Your search keyword '"genetic overlap"' showing total 304 results

1. Sex-specific association between schizophrenia polygenic risk and subclinical schizophrenia-related traits

Author

Mas-Bermejo, Patricia, Papiol, Sergi, Torrecilla, Pilar, Lavín, Valeria, Kwapil, Thomas R., Barrantes-Vidal, Neus, and Rosa, Araceli

Published

2025

2. Large-scale brainstem neuroimaging and genetic analyses provide new insights into the neuronal mechanisms of hypertension

Author

Gurholt, Tiril P., Elvsåshagen, Torbjørn, Bahrami, Shahram, Rahman, Zillur, Shadrin, Alexey, Askeland-Gjerde, Daniel E., van der Meer, Dennis, Frei, Oleksandr, Kaufmann, Tobias, Sønderby, Ida E., Halvorsen, Sigrun, Westlye, Lars T., and Andreassen, Ole A.

Published

2025

3. Investigating the shared genetic architecture between attention-deficit/hyperactivity disorder and risk taking behavior: A large-scale genomewide cross-trait analysis

Author

Chen, Yanjing, Liu, Ping, Yi, Sijie, Fan, Chunhua, Zhao, Wei, and Liu, Jun

Published

2024

4. Effects of obesity on aging brain and cognitive decline: A cohort study from the UK Biobank

Author

Li, Panlong, Zhu, Xirui, Huang, Chun, Tian, Shan, Li, Yuna, Qiao, Yuan, Liu, Min, Su, Jingjing, and Tian, Dandan

Published

2025

5. Identification of novel genomic loci for anxiety symptoms and extensive genetic overlap with psychiatric disorders

Author

Tesfaye, Markos, Jaholkowski, Piotr, Shadrin, Alexey A, van der Meer, Dennis, Hindley, Guy FL, Holen, Børge, Parker, Nadine, Parekh, Pravesh, Birkenæs, Viktoria, Rahman, Zillur, Bahrami, Shahram, Kutrolli, Gleda, Frei, Oleksandr, Djurovic, Srdjan, Dale, Anders M, Smeland, Olav B, O'Connell, Kevin S, and Andreassen, Ole A

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Behavioral and Social Science, Pediatric, Mental Illness, Human Genome, Genetics, Schizophrenia, Biotechnology, Serious Mental Illness, Mental Health, Brain Disorders, 2.1 Biological and endogenous factors, Mental health, Good Health and Well Being, Humans, Genome-Wide Association Study, Bipolar Disorder, Autism Spectrum Disorder, Depressive Disorder, Major, Attention Deficit Disorder with Hyperactivity, Female, Anxiety Disorders, Male, Multifactorial Inheritance, Adult, Genetic Loci, Anxiety, Comorbidity, Middle Aged, Mental Disorders, anxiety, genetic loci, genetic overlap, psychiatric disorder, Clinical Sciences, Neurosciences, Cognitive Sciences, Clinical sciences, Biological psychology

Abstract

AimsAnxiety disorders are prevalent and anxiety symptoms (ANX) co-occur with many psychiatric disorders. We aimed to identify genomic loci associated with ANX, characterize its genetic architecture, and genetic overlap with psychiatric disorders.MethodsWe included a genome-wide association study of ANX (meta-analysis of UK Biobank and Million Veterans Program, n = 301,732), schizophrenia (SCZ), bipolar disorder (BIP), major depression (MD), attention-deficit/hyperactivity disorder (ADHD), and autism spectrum disorder (ASD), and validated the findings in the Norwegian Mother, Father, and Child Cohort (n = 95,841). We employed the bivariate causal mixture model and local analysis of covariant association to characterize the genetic architecture including overlap between the phenotypes. Conditional and conjunctional false discovery rate analyses were performed to boost the identification of loci associated with anxiety and shared with psychiatric disorders.ResultsAnxiety was polygenic with 12.9k genetic variants and overlapped extensively with psychiatric disorders (4.1k-11.4k variants) with predominantly positive genetic correlations between anxiety and psychiatric disorders. We identified 119 novel loci for anxiety by conditioning on the psychiatric disorders, and loci shared between anxiety and MD n=47 , BIP n=33 , SCZ n=71 , ADHD n=20 , and ASD n=5 . Genes annotated to anxiety loci exhibit enrichment for a broader range of biological pathways including cell adhesion and neurofibrillary tangle compared with genes annotated to the shared loci.ConclusionsAnxiety is highly polygenic phenotype with extensive genetic overlap with psychiatric disorders, and we identified novel loci for anxiety implicating new molecular pathways. The shared genetic architecture may underlie the extensive cross-disorder comorbidity of anxiety, and the identified molecular underpinnings may lead to potential drug targets.

Published

2024

6. Analysis of genetic and pathologic association between diabetes mellitus and cervical cancer.

Author

Gupta, Prakhar, Gupta, Aankury, and Khanam, Bushra

Subjects

*HUMAN papillomavirus, *MEDICAL sciences, *WOMEN'S health services, *GENETIC epidemiology, *CERVICAL cancer, *BREAST

Abstract

Background: Cervical cancer is the fourth most common cancer among women globally and second most common in India. As per WHO, almost 90% of new cases and deaths worldwide occurred in low- to middle-income countries in 2020. More than 95% of cervical cancers are associated with chronic Human papilloma virus infection (HPV). While high-income countries benefit from vaccination and screening programmes, such facilities are often unavailable in low- and middle-income regions. Diabetes is also rising in prevalence in these regions. It is associated with a higher risk of various cancers, including cervical, endometrial, stomach, breast, and pancreas cancers. Diabetic cancer patients are also observed to have poorer survival outcomes. This study aims to compare the prevalence of cervical pathologies in diabetic and non-diabetic females of reproductive age and investigate potential genetic overlaps. Methods: We analysed pap smear records from diabetic and non-diabetic females and examined genetic data using GWAS to explore associations between diabetes mellitus, HPV infection, and cervical cancer. Results: In total, 3325 pathologic sample records were analysed and 2411 genes were identified and explored for overlap between diabetes and cervical pathologies from available GWAS data. It was noted that diabetes was associated with higher occurrence of cervical pathologies like vaginitis (OR 1.42), cervicitis (OR 13.89), HPV infection (OR 2.38) and malignant changes (OR 1.29). On analysing available genetic data for diabetes mellitus (types 1 and 2), chronic HPV infection, CIN and cervical cancer, certain genes showed positive association with both spectrums (diabetes mellitus and cervical pathologies) like COLL11A2P1 (beta 0.06), INS-IGF2 (OR 1.63), TTC7B (OR 2.05) and SILC1 (OR 2.12). Conclusion: The pathologic and genetic association may help in understanding the connection between the two diseases in a better way. It may also help in guiding targeted approach and screening programmes in regions with higher preponderance towards upregulation of such genes. [ABSTRACT FROM AUTHOR]

Published

2025

7. Disentangling the genetic overlap between ischemic stroke and obesity.

Author

Yang, Ren, Zhang, Tangfeng, and Han, Feng

Subjects

*GENETIC epidemiology, *GENETIC correlations, *MENDELIAN randomization, *DISEASE risk factors, *LIFE sciences

Abstract

Objective: Obesity has been recognized as a risk factor for cerebrovascular diseases, with observational studies suggesting a heightened incidence of stroke. However, the genetic epidemiology field has yet to reach a consensus on the causal relationship and genetic overlap between ischemic stroke (IS) and obesity. Methods: We utilized linkage disequilibrium score regression, high-definition likelihood, and local analysis of variant associations to assess the genetic correlation between body mass index (BMI) and IS. Bidirectional Mendelian randomization was employed to infer causality. We identified shared risk single nucleotide polymorphisms (SNPs) through cross-trait meta-analyses and estimated heritability using summary statistics. Summary-data-based Mendelian randomization (SMR) was applied to explore potential functional genes. Results: Our analysis revealed a significant positive genetic correlation between BMI and IS, supporting a causal link from BMI to IS. Cross-trait analysis yielded 9 and 16 shared risk SNPs for IS and small vessel stroke (SVS), respectively. We observed a notable enrichment of SNP heritability for IS and BMI in brain tissues, suggesting tissue-specific influences. The genes shared between the traits were predominantly involved in brain development, synaptic electrical activity, and immunoregulation. Notably, our SMR analysis identified the risk genes CHAF1A, CEP192, ULK4, CYP2D6, AS3MT, and WARS2 across the majority of the 14 enriched tissues shared by both traits. Conclusion: Our study uncovered a significant genetic correlation and identified shared risk SNPs between BMI and IS. The identification of CHAF1A, CEP192, ULK4, CYP2D6, AS3MT, and WARS2 as potential functional genes common to both obesity and IS enriched our understanding of their genetic interplay, potentially advanced our grasp of their pathogenesis and therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2024

