resort to Monte Carlo based power studies, which involve the simulation of hundreds or thousands of replicate samples for each specified set of population parameters. Here we present exact data simulation as a third method of power calculation. Exact data simulation involves a transformation of raw data so that the data fit the hypothesized model exactly. As in power calculation with summary statistics, exact data simulation is computationally light, while the number of groups in the analysis has little bearing on the practicality of the method. The method is applied to three genetic designs for illustrative purposes. © 2007 The Author(s).

Published
2008
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61. Gene-environment interaction in adults' IQ scores: Measures of past and present environment.

Author

van der Sluis, S., Willemsen, G., de Geus, E.J.C., Boomsma, D.I., Posthuma, D., van der Sluis, S., Willemsen, G., de Geus, E.J.C., Boomsma, D.I., and Posthuma, D.

Abstract

Gene-environment interaction was studied in a sample of young (mean age 26 years, N = 385) and older (mean age 49 years, N = 370) adult males and females. Full scale IQ scores (FSIQ) were analyzed using biometric models in which additive genetic (A), common environmental (C), and unique environmental (E) effects were allowed to depend on environmental measures. Moderators under study were parental and partner educational level, as well as urbanization level and mean real estate price of the participants' residential area. Mean effects were observed for parental education, partner education and urbanization level. On average, FSIQ scores were roughly 5 points higher in participants with highly educated parents, compared to participants whose parents were less well educated. In older participants, IQ scores were about 2 points higher when their partners were highly educated. In younger males, higher urbanization levels were associated with slightly higher FSIQ scores. Our analyses also showed increased common environmental variation in older males whose parents were more highly educated, and increased unique environmental effects in older males living in more affluent areas. Contrary to studies in children, however, the variance attributable to additive genetic effects was stable across all levels of the moderators under study. Most results were replicated for VIQ and PIQ. © 2008 The Author(s).

Published
2008
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62. Comparison of time and frequency domain measures of RSA in ambulatory recordings.

Author

Goedhart, A.D., van der Sluis, S., Houtveen, J.H., Willemsen, G., de Geus, E.J.C., Goedhart, A.D., van der Sluis, S., Houtveen, J.H., Willemsen, G., and de Geus, E.J.C.

Abstract

The extent to which various measures of ambulatory respiratory sinus arrhythmia (RSA) capture the same information across conditions in different subjects remains unclear. In this study the root mean square of successive differences (RMSSD), peak valley RSA (pvRSA), and high frequency power (HF power) were assessed during ambulatory recording in 84 subjects, of which 64 were retested after about 3 years. We used covariance structure modeling to test the equality of the correlations among three RSA measures over two test days and three conditions (daytime sitting or walking and nighttime sleep) and in groups with low, medium, and high mean heart rate (HR), or low, medium, and high mean respiration rate (RR). Results showed that ambulatory RMSSD, pvRSA, and HF power are highly correlated and that their correlation is stable across time, ambulatory conditions, and a wide range of resting HR and RR values. RMSSD appears to be the most cost-efficient measure of RSA. Copyright © 2007 Society for Psychophysiological Research.

Published
2007
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63. Detecting genotype-environment interaction in monozygotic twin data: Comparing the Jinks and Fulker test and a new test based on marginal maximum likelihood estimation

Author

van der Sluis, S., Dolan, C.V., Neale, M.C., Boomsma, D.I., Posthuma, D., van der Sluis, S., Dolan, C.V., Neale, M.C., Boomsma, D.I., and Posthuma, D.

Abstract

This article is concerned with the power to detect the presence of genotype by environment interaction (G x E) in the case that both genes and environment feature as latent (i.e., unmeasured) variables. The power of the test proposed by Jinks and Fulker (1970), which is based on regressing the absolute difference between the scores of monozygotic twins on the sums of these scores, is compared to the power of an alternative test, which is based on Marginal Maximum Likelihood (MML). Simulation studies showed that generally the power of the MML-based test was greater than the power of the Jinks and Fulker test in detecting linear and curvilinear G x E interaction, regardless of whether the distribution of the data deviated significantly from normality. However, after a normalizing transformation, the Jinks and Fulker test performed slightly better. Some possible future extensions of the MML-based test are briefly discussed.

Published
2006
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68. Exploring the association between severe respiratory syncytial virus infection and asthma: a registry-based twin study.

Author

Thomsen SF, van der Sluis S, Stensballe LG, Posthuma D, Skytthe A, Kyvik KO, Duffy DL, Backer V, and Bisgaard H

Abstract

RATIONALE: Severe respiratory syncytial virus (RSV) infection is associated with asthma but the nature of this association is imperfectly understood. OBJECTIVES: To examine the nature of the association between severe RSV infection and asthma in a population-based sample of twins. METHODS: Data on hospitalization due to RSV infection was gathered for all twins born in Denmark between 1994 and 2000 (8,280 pairs) and linked to information on asthma obtained from hospital discharge registries and parent-completed questionnaires. Genetic variance components models and direction of causation models were fitted to the observed data. MEASUREMENTS AND MAIN RESULTS: RSV hospitalization and asthma were positively associated (r = 0.43), and genetic determinants for the two disorders overlapped completely. Modeling the direction of causation between RSV hospitalization and asthma showed that a model in which asthma 'causes' RSV hospitalization fitted the data significantly better (P = 0.39 for deterioration in model fit) than a model in which RSV hospitalization 'causes' asthma (P < 0.001 for deterioration in model fit), even when sex, birth weight, and maternal smoking during pregnancy were accounted for. CONCLUSIONS: RSV infection that is severe enough to warrant hospitalization does not cause asthma but is an indicator of the genetic predisposition to asthma. [ABSTRACT FROM AUTHOR]

Published
2009
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70. The digestion of phosphate ore in phosphoric acid.

Author

van der Sluis S., Marchee W.G.J., Meszaros Y., van Rosmalen G.M., Wesselingh H.A., van der Sluis S., Marchee W.G.J., Meszaros Y., van Rosmalen G.M., and Wesselingh H.A.

Abstract

A process aiming to produce 40 wt.% P2O5 solution with less than 5ppm cadmium and hydrated calcium sulphate with less than 1ppm cadmium is described., A process aiming to produce 40 wt.% P2O5 solution with less than 5ppm cadmium and hydrated calcium sulphate with less than 1ppm cadmium is described.

71. Attentional switching forms a genetic link between attention problems and autistic traits in adults

Author

Polderman, T. J. C., Hoekstra, R. A., Vinkhuyzen, A. A. E., Sullivan, P. F., van der Sluis, S., Posthuma, D., Polderman, T. J. C., Hoekstra, R. A., Vinkhuyzen, A. A. E., Sullivan, P. F., van der Sluis, S., and Posthuma, D.

Abstract

Background. Attention deficit hyperactivity disorder (ADHD) symptoms and autistic traits often occur together. The pattern and etiology of co-occurrence are largely unknown, particularly in adults. This study investigated the co-occurrence between both traits in detail, and subsequently examined the etiology of the co-occurrence, using two independent adult population samples. Method. Data on ADHD traits (Inattention and Hyperactivity/Impulsivity) were collected in a population sample (S1, n=559) of unrelated individuals. Data on Attention Problems (AP) were collected in a population-based family sample of twins and siblings (S2, n=560). In both samples five dimensions of autistic traits were assessed (social skills, routine, attentional switching, imagination, patterns). Results. Hyperactive traits (S1) did not correlate substantially with the autistic trait dimensions. For Inattention (S1) and AP (S2), the correlations with the autistic trait dimensions were low, apart from a prominent correlation with the attentional switching scale (0.47 and 0.32 respectively). Analyses in the genetically informative S2 revealed that this association could be explained by a shared genetic factor. Conclusions. Our findings suggest that the co-occurrence of ADHD traits and autistic traits in adults is not determined by problems with hyperactivity, social skills, imagination or routine preferences. Instead, the association between those traits is due primarily to shared attention-related problems (inattention and attentional switching capacity). As the etiology of this association is purely genetic, biological pathways involving attentional control could be a promising focus of future studies aimed at unraveling the genetic causes of these disorders.

72. Attentional switching forms a genetic link between attention problems and autistic traits in adults

Author

Polderman, T. J. C., Hoekstra, R. A., Vinkhuyzen, A. A. E., Sullivan, P. F., van der Sluis, S., Posthuma, D., Polderman, T. J. C., Hoekstra, R. A., Vinkhuyzen, A. A. E., Sullivan, P. F., van der Sluis, S., and Posthuma, D.

Abstract

Background. Attention deficit hyperactivity disorder (ADHD) symptoms and autistic traits often occur together. The pattern and etiology of co-occurrence are largely unknown, particularly in adults. This study investigated the co-occurrence between both traits in detail, and subsequently examined the etiology of the co-occurrence, using two independent adult population samples. Method. Data on ADHD traits (Inattention and Hyperactivity/Impulsivity) were collected in a population sample (S1, n=559) of unrelated individuals. Data on Attention Problems (AP) were collected in a population-based family sample of twins and siblings (S2, n=560). In both samples five dimensions of autistic traits were assessed (social skills, routine, attentional switching, imagination, patterns). Results. Hyperactive traits (S1) did not correlate substantially with the autistic trait dimensions. For Inattention (S1) and AP (S2), the correlations with the autistic trait dimensions were low, apart from a prominent correlation with the attentional switching scale (0.47 and 0.32 respectively). Analyses in the genetically informative S2 revealed that this association could be explained by a shared genetic factor. Conclusions. Our findings suggest that the co-occurrence of ADHD traits and autistic traits in adults is not determined by problems with hyperactivity, social skills, imagination or routine preferences. Instead, the association between those traits is due primarily to shared attention-related problems (inattention and attentional switching capacity). As the etiology of this association is purely genetic, biological pathways involving attentional control could be a promising focus of future studies aimed at unraveling the genetic causes of these disorders.