8. Association between 25(OH) vitamin D and multiple sclerosis: cohort, shared genetics, and Causality

Author

Xing-Hao Yu, Hui-Min Lu, Jun Li, Ming-Zhu Su, Xiao-Min Li, and Yi Jin

Subjects

Vitamin D, Multiple sclerosis, Genetic overlap, Mendelian randomization, Genome-wide association study, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Multiple Sclerosis (MS), an autoimmune disorder causing demyelination and neurological damage, has been linked to 25-hydroxyvitamin D (25OHD) levels, suggesting its role in immune response and MS onset. This study used GWAS datasets to investigate genetic associations between 25OHD and MS. Methods We utilized a large-scale prospective cohort to evaluate serum 25OHD levels and MS risk. Linkage Disequilibrium Score Regression (LDSC) assessed genetic correlations between 25OHD levels and MS. Cross-trait genome-wide pleiotropy analysis revealed shared genetic loci. MAGMA analysis identified pleiotropic genes, enriched tissues, and gene sets. Stratified LDSC estimated tissue-specific and cell-specific heritability enrichment, and multi-trait co-localization analysis identified shared immune cell subsets. Bidirectional Mendelian Randomization (MR) assessed the causal association between 25OHD and MS risk. Results The observational study found a nonlinear relationship between 25OHD levels and MS risk, with the lowest quartile showing significant risk elevation. Our findings revealed shared genetic structure between 25OHD levels and MS, suggesting a common biological pathway involving immune function and CNS integrity. We found 24 independent loci shared between 25OHD levels and MS risk, enriched in brain tissues and involved in pathways like LDL, HDL, and TG metabolism. Four loci (6p24.3, 6p22.2, 12q14.1, and 19p13.2) had strong co-localization evidence, with mapped genes as potential drug targets. Bidirectional MR analysis supported a causal effect of 25OHD levels on MS risk, suggesting 25OHD supplementation could modulate MS risk. Conclusion This study reveals the complex relationship between 25OHD levels and MS, indicating that higher levels are not always advantageous and recommending moderation in supplementation. We identified SMARCA4 as a potential therapeutic target and detailed key pathways influencing this interaction. Graphical Abstract

Published

2024

9. Investigating the shared genetic basis of inflammatory bowel disease and systemic lupus erythematosus using genetic overlap analysis

Author

Weichao Yuan, Qinghua Luo, and Na Wu

Subjects

Genetic overlap, Genetic structure, Genetic risk loci, Systemic lupus erythematosus, Inflammatory bowel disease, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Inflammatory bowel disease (IBD) and systemic lupus erythematosus (SLE) are autoimmune diseases that often coexist clinically. This phenomenon might be due to shared genetic components. Methods Genome-wide association study (GWAS) data for IBD and SLE were analyzed to determine both global and local genetic correlations using three methodologies: linkage disequilibrium score regression (LDSC), genetic covariance analyzer (GNOVA), and SUPERGNOVA. The genetic overlap and risk loci were subsequently examined using the conditional/conjunctional false discovery rate (cond/conjFDR) statistical framework. Furthermore, a multi-trait analysis of MTAG was employed to validate the loci, followed by an LDSC analysis focusing on tissue-specific gene expression. Results GWAS findings demonstrated a marked global genetic correlation between IBD (including Crohn’s disease and ulcerative colitis) and SLE. Locally, SLE showed a strong association with IBD and Crohn’s disease on chromosomes 10, 19, and 22. ConjFDR analysis confirmed the genetic overlap and identified relevant genetic risk loci. MTAG further validated several shared susceptibility genes. Additionally, the LDSC-SEG analysis results indicate that IBD (including CD and UC) and SLE are jointly enriched in the tissues of Spleen and Whole Blood. Conclusion This study confirms a genetic overlap between IBD and SLE, identifying marked comorbid genes and offering new insights for treating these diseases.

Published

2024

10. Association between 25(OH) vitamin D and multiple sclerosis: cohort, shared genetics, and Causality.

Author

Yu, Xing-Hao, Lu, Hui-Min, Li, Jun, Su, Ming-Zhu, Li, Xiao-Min, and Jin, Yi

Subjects

GENOME-wide association studies, GENETIC correlations, VITAMIN D, LINKAGE disequilibrium, DRUG target

Abstract

Background: Multiple Sclerosis (MS), an autoimmune disorder causing demyelination and neurological damage, has been linked to 25-hydroxyvitamin D (25OHD) levels, suggesting its role in immune response and MS onset. This study used GWAS datasets to investigate genetic associations between 25OHD and MS. Methods: We utilized a large-scale prospective cohort to evaluate serum 25OHD levels and MS risk. Linkage Disequilibrium Score Regression (LDSC) assessed genetic correlations between 25OHD levels and MS. Cross-trait genome-wide pleiotropy analysis revealed shared genetic loci. MAGMA analysis identified pleiotropic genes, enriched tissues, and gene sets. Stratified LDSC estimated tissue-specific and cell-specific heritability enrichment, and multi-trait co-localization analysis identified shared immune cell subsets. Bidirectional Mendelian Randomization (MR) assessed the causal association between 25OHD and MS risk. Results: The observational study found a nonlinear relationship between 25OHD levels and MS risk, with the lowest quartile showing significant risk elevation. Our findings revealed shared genetic structure between 25OHD levels and MS, suggesting a common biological pathway involving immune function and CNS integrity. We found 24 independent loci shared between 25OHD levels and MS risk, enriched in brain tissues and involved in pathways like LDL, HDL, and TG metabolism. Four loci (6p24.3, 6p22.2, 12q14.1, and 19p13.2) had strong co-localization evidence, with mapped genes as potential drug targets. Bidirectional MR analysis supported a causal effect of 25OHD levels on MS risk, suggesting 25OHD supplementation could modulate MS risk. Conclusion: This study reveals the complex relationship between 25OHD levels and MS, indicating that higher levels are not always advantageous and recommending moderation in supplementation. We identified SMARCA4 as a potential therapeutic target and detailed key pathways influencing this interaction. [ABSTRACT FROM AUTHOR]

Published

2024

11. Shared genetic architecture of psychiatric disorders and hemorrhoidal disease: a large-scale genome-wide cross-trait analysis.

Author

Chen, Zhangsendi, Hu, Bowen, Sun, Ji, Jiang, Yuhong, Chen, Zhe, Yang, Chunmei, He, Hongbo, and Wang, Weiguo

Subjects

PROTEOMICS, GENETIC correlations, GENOME-wide association studies, SINGLE nucleotide polymorphisms, MENTAL illness

Abstract

Background: The genetic association between psychiatric disorders and hemorrhoidal disease (HEM) is still not well known. The work aims to investigate their comorbidity at a genetic level. Methods: Utilizing recent large-scale genome-wide association studies (GWAS), we investigated the genetic overlap at the single nucleotide polymorphism (SNP), gene, and molecular level between depression and HEM, bipolar disorder (BD) and HEM, neuroticism and HEM, as well as schizophrenia (SCZ) and HEM. The cross-trait genes were validated through the utilization of transcriptome and proteome methodologies. The causal link was assessed using bidirectional two-sample Mendelian randomization analysis (MR) analysis. MRlap corrects for the potential bias in estimation caused by sample overlap. Results: We discovered significant positive genetic associations between these four types of psychiatric disorders and HEM. Cross-phenotypic association analyses identified shared SNPs along with 17 specific loci between psychiatric disorders and HEM. MAGMA identified a total of 2304 pleiotropic genes, several of which showed significant expression in the results of transcriptome and proteome analyses. We observed that these genes are mostly associated with the regulation of transcription factors and particular DNA binding activities. Lastly, MR analysis provided evidence supporting a correlation between these conditions. Conclusion: This study revealed a genetic correlation between four psychiatric disorders and HEM, identified pleiotropic loci, found multiple candidate genes, and confirmed causal relationships. This has enhanced our comprehension of the common genetic mechanisms of psychiatric disorders and HEM. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic overlap between major depressive disorder and obstructive sleep apnea.