75. Changing perspectives: Towards detailed phenotyping in genetics

Author

Nagel, M., Posthuma, Danielle, van der Sluis, Sophia, Clinical genetics, Amsterdam Neuroscience - Cellular & Molecular Mechanisms, Posthuma, D, van der Sluis, S, Amsterdam Neuroscience - Complex Trait Genetics, and Complex Trait Genetics

Subjects
Genetics, Phenotypes, Psychiatric disorders, Mental disorders, Heterogeneity
Published
2020

77. Behavioral phenotyping of complex traits in inbred and mutant mice

Author

Maroteaux, G.P., Verhage, Matthijs, Stiedl, R.O., van der Sluis, Sophia, NCA - Brain mechanisms in health and disease, Verhage, M, Stiedl, Oliver, van der Sluis, S, Functional Genomics, and Neuroscience Campus Amsterdam - Brain Mechanisms in Health & Disease

Published
2014

79. Refining the scope of genetic influences on alcohol misuse through environmental stratification and gene-environment interaction.

Author

Savage JE, de Leeuw CA, Werme J, Dick DM, Posthuma D, and van der Sluis S

Abstract

Background: Gene-environment interaction (G × E) is likely an important influence shaping individual differences in alcohol misuse (AM), yet it has not been extensively studied in molecular genetic research. In this study, we use a series of genome-wide gene-environment interaction (GWEIS) and in silico annotation methods with the aim of improving gene identification and biological understanding of AM., Methods: We carried out GWEIS for four AM phenotypes in the large UK Biobank sample (N = 360,314), with trauma exposure and socioeconomic status (SES) as moderators of the genetic effects. Exploratory analyses compared stratified genome-wide association (GWAS) and GWEIS modeling approaches. We applied functional annotation, gene- and gene-set enrichment, and polygenic score analyses to interpret the GWEIS results., Results: GWEIS models showed few genetic variants with significant interaction effects across gene-environment pairs. Enrichment analyses identified moderation by SES of the genes NOXA1, DLGAP1, and UBE2L3 on drinking quantity and the gene IFIT1B on drinking frequency. Except for DLGAP1, these genes have not previously been linked to AM. The most robust results (GWEIS interaction p = 4.59e-09) were seen for SES moderating the effects of variants linked to immune-related genes on a pattern of drinking with versus without meals., Conclusions: Our results highlight several genes and a potential mechanism of immune system functioning behind the moderating effect of SES on the genetic influences on AM. Although GWEIS seems to be a preferred approach over stratified GWAS, modeling G × E effects at the molecular level remains a challenge even in large samples. Understanding these effects will require substantial effort and more in-depth phenotypic measurement., (© 2024 The Author(s). Alcohol, Clinical and Experimental Research published by Wiley Periodicals LLC on behalf of Research Society on Alcohol.)

Published
2024
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80. Reduced MUNC18-1 Levels, Synaptic Proteome Changes, and Altered Network Activity in STXBP 1 -Related Disorder Patient Neurons.

Author

van Berkel AA, Lammertse HCA, Öttl M, Koopmans F, Misra-Isrie M, Meijer M, Dilena R, van Hasselt PM, Engelen M, van Haelst M, Smit AB, van der Sluis S, Toonen RF, and Verhage M

Abstract

Background: STXBP 1 -related disorder ( STXBP 1 -RD) is a neurodevelopmental disorder caused by pathogenic variants in the STXBP1 gene. Its gene product MUNC18-1 organizes synaptic vesicle exocytosis and is essential for synaptic transmission. Patients present with developmental delay, intellectual disability, and/or epileptic seizures, with high clinical heterogeneity. To date, the cellular deficits of neurons of patients with STXBP 1 -RD are unknown., Methods: We combined live-cell imaging, electrophysiology, confocal microscopy, and mass spectrometry proteomics to characterize cellular phenotypes of induced pluripotent stem cell-derived neurons from 6 patients with STXBP 1 -RD, capturing shared features as well as phenotypic diversity among patients., Results: Neurons from all patients showed normal in vitro development, morphology, and synapse formation, but reduced MUNC18-1 RNA and protein levels. In addition, a proteome-wide screen identified dysregulation of proteins related to synapse function and RNA processes. Neuronal networks showed shared as well as patient-specific phenotypes in activity frequency, network irregularity, and synchronicity, especially when networks were challenged by increasing excitability. No shared effects were observed in synapse physiology of single neurons except for a few patient-specific phenotypes. Similarities between functional and proteome phenotypes suggested 2 patient clusters, not explained by gene variant type., Conclusions: Together, these data show that decreased MUNC18-1 levels, dysregulation of synaptic proteins, and altered network activity are shared cellular phenotypes of STXBP 1 -RD. The 2 patient clusters suggest distinctive pathobiology among subgroups of patients, providing a plausible explanation for the clinical heterogeneity. This phenotypic spectrum provides a framework for future validation studies and therapy design for STXBP 1 -RD., (© 2023 The Authors.)

Published
2023
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81. Power and optimal study design in iPSC-based brain disease modelling.

Author

Brunner JW, Lammertse HCA, van Berkel AA, Koopmans F, Li KW, Smit AB, Toonen RF, Verhage M, and van der Sluis S

Subjects
Humans, Proteomics, Case-Control Studies, Healthy Volunteers, Induced Pluripotent Stem Cells, Brain Diseases
Abstract

Studies using induced pluripotent stem cells (iPSCs) are gaining momentum in brain disorder modelling, but optimal study designs are poorly defined. Here, we compare commonly used designs and statistical analysis for different research aims. Furthermore, we generated immunocytochemical, electrophysiological, and proteomic data from iPSC-derived neurons of five healthy subjects, analysed data variation and conducted power simulations. These analyses show that published case-control iPSC studies are generally underpowered. Designs using isogenic iPSC lines typically have higher power than case-control designs, but generalization of conclusions is limited. We show that, for the realistic settings used in this study, a multiple isogenic pair design increases absolute power up to 60% or requires up to 5-fold fewer lines. A free web tool is presented to explore the power of different study designs, using any (pilot) data., (© 2022. The Author(s).)

Published
2023
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82. Exploring the genetic overlap between twelve psychiatric disorders.

Author

Romero C, Werme J, Jansen PR, Gelernter J, Stein MB, Levey D, Polimanti R, de Leeuw C, Posthuma D, Nagel M, and van der Sluis S

Subjects
Humans, Genomics, Mental Disorders genetics
Abstract

The widespread comorbidity among psychiatric disorders demonstrated in epidemiological studies 1-5 is mirrored by non-zero, positive genetic correlations from large-scale genetic studies 6-10 . To identify shared biological processes underpinning this observed phenotypic and genetic covariance and enhance molecular characterization of general psychiatric disorder liability 11-13 , we used several strategies aimed at uncovering pleiotropic, that is, cross-trait-associated, single-nucleotide polymorphisms (SNPs), genes and biological pathways. We conducted cross-trait meta-analysis on 12 psychiatric disorders to identify pleiotropic SNPs. The meta-analytic signal was driven by schizophrenia, hampering interpretation and joint biological characterization of the cross-trait meta-analytic signal. Subsequent pairwise comparisons of psychiatric disorders identified substantial pleiotropic overlap, but mainly among pairs of psychiatric disorders, and mainly at less stringent P-value thresholds. Only annotations related to evolutionarily conserved genomic regions were significant for multiple (9 out of 12) psychiatric disorders. Overall, identification of shared biological mechanisms remains challenging due to variation in power and genetic architecture between psychiatric disorders., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2022
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83. Cortical Pathology in Vanishing White Matter.

Author

Man JHK, van Gelder CAGH, Breur M, Okkes D, Molenaar D, van der Sluis S, Abbink T, Altelaar M, van der Knaap MS, and Bugiani M

Subjects
Humans, Astrocytes metabolism, Proteomics, Mitochondria metabolism, White Matter pathology, Leukoencephalopathies genetics
Abstract

Vanishing white matter (VWM) is classified as a leukodystrophy with astrocytes as primary drivers in its pathogenesis. Magnetic resonance imaging has documented the progressive thinning of cortices in long-surviving patients. Routine histopathological analyses, however, have not yet pointed to cortical involvement in VWM. Here, we provide a comprehensive analysis of the VWM cortex. We employed high-resolution-mass-spectrometry-based proteomics and immunohistochemistry to gain insight into possible molecular disease mechanisms in the cortices of VWM patients. The proteome analysis revealed 268 differentially expressed proteins in the VWM cortices compared to the controls. A majority of these proteins formed a major protein interaction network. A subsequent gene ontology analysis identified enrichment for terms such as cellular metabolism, particularly mitochondrial activity. Importantly, some of the proteins with the most prominent changes in expression were found in astrocytes, indicating cortical astrocytic involvement. Indeed, we confirmed that VWM cortical astrocytes exhibit morphological changes and are less complex in structure than control cells. Our findings also suggest that these astrocytes are immature and not reactive. Taken together, we provide insights into cortical involvement in VWM, which has to be taken into account when developing therapeutic strategies.

Published
2022
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84. Disentangling Genetic Risks for Metabolic Syndrome.