Author

Lin, Fangbo, Deng, Yanyao, Xiao, Le, Liu, Chao, and Li, Jie

Subjects

SLEEP disorders, SLEEP apnea syndromes, MENTAL depression, MENTAL illness, GENOMICS, GENETIC correlations

Abstract

Objective: Observational studies have frequently shown a co-occurrence of psychiatric disorders and Obstructive sleep apnea (OSA), with major depressive disorder (MDD) being a prevalent psychiatric disorder. This study aims to investigate the genetic overlap between MDD and OSA to explore their underlying pathological mechanisms. Methods: Leveraging the extensive and recent GWAS for OSA and MDD, we conducted genetic correlation analyses utilizing Linkage disequilibrium score regression (LDSC), re-evaluated their pleiotropic Single-nucleotide polymorphisms (SNP) with Cross-Phenotype Association (CPASSOC) and Colocalization (COLOC), investigated the overlap at the gene level using physical annotations and Multi-marker Analysis of GenoMic Annotation (MAGMA), and finally employed Mendelian randomization (MR) to assess potential causal relationships between the two disorders. Results: Upon our investigation, we established that MDD and OSA exhibit high heritability (h2MDD=0.02, h2OSA=0.04) alongside a significant genetic correlation (rg=0.31, P= 1.42E-23). Utilizing CPASSOC, we identified 397 pleiotropic SNPs, associable with 45 loci, two of which share common genetic fragments with a pleiotropic role. Furthermore, the MAGMA study uncovered a total of 154 pleiotropic genes capable of influencing multiple brain regions. Lastly, leveraging MR analysis, we concluded that MDD heightens the risk of developing OSA (P=3. 10E-04, OR (95%CI):1.28(1.12~ 1.47)). Conclusion: In summary, our study identified PCLO as a common gene between OSA and MDD and provided evidence that MDD causally contributes to the development of OSA. These insights enhance our understanding of the shared mechanisms underlying the comorbidity of these conditions. [ABSTRACT FROM AUTHOR]

Published

2024

13. Shared Genetic Determinants of Schizophrenia and Autism Spectrum Disorder Implicate Opposite Risk Patterns: A Genome-Wide Analysis of Common Variants.

Author

Chen, Yu, Li, Wenqiang, Lv, Luxian, and Yue, Weihua

Subjects

GENETICS of schizophrenia, GENETICS of autism, RISK assessment, GENOME-wide association studies, RESEARCH funding, NEUROPLASTICITY, GENETIC risk score, GENE expression, ASPERGER'S syndrome, SINGLE nucleotide polymorphisms

Abstract

Background and Hypothesis The synaptic pruning hypothesis posits that schizophrenia (SCZ) and autism spectrum disorder (ASD) may represent opposite ends of neurodevelopmental disorders: individuals with ASD exhibit an overabundance of synapses and connections while SCZ was characterized by excessive pruning of synapses and a reduction. Given the strong genetic predisposition of both disorders, we propose a shared genetic component, with certain loci having differential regulatory impacts. Study Design Genome-Wide single nucleotide polymorphism (SNP) data of European descent from SCZ (N cases = 53 386, N controls = 77 258) and ASD (N cases = 18 381, N controls = 27 969) were analyzed. We used genetic correlation, bivariate causal mixture model, conditional false discovery rate method, colocalization, Transcriptome-Wide Association Study (TWAS), and Phenome-Wide Association Study (PheWAS) to investigate the genetic overlap and gene expression pattern. Study Results We found a positive genetic correlation between SCZ and ASD (r g = .26, SE = 0.01, P  = 7.87e−14), with 11 genomic loci jointly influencing both conditions (conjFDR <0.05). Functional analysis highlights a significant enrichment of shared genes during early to mid-fetal developmental stages. A notable genetic region on chromosome 17q21.31 (lead SNP rs2696609) showed strong evidence of colocalization (PP.H4.abf = 0.85). This SNP rs2696609 is linked to many imaging-derived brain phenotypes. TWAS indicated opposing gene expression patterns (primarily pseudogenes and long noncoding RNAs [lncRNAs]) for ASD and SCZ in the 17q21.31 region and some genes (LRRC37A4P , LINC02210 , and DND1P1) exhibit considerable variation in the cerebellum across the lifespan. Conclusions Our findings support a shared genetic basis for SCZ and ASD. A common genetic variant, rs2696609, located in the Chr17q21.31 locus, may exert differential risk regulation on SCZ and ASD by altering brain structure. Future studies should focus on the role of pseudogenes, lncRNAs, and cerebellum in synaptic pruning and neurodevelopmental disorders. [ABSTRACT FROM AUTHOR]

Published

2024

14. Investigating the shared genetic basis of inflammatory bowel disease and systemic lupus erythematosus using genetic overlap analysis.

Author

Yuan, Weichao, Luo, Qinghua, and Wu, Na

Subjects

CROHN'S disease, GENETIC correlations, SYSTEMIC lupus erythematosus, GENOME-wide association studies, ULCERATIVE colitis, INFLAMMATORY bowel diseases

Abstract

Background: Inflammatory bowel disease (IBD) and systemic lupus erythematosus (SLE) are autoimmune diseases that often coexist clinically. This phenomenon might be due to shared genetic components. Methods: Genome-wide association study (GWAS) data for IBD and SLE were analyzed to determine both global and local genetic correlations using three methodologies: linkage disequilibrium score regression (LDSC), genetic covariance analyzer (GNOVA), and SUPERGNOVA. The genetic overlap and risk loci were subsequently examined using the conditional/conjunctional false discovery rate (cond/conjFDR) statistical framework. Furthermore, a multi-trait analysis of MTAG was employed to validate the loci, followed by an LDSC analysis focusing on tissue-specific gene expression. Results: GWAS findings demonstrated a marked global genetic correlation between IBD (including Crohn's disease and ulcerative colitis) and SLE. Locally, SLE showed a strong association with IBD and Crohn's disease on chromosomes 10, 19, and 22. ConjFDR analysis confirmed the genetic overlap and identified relevant genetic risk loci. MTAG further validated several shared susceptibility genes. Additionally, the LDSC-SEG analysis results indicate that IBD (including CD and UC) and SLE are jointly enriched in the tissues of Spleen and Whole Blood. Conclusion: This study confirms a genetic overlap between IBD and SLE, identifying marked comorbid genes and offering new insights for treating these diseases. [ABSTRACT FROM AUTHOR]

Published

2024

15. Genome-wide Association Analysis of Schizophrenia and Vitamin D Levels Shows Shared Genetic Architecture and Identifies Novel Risk Loci.

Author

Jaholkowski, Piotr, Hindley, Guy, Shadrin, Alexey, Tesfaye, Markos, Bahrami, Shahram, Nerhus, Mari, Rahman, Zillur, OConnell, Kevin, Holen, Børge, Parker, Nadine, Cheng, Weiqiu, Lin, Aihua, Rødevand, Linn, Karadag, Naz, Frei, Oleksandr, Djurovic, Srdjan, Dale, Anders, Smeland, Olav, and Andreassen, Ole

Subjects

GWAS, conditional, conjunctional false discovery rate, genetic overlap, polygenic architecture, Humans, Genome-Wide Association Study, Vitamin D, Schizophrenia, Genetic Predisposition to Disease, Polymorphism, Single Nucleotide, Genetic Loci

Abstract

Low vitamin D (vitD) levels have been consistently reported in schizophrenia (SCZ) suggesting a role in the etiopathology. However, little is known about the role of underlying shared genetic mechanisms. We applied a conditional/conjunctional false discovery rate approach (FDR) on large, nonoverlapping genome-wide association studies for SCZ (N cases = 53 386, N controls = 77 258) and vitD serum concentration (N = 417 580) to evaluate shared common genetic variants. The identified genomic loci were characterized using functional analyses and biological repositories. We observed cross-trait SNP enrichment in SCZ conditioned on vitD and vice versa, demonstrating shared genetic architecture. Applying the conjunctional FDR approach, we identified 72 loci jointly associated with SCZ and vitD at conjunctional FDR

Published

2023

16. Characterizing the Shared Genetic Underpinnings of Schizophrenia and Cardiovascular Disease Risk Factors

Author

Rødevand, Linn, Rahman, Zillur, Hindley, Guy FL, Smeland, Olav B, Frei, Oleksandr, Tekin, Tahir Filiz, Kutrolli, Gleda, Bahrami, Shahram, Hoseth, Eva Z, Shadrin, Alexey, Lin, Aihua, Djurovic, Srdjan, Dale, Anders M, Steen, Nils Eiel, and Andreassen, Ole A

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Schizophrenia, Obesity, Human Genome, Heart Disease, Cardiovascular, Prevention, Brain Disorders, Genetics, Nutrition, Heart Disease - Coronary Heart Disease, Mental Health, Mental Illness, 2.1 Biological and endogenous factors, Good Health and Well Being, Humans, Cardiovascular Diseases, Coronary Artery Disease, Diabetes Mellitus, Type 2, Genome-Wide Association Study, Risk Factors, Lipids, Genetic Predisposition to Disease, Polymorphism, Single Nucleotide, Genetic Loci, Body Mass Index, Cardiovascular Disease, Genetic Overlap, Lifestyle, Schizophrenia Spectrum and Other Psychotic Disorders, Smoking, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Clinical and health psychology