Author

van Walree ES, Jansen IE, Bell NY, Savage JE, de Leeuw C, Nieuwdorp M, van der Sluis S, and Posthuma D

Subjects
Humans, Cholesterol, HDL, Genome-Wide Association Study, Risk Factors, Triglycerides, Waist Circumference, Blood Pressure, Glucose, Blood Glucose, Metabolic Syndrome epidemiology, Diabetes Mellitus, Type 2 genetics, Fenofibrate
Abstract

A quarter of the world's population is estimated to meet the criteria for metabolic syndrome (MetS), a cluster of cardiometabolic risk factors that promote development of coronary artery disease and type 2 diabetes, leading to increased risk of premature death and significant health costs. In this study we investigate whether the genetics associated with MetS components mirror their phenotypic clustering. A multivariate approach that leverages genetic correlations of fasting glucose, HDL cholesterol, systolic blood pressure, triglycerides, and waist circumference was used, which revealed that these genetic correlations are best captured by a genetic one factor model. The common genetic factor genome-wide association study (GWAS) detects 235 associated loci, 174 more than the largest GWAS on MetS to date. Of these loci, 53 (22.5%) overlap with loci identified for two or more MetS components, indicating that MetS is a complex, heterogeneous disorder. Associated loci harbor genes that show increased expression in the brain, especially in GABAergic and dopaminergic neurons. A polygenic risk score drafted from the MetS factor GWAS predicts 5.9% of the variance in MetS. These results provide mechanistic insights into the genetics of MetS and suggestions for drug targets, especially fenofibrate, which has the promise of tackling multiple MetS components., (© 2022 by the American Diabetes Association.)

Published
2022
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87. An integrated framework for local genetic correlation analysis.

Author

Werme J, van der Sluis S, Posthuma D, and de Leeuw CA

Subjects
Chromosome Mapping, Genome, Phenotype, Genome-Wide Association Study, Polymorphism, Single Nucleotide
Abstract

Genetic correlation (r g ) analysis is used to identify phenotypes that may have a shared genetic basis. Traditionally, r g is studied globally, considering only the average of the shared signal across the genome, although this approach may fail when the r g is confined to particular genomic regions or in opposing directions at different loci. Current tools for local r g analysis are restricted to analysis of two phenotypes. Here we introduce LAVA, an integrated framework for local r g analysis that, in addition to testing the standard bivariate local r g s between two phenotypes, can evaluate local heritabilities and analyze conditional genetic relations between several phenotypes using partial correlation and multiple regression. Applied to 25 behavioral and health phenotypes, we show considerable heterogeneity in the bivariate local r g s across the genome, which is often masked by the global r g patterns, and demonstrate how our conditional approaches can elucidate more complex, multivariate genetic relations., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2022
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89. Genome-wide gene-environment interactions in neuroticism: an exploratory study across 25 environments.

Author

Werme J, van der Sluis S, Posthuma D, and de Leeuw CA

Subjects
Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Neuroticism, Polymorphism, Single Nucleotide, Gene-Environment Interaction, Multifactorial Inheritance
Abstract

Gene-environment interactions (GxE) are often suggested to play an important role in the aetiology of psychiatric phenotypes, yet so far, only a handful of genome-wide environment interaction studies (GWEIS) of psychiatric phenotypes have been conducted. Representing the most comprehensive effort of its kind to date, we used data from the UK Biobank to perform a series of GWEIS for neuroticism across 25 broadly conceptualised environmental risk factors (trauma, social support, drug use, physical health). We investigated interactions on the level of SNPs, genes, and gene-sets, and computed interaction-based polygenic risk scores (PRS) to predict neuroticism in an independent sample subset (N = 10,000). We found that the predictive ability of the interaction-based PRSs did not significantly improve beyond that of a traditional PRS based on SNP main effects from GWAS, but detected one variant and two gene-sets showing significant interaction signal after correction for the number of analysed environments. This study illustrates the possibilities and limitations of a comprehensive GWEIS in currently available sample sizes.

Published
2021
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90. Genome-wide meta-analysis of brain volume identifies genomic loci and genes shared with intelligence.

Author

Jansen PR, Nagel M, Watanabe K, Wei Y, Savage JE, de Leeuw CA, van den Heuvel MP, van der Sluis S, and Posthuma D

Subjects
Brain physiology, Genome-Wide Association Study, Humans, Models, Neurological, Organ Size, Quantitative Trait Loci, Brain anatomy & histology, Genome, Human genetics, Intelligence genetics
Abstract

The phenotypic correlation between human intelligence and brain volume (BV) is considerable (r ≈ 0.40), and has been shown to be due to shared genetic factors. To further examine specific genetic factors driving this correlation, we present genomic analyses of the genetic overlap between intelligence and BV using genome-wide association study (GWAS) results. First, we conduct a large BV GWAS meta-analysis (N = 47,316 individuals), followed by functional annotation and gene-mapping. We identify 18 genomic loci (14 not previously associated), implicating 343 genes (270 not previously associated) and 18 biological pathways for BV. Second, we use an existing GWAS for intelligence (N = 269,867 individuals), and estimate the genetic correlation (r g ) between BV and intelligence to be 0.24. We show that the r g is partly attributable to physical overlap of GWAS hits in 5 genomic loci. We identify 92 shared genes between BV and intelligence, which are mainly involved in signaling pathways regulating cell growth. Out of these 92, we prioritize 32 that are most likely to have functional impact. These results provide information on the genetics of BV and provide biological insight into BV's shared genetic etiology with intelligence.

Published
2020
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93. A global overview of pleiotropy and genetic architecture in complex traits.

Author

Watanabe K, Stringer S, Frei O, Umićević Mirkov M, de Leeuw C, Polderman TJC, van der Sluis S, Andreassen OA, Neale BM, and Posthuma D

Subjects
Humans, Phenotype, Genetic Pleiotropy, Genetics, Population, Genome-Wide Association Study methods, Multifactorial Inheritance genetics, Polymorphism, Single Nucleotide, Quantitative Trait Loci
Abstract

After a decade of genome-wide association studies (GWASs), fundamental questions in human genetics, such as the extent of pleiotropy across the genome and variation in genetic architecture across traits, are still unanswered. The current availability of hundreds of GWASs provides a unique opportunity to address these questions. We systematically analyzed 4,155 publicly available GWASs. For a subset of well-powered GWASs on 558 traits, we provide an extensive overview of pleiotropy and genetic architecture. We show that trait-associated loci cover more than half of the genome, and 90% of these overlap with loci from multiple traits. We find that potential causal variants are enriched in coding and flanking regions, as well as in regulatory elements, and show variation in polygenicity and discoverability of traits. Our results provide insights into how genetic variation contributes to trait variation. All GWAS results can be queried and visualized at the GWAS ATLAS resource ( https://atlas.ctglab.nl ).

Published
2019
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94. Vanishing white matter: deregulated integrated stress response as therapy target.

Author

Abbink TEM, Wisse LE, Jaku E, Thiecke MJ, Voltolini-González D, Fritsen H, Bobeldijk S, Ter Braak TJ, Polder E, Postma NL, Bugiani M, Struijs EA, Verheijen M, Straat N, van der Sluis S, Thomas AAM, Molenaar D, and van der Knaap MS

Subjects
Activating Transcription Factor 4 metabolism, Adaptor Proteins, Signal Transducing metabolism, Animals, Astrocytes metabolism, Brain metabolism, Cell Cycle Proteins metabolism, Cerebellum drug effects, Corpus Callosum drug effects, Eukaryotic Initiation Factor-2B metabolism, Humans, Leukoencephalopathies genetics, Mice, Mutation, Protein Biosynthesis, Protein Serine-Threonine Kinases metabolism, White Matter pathology, Acetamides pharmacology, Cyclohexylamines pharmacology, Eukaryotic Initiation Factor-2B genetics, Leukoencephalopathies drug therapy, Leukoencephalopathies pathology
Abstract

Objective: Vanishing white matter (VWM) is a fatal, stress-sensitive leukodystrophy that mainly affects children and is currently without treatment. VWM is caused by recessive mutations in eukaryotic initiation factor 2B (eIF2B) that is crucial for initiation of mRNA translation and its regulation during the integrated stress response (ISR). Mutations reduce eIF2B activity. VWM pathomechanisms remain unclear. In contrast with the housekeeping function of eIF2B, astrocytes are selectively affected in VWM. One study objective was to test our hypothesis that in the brain translation of specific mRNAs is altered by eIF2B mutations, impacting primarily astrocytes. The second objective was to investigate whether modulation of eIF2B activity could ameliorate this altered translation and improve the disease., Methods: Mice with biallelic missense mutations in eIF2B that recapitulate human VWM were used to screen for mRNAs with altered translation in brain using polysomal profiling. Findings were verified in brain tissue from VWM patients using qPCR and immunohistochemistry. The compound ISRIB (for "ISR inhibitor") was administered to VWM mice to increase eIF2B activity. Its effect on translation, neuropathology, and clinical signs was assessed., Results: In brains of VWM compared to wild-type mice we observed the most prominent changes in translation concerning ISR mRNAs; their expression levels correlated with disease severity. We substantiated these findings in VWM patients' brains. ISRIB normalized expression of mRNA markers, ameliorated brain white matter pathology and improved motor skills in VWM mice., Interpretation: The present findings show that ISR deregulation is central in VWM pathomechanisms and a viable target for therapy., (© 2019 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals, Inc on behalf of American Neurological Association.)

Published
2019
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95. Genome-wide analysis of insomnia in 1,331,010 individuals identifies new risk loci and functional pathways.