Abstract

ObjectiveSchizophrenia is associated with increased risk of cardiovascular disease (CVD), although there is variation in risk among individuals. There are indications of shared genetic etiology between schizophrenia and CVD, but the nature of the overlap remains unclear. The aim of this study was to fill this gap in knowledge.MethodsOverlapping genetic architectures between schizophrenia and CVD risk factors were assessed by analyzing recent genome-wide association study (GWAS) results. The bivariate causal mixture model (MiXeR) was applied to estimate the number of shared variants and the conjunctional false discovery rate (conjFDR) approach was used to pinpoint specific shared loci.ResultsExtensive genetic overlap was found between schizophrenia and CVD risk factors, particularly smoking initiation (N=8.6K variants) and body mass index (BMI) (N=8.1K variants). Several specific shared loci were detected between schizophrenia and BMI (N=304), waist-to-hip ratio (N=193), smoking initiation (N=293), systolic (N=294) and diastolic (N=259) blood pressure, type 2 diabetes (N=147), lipids (N=471), and coronary artery disease (N=35). The schizophrenia risk loci shared with smoking initiation had mainly concordant effect directions, and the risk loci shared with BMI had mainly opposite effect directions. The overlapping loci with lipids, blood pressure, waist-to-hip ratio, type 2 diabetes, and coronary artery disease had mixed effect directions. Functional analyses implicated mapped genes that are expressed in brain tissue and immune cells.ConclusionsThese findings indicate a genetic propensity to smoking and a reduced genetic risk of obesity among individuals with schizophrenia. The bidirectional effects of the shared loci with the other CVD risk factors may imply differences in genetic liability to CVD across schizophrenia subgroups, possibly underlying the variation in CVD comorbidity.

Published

2023

17. Association between 25(OH) vitamin D and schizophrenia: shared genetic correlation, pleiotropy, and causality

Author

Guo-Wei Rong, Xiao-Min Li, Hui-Min Lu, Ming-Zhu Su, and Yi Jin

Subjects

vitamin D, schizophrenia, genetic overlap, Mendelian randomization, genome-wide association study, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundThis study delves into the complex interplay between genetics, 25-hydroxyvitamin D (25OHD), and schizophrenia (SCZ). It leverages extensive sample data derived from Genome-Wide Association Studies (GWAS) to uncover genetic correlations.MethodsEmploying Linkage Disequilibrium Score Regression (LDSC) and S-LDSC, this study investigates genetic connections between 25OHD and SCZ. It examines Single Nucleotide Polymorphism (SNP) heritability in specific tissues and incorporates diverse immune cell datasets for genetic enrichment analysis. Local genetic correlations were analyzed using HESS software, and pleiotropy analysis identified shared genetic loci in brain tissues. Hyprcoloc analysis was used to explore shared genetic factors between 25OHD, immune cells, and SCZ, complemented by a bidirectional Mendelian Randomization (MR) to probe potential causal links.ResultsWe identified a significant negative genetic correlation between 25OHD levels and SCZ. PLACO analysis revealed 35 pleiotropic loci with strong enrichment in brain regions, particularly the cerebellum, frontal cortex, and hippocampus. Eight loci (1p34.2, 2p23.3, 3p21.1, 5q31.2, 12q23.2, 14q32.33, 16p13.3, and 16q24.3) exhibited strong colocalization, highlighting potential drug targets. Gene and tissue enrichment analyses emphasized neurological and immune-related mechanisms, including hyaluronan metabolism. Bidirectional MR analysis supported a causal effect of SCZ on 25OHD levels.ConclusionOur study identifies NEK4 as a potential therapeutic target and highlights the involvement of hyaluronan metabolism in the genetic association between 25OHD and SCZ. These findings provide valuable insights into shared genetic pathways, immune-related connections, and causal interactions in the context of SCZ.

Published

2024

18. Shared genetic architecture between irritable bowel syndrome and psychiatric disorders reveals molecular pathways of the gut-brain axis.

Author

Tesfaye, Markos, Jaholkowski, Piotr, Hindley, Guy, Shadrin, Alexey, Rahman, Zillur, Bahrami, Shahram, Lin, Aihua, Holen, Børge, Parker, Nadine, Cheng, Weiqiu, Rødevand, Linn, Frei, Oleksandr, Djurovic, Srdjan, Dale, Anders, Smeland, Olav, OConnell, Kevin, and Andreassen, Ole

Subjects

Genetic overlap, Gut-brain axis, Irritable bowel syndrome, Psychiatric disorder, Humans, Irritable Bowel Syndrome, Brain-Gut Axis, Genome-Wide Association Study, Mental Disorders, Gastrointestinal Diseases, Polymorphism, Single Nucleotide, Genetic Predisposition to Disease

Abstract

BACKGROUND: Irritable bowel syndrome (IBS) often co-occurs with psychiatric and gastrointestinal disorders. A recent genome-wide association study (GWAS) identified several genetic risk variants for IBS. However, most of the heritability remains unidentified, and the genetic overlap with psychiatric and somatic disorders is not quantified beyond genome-wide genetic correlations. Here, we characterize the genetic architecture of IBS, further, investigate its genetic overlap with psychiatric and gastrointestinal phenotypes, and identify novel genomic risk loci. METHODS: Using GWAS summary statistics of IBS (53,400 cases and 433,201 controls), and psychiatric and gastrointestinal phenotypes, we performed bivariate casual mixture model analysis to characterize the genetic architecture and genetic overlap between these phenotypes. We leveraged identified genetic overlap to boost the discovery of genomic loci associated with IBS, and to identify specific shared loci associated with both IBS and psychiatric and gastrointestinal phenotypes, using the conditional/conjunctional false discovery rate (condFDR/conjFDR) framework. We used functional mapping and gene annotation (FUMA) for functional analyses. RESULTS: IBS was highly polygenic with 12k trait-influencing variants. We found extensive polygenic overlap between IBS and psychiatric disorders and to a lesser extent with gastrointestinal diseases. We identified 132 independent IBS-associated loci (condFDR

Published

2023

19. Genetic overlap between cortical brain morphometry and frontotemporal dementia risk

Author

Diaz-Torres, Santiago, Ogonowski, Natalia, García-Marín, Luis M, Bonham, Luke W, Duran-Aniotz, Claudia, Yokoyama, Jennifer S, and Rentería, Miguel E

Subjects

Biological Psychology, Psychology, Neurosciences, Brain Disorders, Dementia, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurodegenerative, Genetics, Acquired Cognitive Impairment, Biotechnology, Frontotemporal Dementia (FTD), Aging, Human Genome, Alzheimer's Disease Related Dementias (ADRD), Rare Diseases, Biomedical Imaging, 2.1 Biological and endogenous factors, Neurological, Humans, Animals, Mice, Frontotemporal Dementia, Genome-Wide Association Study, Brain, Frontal Lobe, Parietal Lobe, Magnetic Resonance Imaging, frontotemporal dementia, gene expression, genetic overlap, MRI, neuroimaging, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Frontotemporal dementia (FTD) has a complex genetic etiology, where the precise mechanisms underlying the selective vulnerability of brain regions remain unknown. We leveraged summary-based data from genome-wide association studies (GWAS) and performed LD score regression to estimate pairwise genetic correlations between FTD risk and cortical brain imaging. Then, we isolated specific genomic loci with a shared etiology between FTD and brain structure. We also performed functional annotation, summary-data-based Mendelian randomization for eQTL using human peripheral blood and brain tissue data, and evaluated the gene expression in mice targeted brain regions to better understand the dynamics of the FTD candidate genes. Pairwise genetic correlation estimates between FTD and brain morphology measures were high but not statistically significant. We identified 5 brain regions with a strong genetic correlation (rg > 0.45) with FTD risk. Functional annotation identified 8 protein-coding genes. Building upon these findings, we show in a mouse model of FTD that cortical N-ethylmaleimide sensitive factor (NSF) expression decreases with age. Our results highlight the molecular and genetic overlap between brain morphology and higher risk for FTD, specifically for the right inferior parietal surface area and right medial orbitofrontal cortical thickness. In addition, our findings implicate NSF gene expression in the etiology of FTD.

Published

2023

20. Genome-wide association analysis of hypertension and epigenetic aging reveals shared genetic architecture and identifies novel risk loci

Author

Xin Li, Yu Guo, Haihai Liang, Jinghao Wang, and Lishuang Qi

Subjects

High blood pressure, Epigenetic clocks, Genetic overlap, Epigenetic age, Medicine, Science

Abstract

Abstract Hypertension is a disease associated with epigenetic aging. However, the pathogenic mechanism underlying this relationship remains unclear. We aimed to characterize the shared genetic architecture of hypertension and epigenetic aging, and identify novel risk loci. Leveraging genome-wide association studies (GWAS) summary statistics of hypertension (129,909 cases and 354,689 controls) and four epigenetic clocks (N = 34,710), we investigated genetic architectures and genetic overlap using bivariate casual mixture model and conditional/conjunctional false discovery rate methods. Functional gene-sets pathway analyses were performed by functional mapping and gene annotation (FUMA) protocol. Hypertension was polygenic with 2.8 K trait-influencing genetic variants. We observed cross-trait genetic enrichment and genetic overlap between hypertension and all four measures of epigenetic aging. Further, we identified 32 distinct genomic loci jointly associated with hypertension and epigenetic aging. Notably, rs1849209 was shared between hypertension and three epigenetic clocks (HannumAge, IEAA, and PhenoAge). The shared loci exhibited a combination of concordant and discordant allelic effects. Functional gene-set analyses revealed significant enrichment in biological pathways related to sensory perception of smell and nervous system processes. We observed genetic overlaps with mixed effect directions between hypertension and all four epigenetic aging measures, and identified 32 shared distinct loci with mixed effect directions, 25 of which were novel for hypertension. Shared genes enriched in biological pathways related to olfaction.

Published

2024

21. Shared familial risk for type 2 diabetes mellitus and psychiatric disorders: a nationwide multigenerational genetics study.

Subjects

*MENTAL illness risk factors, *MENTAL illness genetics, *RISK assessment, *BEHAVIOR disorders, *SOCIAL disabilities, *RESEARCH funding, *CHILD psychopathology, *ATTENTION-deficit hyperactivity disorder, *LOGISTIC regression analysis, *REPORTING of diseases, *DESCRIPTIVE statistics, *LONGITUDINAL method, *ODDS ratio, *TYPE 2 diabetes, *ANOREXIA nervosa, *COMPARATIVE studies, *DISEASE susceptibility, *CONFIDENCE intervals, *PROPORTIONAL hazards models, *GENOTYPES, *DISEASE risk factors

Abstract

Background Psychiatric disorders and type 2 diabetes mellitus (T2DM) are heritable, polygenic, and often comorbid conditions, yet knowledge about their potential shared familial risk is lacking. We used family designs and T2DM polygenic risk score (T2DM-PRS) to investigate the genetic associations between psychiatric disorders and T2DM. Methods We linked 659 906 individuals born in Denmark 1990–2000 to their parents, grandparents, and aunts/uncles using population-based registers. We compared rates of T2DM in relatives of children with and without a diagnosis of any or one of 11 specific psychiatric disorders, including neuropsychiatric and neurodevelopmental disorders, using Cox regression. In a genotyped sample (iPSYCH2015) of individuals born 1981–2008 (n = 134 403), we used logistic regression to estimate associations between a T2DM-PRS and these psychiatric disorders. Results Among 5 235 300 relative pairs, relatives of individuals with a psychiatric disorder had an increased risk for T2DM with stronger associations for closer relatives (parents:hazard ratio = 1.38, 95% confidence interval 1.35–1.42; grandparents: 1.14, 1.13–1.15; and aunts/uncles: 1.19, 1.16–1.22). In the genetic sample, one standard deviation increase in T2DM-PRS was associated with an increased risk for any psychiatric disorder (odds ratio = 1.11, 1.08–1.14). Both familial T2DM and T2DM-PRS were significantly associated with seven of 11 psychiatric disorders, most strongly with attention-deficit/hyperactivity disorder and conduct disorder, and inversely with anorexia nervosa. Conclusions Our findings of familial co-aggregation and higher T2DM polygenic liability associated with psychiatric disorders point toward shared familial risk. This suggests that part of the comorbidity is explained by shared familial risks. The underlying mechanisms still remain largely unknown and the contributions of genetics and environment need further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

22. Genetic architecture of brain morphology and overlap with neuropsychiatric traits.

Author

Ge, Yi-Jun, Fu, Yan, Gong, Weikang, Cheng, Wei, and Yu, Jin-Tai

Subjects

*MAGNETIC resonance imaging, *NEUROBEHAVIORAL disorders, *NEURAL development, *BRAIN diseases, *THERAPEUTICS

Abstract

Numerous loci have been identified to be associated with brain morphology. Several genomic regions are associated with multiple neuroimaging traits, potentially playing a critical role during brain development and diseases. Genetic evidence suggests correlative, causal, and pleiotropic relationships between brain morphology and neuropsychiatric diseases. Neuropsychiatric disorders exhibit similar global neuroimaging patterns alongside diverse regional patterns. Exploring the genetics underlying brain morphology holds promise for diagnosing, predicting, and treating neuropsychiatric disorders. Uncovering the genetic architectures of brain morphology offers valuable insights into brain development and disease. Genetic association studies of brain morphological phenotypes have discovered thousands of loci. However, interpretation of these loci presents a significant challenge. One potential solution is exploring the genetic overlap between brain morphology and disorders, which can improve our understanding of their complex relationships, ultimately aiding in clinical applications. In this review, we examine current evidence on the genetic associations between brain morphology and neuropsychiatric traits. We discuss the impact of these associations on the diagnosis, prediction, and treatment of neuropsychiatric diseases, along with suggestions for future research directions. [ABSTRACT FROM AUTHOR]

Published

2024

23. Genetics of Psychiatric Disorders: Advances in Genetic Epidemiology and Genomic Approaches

Author

Oraki Kohshour, Mojtaba, Strom, Nora I., Meier, Sandra Melanie, McMahon, Francis J., Merikangas, Kathleen R., Schulze, Thomas G., Mattheisen, Manuel, Laje, Gonzalo, Section editor, Tasman, Allan, editor, Riba, Michelle B., editor, Alarcón, Renato D., editor, Alfonso, César A., editor, Kanba, Shigenobu, editor, Lecic-Tosevski, Dusica, editor, Ndetei, David M., editor, Ng, Chee H., editor, and Schulze, Thomas G., editor

Published

2024

24. Genetic overlap between major depressive disorder and obstructive sleep apnea

Author

Fangbo Lin, Yanyao Deng, Le Xiao, Chao Liu, and Jie Li

Subjects

major depressive disorder, obstructive sleep apnea, GWAS, genetic overlap, genetic correlation, Psychiatry, RC435-571

Abstract

ObjectiveObservational studies have frequently shown a co-occurrence of psychiatric disorders and Obstructive sleep apnea (OSA), with major depressive disorder (MDD) being a prevalent psychiatric disorder. This study aims to investigate the genetic overlap between MDD and OSA to explore their underlying pathological mechanisms.MethodsLeveraging the extensive and recent GWAS for OSA and MDD, we conducted genetic correlation analyses utilizing Linkage disequilibrium score regression (LDSC), re-evaluated their pleiotropic Single-nucleotide polymorphisms (SNP) with Cross-Phenotype Association (CPASSOC) and Colocalization (COLOC), investigated the overlap at the gene level using physical annotations and Multi-marker Analysis of GenoMic Annotation (MAGMA), and finally employed Mendelian randomization (MR) to assess potential causal relationships between the two disorders.ResultsUpon our investigation, we established that MDD and OSA exhibit high heritability (h2MDD=0.02, h2OSA=0.04) alongside a significant genetic correlation (rg=0.31, P= 1.42E-23). Utilizing CPASSOC, we identified 397 pleiotropic SNPs, associable with 45 loci, two of which share common genetic fragments with a pleiotropic role. Furthermore, the MAGMA study uncovered a total of 154 pleiotropic genes capable of influencing multiple brain regions. Lastly, leveraging MR analysis, we concluded that MDD heightens the risk of developing OSA (P=3. 10E-04, OR (95%CI):1.28(1.12~ 1.47)).ConclusionIn summary, our study identified PCLO as a common gene between OSA and MDD and provided evidence that MDD causally contributes to the development of OSA. These insights enhance our understanding of the shared mechanisms underlying the comorbidity of these conditions.