Author

Jansen PR, Watanabe K, Stringer S, Skene N, Bryois J, Hammerschlag AR, de Leeuw CA, Benjamins JS, Muñoz-Manchado AB, Nagel M, Savage JE, Tiemeier H, White T, Tung JY, Hinds DA, Vacic V, Wang X, Sullivan PF, van der Sluis S, Polderman TJC, Smit AB, Hjerling-Leffler J, Van Someren EJW, and Posthuma D

Subjects
Chromatin genetics, Female, Genome-Wide Association Study methods, Humans, Male, Middle Aged, Phenotype, Polymorphism, Single Nucleotide genetics, Sleep genetics, Genetic Predisposition to Disease genetics, Quantitative Trait Loci genetics, Sleep Initiation and Maintenance Disorders genetics
Abstract

Insomnia is the second most prevalent mental disorder, with no sufficient treatment available. Despite substantial heritability, insight into the associated genes and neurobiological pathways remains limited. Here, we use a large genetic association sample (n = 1,331,010) to detect novel loci and gain insight into the pathways, tissue and cell types involved in insomnia complaints. We identify 202 loci implicating 956 genes through positional, expression quantitative trait loci, and chromatin mapping. The meta-analysis explained 2.6% of the variance. We show gene set enrichments for the axonal part of neurons, cortical and subcortical tissues, and specific cell types, including striatal, hypothalamic, and claustrum neurons. We found considerable genetic correlations with psychiatric traits and sleep duration, and modest correlations with other sleep-related traits. Mendelian randomization identified the causal effects of insomnia on depression, diabetes, and cardiovascular disease, and the protective effects of educational attainment and intracranial volume. Our findings highlight key brain areas and cell types implicated in insomnia, and provide new treatment targets.

Published
2019
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96. Meta-analysis of genome-wide association studies for neuroticism in 449,484 individuals identifies novel genetic loci and pathways.

Author

Nagel M, Jansen PR, Stringer S, Watanabe K, de Leeuw CA, Bryois J, Savage JE, Hammerschlag AR, Skene NG, Muñoz-Manchado AB, White T, Tiemeier H, Linnarsson S, Hjerling-Leffler J, Polderman TJC, Sullivan PF, van der Sluis S, and Posthuma D

Subjects
Adult, Aged, Anxiety Disorders genetics, Axons physiology, Depression genetics, Female, Humans, Male, Middle Aged, Neurogenesis genetics, Neurons physiology, Polymorphism, Single Nucleotide, Risk Factors, Schizophrenia genetics, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study methods, Neuroticism physiology
Abstract

Neuroticism is an important risk factor for psychiatric traits, including depression 1 , anxiety 2,3 , and schizophrenia 4-6 . At the time of analysis, previous genome-wide association studies 7-12 (GWAS) reported 16 genomic loci associated to neuroticism 10-12 . Here we conducted a large GWAS meta-analysis (n = 449,484) of neuroticism and identified 136 independent genome-wide significant loci (124 new at the time of analysis), which implicate 599 genes. Functional follow-up analyses showed enrichment in several brain regions and involvement of specific cell types, including dopaminergic neuroblasts (P = 3.49 × 10 -8 ), medium spiny neurons (P = 4.23 × 10 -8 ), and serotonergic neurons (P = 1.37 × 10 -7 ). Gene set analyses implicated three specific pathways: neurogenesis (P = 4.43 × 10 -9 ), behavioral response to cocaine processes (P = 1.84 × 10 -7 ), and axon part (P = 5.26 × 10 -8 ). We show that neuroticism's genetic signal partly originates in two genetically distinguishable subclusters 13 ('depressed affect' and 'worry'), suggesting distinct causal mechanisms for subtypes of individuals. Mendelian randomization analysis showed unidirectional and bidirectional effects between neuroticism and multiple psychiatric traits. These results enhance neurobiological understanding of neuroticism and provide specific leads for functional follow-up experiments.

Published
2018
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97. Genome-wide association meta-analysis in 269,867 individuals identifies new genetic and functional links to intelligence.

Author

Savage JE, Jansen PR, Stringer S, Watanabe K, Bryois J, de Leeuw CA, Nagel M, Awasthi S, Barr PB, Coleman JRI, Grasby KL, Hammerschlag AR, Kaminski JA, Karlsson R, Krapohl E, Lam M, Nygaard M, Reynolds CA, Trampush JW, Young H, Zabaneh D, Hägg S, Hansell NK, Karlsson IK, Linnarsson S, Montgomery GW, Muñoz-Manchado AB, Quinlan EB, Schumann G, Skene NG, Webb BT, White T, Arking DE, Avramopoulos D, Bilder RM, Bitsios P, Burdick KE, Cannon TD, Chiba-Falek O, Christoforou A, Cirulli ET, Congdon E, Corvin A, Davies G, Deary IJ, DeRosse P, Dickinson D, Djurovic S, Donohoe G, Conley ED, Eriksson JG, Espeseth T, Freimer NA, Giakoumaki S, Giegling I, Gill M, Glahn DC, Hariri AR, Hatzimanolis A, Keller MC, Knowles E, Koltai D, Konte B, Lahti J, Le Hellard S, Lencz T, Liewald DC, London E, Lundervold AJ, Malhotra AK, Melle I, Morris D, Need AC, Ollier W, Palotie A, Payton A, Pendleton N, Poldrack RA, Räikkönen K, Reinvang I, Roussos P, Rujescu D, Sabb FW, Scult MA, Smeland OB, Smyrnis N, Starr JM, Steen VM, Stefanis NC, Straub RE, Sundet K, Tiemeier H, Voineskos AN, Weinberger DR, Widen E, Yu J, Abecasis G, Andreassen OA, Breen G, Christiansen L, Debrabant B, Dick DM, Heinz A, Hjerling-Leffler J, Ikram MA, Kendler KS, Martin NG, Medland SE, Pedersen NL, Plomin R, Polderman TJC, Ripke S, van der Sluis S, Sullivan PF, Vrieze SI, Wright MJ, and Posthuma D