Published

2024

25. Shared genetic architecture of psychiatric disorders and hemorrhoidal disease: a large-scale genome-wide cross-trait analysis

Author

Zhangsendi Chen, Bowen Hu, Ji Sun, Yuhong Jiang, Zhe Chen, Chunmei Yang, Hongbo He, and Weiguo Wang

Subjects

hemorrhoidal disease, psychiatric disorders, genetic overlap, pleiotropic loci, Mendelian randomization, Psychiatry, RC435-571

Abstract

BackgroundThe genetic association between psychiatric disorders and hemorrhoidal disease (HEM) is still not well known. The work aims to investigate their comorbidity at a genetic level.MethodsUtilizing recent large-scale genome-wide association studies (GWAS), we investigated the genetic overlap at the single nucleotide polymorphism (SNP), gene, and molecular level between depression and HEM, bipolar disorder (BD) and HEM, neuroticism and HEM, as well as schizophrenia (SCZ) and HEM. The cross-trait genes were validated through the utilization of transcriptome and proteome methodologies. The causal link was assessed using bidirectional two-sample Mendelian randomization analysis (MR) analysis. MRlap corrects for the potential bias in estimation caused by sample overlap.ResultsWe discovered significant positive genetic associations between these four types of psychiatric disorders and HEM. Cross-phenotypic association analyses identified shared SNPs along with 17 specific loci between psychiatric disorders and HEM. MAGMA identified a total of 2304 pleiotropic genes, several of which showed significant expression in the results of transcriptome and proteome analyses. We observed that these genes are mostly associated with the regulation of transcription factors and particular DNA binding activities. Lastly, MR analysis provided evidence supporting a correlation between these conditions.ConclusionThis study revealed a genetic correlation between four psychiatric disorders and HEM, identified pleiotropic loci, found multiple candidate genes, and confirmed causal relationships. This has enhanced our comprehension of the common genetic mechanisms of psychiatric disorders and HEM.

Published

2024

26. Shared genetic architecture between autoimmune disorders and B-cell acute lymphoblastic leukemia: insights from large-scale genome-wide cross-trait analysis

Author

Xinghao Yu, Yiyin Chen, Jia Chen, Yi Fan, Huimin Lu, Depei Wu, and Yang Xu

Subjects

Genetic overlap, B-cell acute lymphoblastic leukemia, Autoimmune disease, Mendelian randomization, Medicine

Abstract

Abstract Background To study the shared genetic structure between autoimmune diseases and B-cell acute lymphoblastic leukemia (B-ALL) and identify the shared risk loci and genes and genetic mechanisms involved. Methods Based on large-scale genome-wide association study (GWAS) summary-level data sets, we observed genetic overlaps between autoimmune diseases and B-ALL, and cross-trait pleiotropic analysis was performed to detect shared pleiotropic loci and genes. A series of functional annotation and tissue-specific analysis were performed to determine the influence of pleiotropic genes. The heritability enrichment analysis was used to detect crucial immune cells and tissues. Finally, bidirectional Mendelian randomization (MR) methods were utilized to investigate the casual associations. Results Our research highlighted shared genetic mechanisms between seven autoimmune disorders and B-ALL. A total of 73 pleiotropic loci were identified at the genome-wide significance level (P

Published

2024

27. The shared genetic basis of mood instability and psychiatric disorders: A cross-trait genome-wide association analysis.

Author

Hindley, Guy, OConnell, Kevin, Rahman, Zillur, Frei, Oleksandr, Bahrami, Shahram, Shadrin, Alexey, Høegh, Margrethe, Cheng, Weiqiu, Karadag, Naz, Lin, Aihua, Rødevand, Linn, Fan, Chun, Djurovic, Srdjan, Lagerberg, Trine, Dale, Anders, Smeland, Olav, and Andreassen, Ole

Subjects

ADHD, bipolar disorder, genetic overlap, major depression, mood instability, schizophrenia, Bipolar Disorder, Depressive Disorder, Major, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Multifactorial Inheritance, Polymorphism, Single Nucleotide, Schizophrenia

Abstract

Recent genome-wide association studies of mood instability (MOOD) have found significant positive genetic correlation with major depression (DEP) and weak correlations with other psychiatric disorders. We investigated the polygenic overlap between MOOD and psychiatric disorders beyond genetic correlation to better characterize putative shared genetic determinants. GWAS summary statistics for schizophrenia (SCZ, n = 105,318), bipolar disorder (BIP, n = 413,466), DEP (n = 450,619), attention-deficit hyperactivity disorder (ADHD, n = 53,293), and MOOD (n = 363,705) were analyzed using the bivariate causal mixture model and conjunctional false discovery rate methods. MOOD correlated positively with all psychiatric disorders, but with wide variation in strength (rg  = 0.10-0.62). Of 10.4 K genomic variants influencing MOOD, 4 K-9.4 K influenced psychiatric disorders. Furthermore, MOOD was jointly associated with DEP at 163 loci, SCZ at 110, BIP at 60 and ADHD at 25. Fifty-three jointly associated loci were overlapping across two or more disorders, seven of which had discordant effect directions on psychiatric disorders. Genes mapped to loci associated with MOOD and all four disorders were enriched in a single gene-set, synapse organization. The extensive polygenic overlap indicates shared molecular underpinnings across MOOD and psychiatric disorders. However, distinct patterns of genetic correlation and effect directions may relate to differences in the core clinical features of each disorder.

Published

2022

28. Social isolation and poor mental health in young people: testing genetic and environmental influences in a longitudinal cohort study

Author

Thompson, Katherine N., Oginni, Olakunle, Wertz, Jasmin, Danese, Andrea, Okundi, Malaika, Arseneault, Louise, and Matthews, Timothy

Published

2024

29. Identification of reliable QTLs and designed QTL breeding for grain shape and milling quality in the reciprocal introgression lines in rice

Author

Emelin, Mwenda, Qiu, Xianjin, Fan, Fangjun, Alamin, Md., Faruquee, Muhiuddin, Hu, Hui, Xu, Junying, Yang, Jie, Xu, Haiming, Ali, Jauhar, Liu, Bailong, Shi, Yumin, Li, Zhikang, Zhang, Luyan, Zheng, Tianqing, and Xu, Jianlong

Published

2024

30. Genetic overlap and causality between COVID-19 and multi-site chronic pain: the importance of immunity.

Author

Yanjing Chen, Ping Liu, Zhiyi Zhang, Yingling Ye, Sijie Yi, Chunhua Fan, Wei Zhao, and Jun Liu

Subjects

CHRONIC pain, CORONAVIRUS diseases, COVID-19, GENOME-wide association studies, HEAT shock proteins, SINGLE nucleotide polymorphisms, GENE ontology, AFFECTIVE neuroscience

Abstract

Background: The existence of chronic pain increases susceptibility to virus and is now widely acknowledged as a prominent feature recognized as a major manifestation of long-term coronavirus disease 2019 (COVID-19) infection. Given the ongoing COVID-19 pandemic, it is imperative to explore the genetic associations between chronic pain and predisposition to COVID-19. Methods: We conducted genetic analysis at the single nucleotide polymorphism (SNP), gene, and molecular levels using summary statistics of genome-wide association study (GWAS) and analyzed the drug targets by summary data-based Mendelian randomization analysis (SMR) to alleviate the multi-site chronic pain in COVID-19. Additionally, we performed a latent causal variable (LCV) method to investigate the causal relationship between chronic pain and susceptibility to COVID-19. Results: The cross-trait meta-analysis identified 19 significant SNPs shared between COVID-19 and chronic pain. Coloc analysis indicated that the posterior probability of association (PPH4) for three loci was above 70% in both critical COVID-19 and COVID-19, with the corresponding top three SNPs being rs13135092, rs7588831, and rs13135092. A total of 482 significant overlapped genes were detected from MAGMA and CPASSOC results. Additionally, the gene ANAPC4 was identified as a potential drug target for treating chronic pain (P=7.66E-05) in COVID-19 (P=8.23E-03). Tissue enrichment analysis highlighted that the amygdala (P=7.81E-04) and prefrontal cortex (P=8.19E-05) as pivotal in regulating chronic pain of critical COVID-19. KEGG pathway enrichment further revealed the enrichment of pleiotropic genes in both COVID-19 (P=3.20E-03,Padjust=4.77E-02,hsa05171) and neurotrophic pathways (P=9.03E-04,Padjust =2.55E-02,hsa04621). Finally, the latent causal variable (LCV) model was applied to find the genetic component of critical COVID-19 was causal for multi-site chronic pain (P=0.015), with a genetic causality proportion (GCP) of was 0.60. Conclusions: In this study, we identified several functional genes and underscored the pivotal role of the inflammatory system in the correlation between the paired traits. Notably, heat shock proteins emerged as potential objective biomarkers for chronic pain symptoms in individuals with COVID-19. Additionally, the ubiquitin system might play a role in mediating the impact of COVID-19 on chronic pain. These findings contribute to a more comprehensive understanding of the pleiotropy between COVID-19 and chronic pain, offering insights for therapeutic trials. [ABSTRACT FROM AUTHOR]

Published

2024

31. Corrigendum: Genetic overlap and causality between COVID-19 and multi-site chronic pain: the importance of immunity

Author

Yanjing Chen, Ping Liu, Zhiyi Zhang, Yingling Ye, Sijie Yi, Chunhua Fan, Wei Zhao, and Jun Liu

Subjects

GWAS, COVID-19, genetic overlap, pleiotropy, chronic multi-site pain, inflammation, Immunologic diseases. Allergy, RC581-607

Published

2024

32. Investigating the shared genetic architecture between COVID-19 and obesity: a large-scale genome wide cross-trait analysis.

Author

Yanjing Chen, Chunhua Fan, and Jun Liu

Subjects

GENOMES, COVID-19, GENOMICS, OBESITY, GENETIC correlations, LATENT variables

Abstract

Observational studies have reported high comorbidity between obesity and severe COVID-19. The aim of this study is to explore whether genetic factors are involved in the co-occurrence of the two traits. Based on the available genomewide association studies (GWAS) summary statistics, we explored the genetic correlation and performed cross-trait meta-analysis (CPASSOC) and colocalization analysis (COLOC) to detect pleiotropic single nucleotide polymorphisms (SNPs). At the genetic level, we obtained genes detected by Functional mapping and annotation (FUMA) and the Multi-marker Analysis of GenoMic Annotation (MAGMA). Potential functional genes were further investigated by summary-data-based Mendelian randomization (SMR). Finally, the casualty was identiied using the latent causal variable model (LCV). A significant positive genetic correlation was revealed between obesity and COVID-19. We found 331 shared genetic SNPs by CPASSOC and 13 shared risk loci by COLOC. At the genetic level, We obtained 3546 pleiotropic genes, among which 107 genes were found to be significantly expressed by SMR. Lastly, we observed these genes were mainly enriched in immune pathways and signaling transduction. These indings could provide new insights into the etiology of comorbidity and have implications for future therapeutic trial. [ABSTRACT FROM AUTHOR]

Published

2024

33. Schizophrenia polygenic risk score in psychosis proneness.

Author

Mas-Bermejo, Patricia, Papiol, Sergi, Via, Marc, Rovira, Paula, Torrecilla, Pilar, Kwapil, Thomas R., Barrantes-Vidal, Neus, and Rosa, Araceli

Subjects

*DISEASE risk factors, *MONOGENIC & polygenic inheritance (Genetics), *SCHIZOPHRENIA, *PSYCHOSES, *GENOME-wide association studies, *PATERNAL age effect

Abstract

Schizophrenia (SZ) is a complex disorder with a highly polygenic inheritance. It can be conceived as the extreme expression of a continuum of traits that are present in the general population often broadly referred to as schizotypy. However, it is still poorly understood how these traits overlap genetically with the disorder. We investigated whether polygenic risk for SZ is associated with these disorder-related phenotypes (schizotypy, psychotic-like experiences, and subclinical psychopathology) in a sample of 253 non-clinically identified participants. Polygenic risk scores (PRSs) were constructed based on the latest SZ genome-wide association study using the PRS-CS method. Their association with self-report and interview measures of SZ-related traits was tested. No association with either schizotypy or psychotic-like experiences was found. However, we identified a significant association with the Motor Change subscale of the Comprehensive Assessment of At-Risk Mental States (CAARMS) interview. Our results indicate that the genetic overlap of SZ with schizotypy and psychotic-like experiences is less robust than previously hypothesized. The relationship between high PRS for SZ and motor abnormalities could reflect neurodevelopmental processes associated with psychosis proneness and SZ. [ABSTRACT FROM AUTHOR]

Published

2023

34. Shared genetic architecture between irritable bowel syndrome and psychiatric disorders reveals molecular pathways of the gut-brain axis

Author

Markos Tesfaye, Piotr Jaholkowski, Guy F. L. Hindley, Alexey A. Shadrin, Zillur Rahman, Shahram Bahrami, Aihua Lin, Børge Holen, Nadine Parker, Weiqiu Cheng, Linn Rødevand, Oleksandr Frei, Srdjan Djurovic, Anders M. Dale, Olav B. Smeland, Kevin S. O’Connell, and Ole A. Andreassen

Subjects

Irritable bowel syndrome, Genetic overlap, Psychiatric disorder, Gut-brain axis, Medicine, Genetics, QH426-470

Abstract

Abstract Background Irritable bowel syndrome (IBS) often co-occurs with psychiatric and gastrointestinal disorders. A recent genome-wide association study (GWAS) identified several genetic risk variants for IBS. However, most of the heritability remains unidentified, and the genetic overlap with psychiatric and somatic disorders is not quantified beyond genome-wide genetic correlations. Here, we characterize the genetic architecture of IBS, further, investigate its genetic overlap with psychiatric and gastrointestinal phenotypes, and identify novel genomic risk loci. Methods Using GWAS summary statistics of IBS (53,400 cases and 433,201 controls), and psychiatric and gastrointestinal phenotypes, we performed bivariate casual mixture model analysis to characterize the genetic architecture and genetic overlap between these phenotypes. We leveraged identified genetic overlap to boost the discovery of genomic loci associated with IBS, and to identify specific shared loci associated with both IBS and psychiatric and gastrointestinal phenotypes, using the conditional/conjunctional false discovery rate (condFDR/conjFDR) framework. We used functional mapping and gene annotation (FUMA) for functional analyses. Results IBS was highly polygenic with 12k trait-influencing variants. We found extensive polygenic overlap between IBS and psychiatric disorders and to a lesser extent with gastrointestinal diseases. We identified 132 independent IBS-associated loci (condFDR

Published

2023

35. Genome-wide Association Analysis of Parkinson’s Disease and Schizophrenia Reveals Shared Genetic Architecture and Identifies Novel Risk Loci

Author

Smeland, Olav B, Shadrin, Alexey, Bahrami, Shahram, Broce, Iris, Tesli, Martin, Frei, Oleksandr, Wirgenes, Katrine V, O'Connell, Kevin S, Krull, Florian, Bettella, Francesco, Steen, Nils Eiel, Sugrue, Leo, Wang, Yunpeng, Svenningsson, Per, Sharma, Manu, Pihlstrøm, Lasse, Toft, Mathias, O'Donovan, Michael, Djurovic, Srdjan, Desikan, Rahul, Dale, Anders M, and Andreassen, Ole A

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Biological Psychology, Psychology, Pharmacology and Pharmaceutical Sciences, Biotechnology, Serious Mental Illness, Mental Health, Parkinson's Disease, Clinical Research, Prevention, Neurosciences, Aging, Brain Disorders, Human Genome, Mental Illness, Schizophrenia, Neurodegenerative, 2.1 Biological and endogenous factors, Neurological, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Multifactorial Inheritance, Parkinson Disease, Polymorphism, Single Nucleotide, GWAS, Genetic overlap, Parkinson’s disease, RERE, ZDHHC2, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological sciences, Biomedical and clinical sciences

Abstract

BackgroundParkinson's disease (PD) and schizophrenia (SCZ) are heritable brain disorders that involve dysregulation of the dopaminergic system. Epidemiological studies have reported potential comorbidity between the disorders, and movement disturbances are common in patients with SCZ before treatment with antipsychotic drugs. Despite this, little is known about shared genetic etiology between the disorders.MethodsWe analyzed recent large genome-wide association studies on patients with SCZ (N = 77,096) and PD (N = 417,508) using a conditional/conjunctional false discovery rate (FDR) approach to evaluate overlap in common genetic variants and improve statistical power for genetic discovery. Using a variety of biological resources, we functionally characterized the identified genomic loci.ResultsWe observed genetic enrichment in PD conditional on associations with SCZ and vice versa, indicating polygenic overlap. We then leveraged this cross-trait enrichment using conditional FDR analysis and identified 9 novel PD risk loci and 1 novel SCZ locus at conditional FDR < .01. Furthermore, we identified 9 genomic loci jointly associated with PD and SCZ at conjunctional FDR < .05. There was an even distribution of antagonistic and agonistic effect directions among the shared loci, in line with the insignificant genetic correlation between the disorders. Of 67 genes mapped to the shared loci, 65 are expressed in the human brain and show cell type-specific expression profiles.ConclusionsAltogether, the study increases understanding of the genetic architectures underlying SCZ and PD, indicating that common molecular genetic mechanisms may contribute to overlapping pathophysiological and clinical features between the disorders.