Subjects
Adolescent, Brain physiology, Female, Genetic Predisposition to Disease, Genome-Wide Association Study methods, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Intelligence genetics
Abstract

Intelligence is highly heritable 1 and a major determinant of human health and well-being 2 . Recent genome-wide meta-analyses have identified 24 genomic loci linked to variation in intelligence 3-7 , but much about its genetic underpinnings remains to be discovered. Here, we present a large-scale genetic association study of intelligence (n = 269,867), identifying 205 associated genomic loci (190 new) and 1,016 genes (939 new) via positional mapping, expression quantitative trait locus (eQTL) mapping, chromatin interaction mapping, and gene-based association analysis. We find enrichment of genetic effects in conserved and coding regions and associations with 146 nonsynonymous exonic variants. Associated genes are strongly expressed in the brain, specifically in striatal medium spiny neurons and hippocampal pyramidal neurons. Gene set analyses implicate pathways related to nervous system development and synaptic structure. We confirm previous strong genetic correlations with multiple health-related outcomes, and Mendelian randomization analysis results suggest protective effects of intelligence for Alzheimer's disease and ADHD and bidirectional causation with pleiotropic effects for schizophrenia. These results are a major step forward in understanding the neurobiology of cognitive function as well as genetically related neurological and psychiatric disorders.

Published
2018
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98. Item-level analyses reveal genetic heterogeneity in neuroticism.

Author

Nagel M, Watanabe K, Stringer S, Posthuma D, and van der Sluis S

Subjects
Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Meta-Analysis as Topic, Molecular Sequence Annotation, Phenotype, Genetic Heterogeneity, Neuroticism
Abstract

Genome-wide association studies (GWAS) of psychological traits are generally conducted on (dichotomized) sums of items or symptoms (e.g., case-control status), and not on the individual items or symptoms themselves. We conduct large-scale GWAS on 12 neuroticism items and observe notable and replicable variation in genetic signal between items. Within samples, genetic correlations among the items range between 0.38 and 0.91 (mean r g  = .63), indicating genetic heterogeneity in the full item set. Meta-analyzing the two samples, we identify 255 genome-wide significant independent genomic regions, of which 138 are item-specific. Genetic analyses and genetic correlations with 33 external traits support genetic differences between the items. Hierarchical clustering analysis identifies two genetically homogeneous item clusters denoted depressed affect and worry. We conclude that the items used to measure neuroticism are genetically heterogeneous, and that biological understanding can be gained by studying them in genetically more homogeneous clusters.

Published
2018
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100. Axonal abnormalities in vanishing white matter.

Author

Klok MD, Bugiani M, de Vries SI, Gerritsen W, Breur M, van der Sluis S, Heine VM, Kole MHP, Baron W, and van der Knaap MS

Abstract

Objective: We aimed to study the occurrence and development of axonal pathology and the influence of astrocytes in vanishing white matter., Methods: Axons and myelin were analyzed using electron microscopy and immunohistochemistry on Eif2b4 and Eif2b5 single- and double-mutant mice and patient brain tissue. In addition, astrocyte-forebrain co-culture studies were performed., Results: In the corpus callosum of Eif2b5- mutant mice, myelin sheath thickness, axonal diameter, and G-ratio developed normally up to 4 months. At 7 months, however, axons had become thinner, while in control mice axonal diameters had increased further. Myelin sheath thickness remained close to normal, resulting in an abnormally low G-ratio in Eif2b5- mutant mice. In more severely affected Eif2b4-Eif2b5 double-mutants, similar abnormalities were already present at 4 months, while in milder affected Eif2b4 mutants, few abnormalities were observed at 7 months. Additionally, from 2 months onward an increased percentage of thin, unmyelinated axons and increased axonal density were present in Eif2b5 -mutant mice. Co-cultures showed that Eif2b5 mutant astrocytes induced increased axonal density, also in control forebrain tissue, and that control astrocytes induced normal axonal density, also in mutant forebrain tissue. In vanishing white matter patient brains, axons and myelin sheaths were thinner than normal in moderately and severely affected white matter. In mutant mice and patients, signs of axonal transport defects and cytoskeletal abnormalities were minimal., Interpretation: In vanishing white matter, axons are initially normal and atrophy later. Astrocytes are central in this process. If therapy becomes available, axonal pathology may be prevented with early intervention.

Published
2018
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