Published

2021

36. Identification of Genetic Loci Shared Between Attention-Deficit/Hyperactivity Disorder, Intelligence, and Educational Attainment

Author

O'Connell, Kevin S, Shadrin, Alexey, Smeland, Olav B, Bahrami, Shahram, Frei, Oleksandr, Bettella, Francesco, Krull, Florian, Fan, Chun C, Askeland, Ragna B, Knudsen, Gun Peggy S, Halmøy, Anne, Steen, Nils Eiel, Ueland, Torill, Walters, G Bragi, Davíðsdóttir, Katrín, Haraldsdóttir, Gyða S, Guðmundsson, Ólafur Ó, Stefánsson, Hreinn, Reichborn-Kjennerud, Ted, Haavik, Jan, Dale, Anders M, Stefánsson, Kári, Djurovic, Srdjan, and Andreassen, Ole A

Subjects

Biological Sciences, Genetics, Behavioral and Social Science, Brain Disorders, Human Genome, Neurosciences, Mental Health, Mental Illness, Attention Deficit Hyperactivity Disorder (ADHD), Pediatric, 2.1 Biological and endogenous factors, Academic Success, Attention Deficit Disorder with Hyperactivity, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Intelligence, Polymorphism, Single Nucleotide, ADHD, Cognition, Genetic overlap, Mental health, Pleiotropy, Psychiatric disorder, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological sciences, Biomedical and clinical sciences, Psychology

Abstract

BackgroundAttention-deficit/hyperactivity disorder (ADHD) is a neurodevelopmental disorder that is consistently associated with lower levels of educational attainment. A recent large genome-wide association study identified common gene variants associated with ADHD, but most of the genetic architecture remains unknown.MethodsWe analyzed independent genome-wide association study summary statistics for ADHD (19,099 cases and 34,194 controls), educational attainment (N = 842,499), and general intelligence (N = 269,867) using a conditional/conjunctional false discovery rate (FDR) statistical framework that increases power of discovery by conditioning the FDR on overlapping associations. The genetic variants identified were characterized in terms of function, expression, and biological processes.ResultsWe identified 58 linkage disequilibrium-independent ADHD-associated loci (conditional FDR < 0.01), of which 30 were shared between ADHD and educational attainment or general intelligence (conjunctional FDR < 0.01) and 46 were novel risk loci for ADHD.ConclusionsThese results expand on previous genetic and epidemiological studies and support the hypothesis of a shared genetic basis between these phenotypes. Although the clinical utility of the identified loci remains to be determined, they can be used as resources to guide future studies aiming to disentangle the complex etiologies of ADHD, educational attainment, and general intelligence.

Published

2020

37. The genetic overlap between Alzheimer's disease, amyotrophic lateral sclerosis, Lewy body dementia, and Parkinson's disease.

Author

Wightman, Douglas P., Savage, Jeanne E., Tissink, Elleke, Romero, Cato, Jansen, Iris E., and Posthuma, Danielle

Subjects

*LEWY body dementia, *ALZHEIMER'S disease, *AMYOTROPHIC lateral sclerosis, *PARKINSON'S disease, *GENETIC correlations, *CELL death

Abstract

Neurodegenerative diseases are a group of disorders characterized by neuronal cell death causing a variety of physical and mental problems. While these disorders can be characterized by their phenotypic presentation within the nervous system, their aetiologies differ to varying degrees. The majority of previous genetic evidence for overlap between neurodegenerative diseases has been pairwise. In this study, we aimed to identify overlap between the 4 investigated neurodegenerative disorders (Alzheimer's disease, amyotrophic lateral sclerosis, Lewy body dementia, and Parkinson's disease) at the variant, gene, genomic locus, gene-set, cell, or tissue level, with specific interest in overlap between 3 or more diseases. Using local genetic correlation, we found 2 loci (TMEM175 and HLA) that were shared across 3 disorders. We also highlighted genes, genomic loci, gene sets, cell types, and tissue types which may be important to 2 or more disorders by analyzing the association of variants with a common factor estimated from the 4 disorders. Our study successfully highlighted genetic loci and tissues associated with 2 or more neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2023

38. Genome‐wide analyses reveal novel opioid use disorder loci and genetic overlap with schizophrenia, bipolar disorder, and major depression.

Author

Holen, Børge, Shadrin, Alexey A., Icick, Romain, Filiz, Tahir T., Hindley, Guy, Rødevand, Linn, O'Connell, Kevin S., Hagen, Espen, Frei, Oleksandr, Bahrami, Shahram, Cheng, Weiqiu, Parker, Nadine, Tesfaye, Markos, Jahołkowski, Piotr, Karadag, Naz, Dale, Anders M., Djurovic, Srdjan, Smeland, Olav B., and Andreassen, Ole A.

Subjects

*OPIOID abuse, *GENETIC disorders, *BIPOLAR disorder, *GENOME-wide association studies, *GENETIC correlations, *MAJOR histocompatibility complex

Abstract

Opioid use disorder (OUD) and mental disorders are often comorbid, with increased morbidity and mortality. The causes underlying this relationship are poorly understood. Although these conditions are highly heritable, their shared genetic vulnerabilities remain unaccounted for. We applied the conditional/conjunctional false discovery rate (cond/conjFDR) approach to analyse summary statistics from independent genome wide association studies of OUD, schizophrenia (SCZ), bipolar disorder (BD) and major depression (MD) of European ancestry. Next, we characterized the identified shared loci using biological annotation resources. OUD data were obtained from the Million Veteran Program, Yale‐Penn and Study of Addiction: Genetics and Environment (SAGE) (15 756 cases, 99 039 controls). SCZ (53 386 cases, 77 258 controls), BD (41 917 cases, 371 549 controls) and MD (170 756 cases, 329 443 controls) data were provided by the Psychiatric Genomics Consortium. We discovered genetic enrichment for OUD conditional on associations with SCZ, BD, MD and vice versa, indicating polygenic overlap with identification of 14 novel OUD loci at condFDR < 0.05 and 7 unique loci shared between OUD and SCZ (n = 2), BD (n = 2) and MD (n = 7) at conjFDR < 0.05 with concordant effect directions, in line with estimated positive genetic correlations. Two loci were novel for OUD, one for BD and one for MD. Three OUD risk loci were shared with more than one psychiatric disorder, at DRD2 on chromosome 11 (BD and MD), at FURIN on chromosome 15 (SCZ, BD and MD) and at the major histocompatibility complex region (SCZ and MD). Our findings provide new insights into the shared genetic architecture between OUD and SCZ, BD and MD, indicating a complex genetic relationship, suggesting overlapping neurobiological pathways. [ABSTRACT FROM AUTHOR]

Published

2023

39. Shared genetic loci between Alzheimer's disease and multiple sclerosis: Crossroads between neurodegeneration and immune system

Author

Vera Fominykh, Alexey A. Shadrin, Piotr P. Jaholkowski, Shahram Bahrami, Lavinia Athanasiu, Douglas P. Wightman, Emil Uffelmann, Danielle Posthuma, Geir Selbæk, Anders M. Dale, Srdjan Djurovic, Oleksandr Frei, and Ole A. Andreassen

Subjects

Alzheimer's disease, Multiple sclerosis, Genetic overlap, Pleiotropy, Dementia, Neurodegeneration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Neuroinflammation is involved in the pathophysiology of Alzheimer's disease (AD), including immune-linked genetic variants and molecular pathways, microglia and astrocytes. Multiple Sclerosis (MS) is a chronic, immune-mediated disease with genetic and environmental risk factors and neuropathological features. There are clinical and pathobiological similarities between AD and MS. Here, we investigated shared genetic susceptibility between AD and MS to identify putative pathological mechanisms shared between neurodegeneration and the immune system. Methods: We analysed GWAS data for late-onset AD (N cases = 64,549, N controls = 634,442) and MS (N cases = 14,802, N controls = 26,703). Gaussian causal mixture modelling (MiXeR) was applied to characterise the genetic architecture and overlap between AD and MS. Local genetic correlation was investigated with Local Analysis of [co]Variant Association (LAVA). The conjunctional false discovery rate (conjFDR) framework was used to identify the specific shared genetic loci, for which functional annotation was conducted with FUMA and Open Targets. Results: MiXeR analysis showed comparable polygenicities for AD and MS (approximately 1800 trait-influencing variants) and genetic overlap with 20% of shared trait-influencing variants despite negligible genetic correlation (rg = 0.03), suggesting mixed directions of genetic effects across shared variants. conjFDR analysis identified 16 shared genetic loci, with 8 having concordant direction of effects in AD and MS. Annotated genes in shared loci were enriched in molecular signalling pathways involved in inflammation and the structural organisation of neurons. Conclusions: Despite low global genetic correlation, the current results provide evidence for polygenic overlap between AD and MS. The shared loci between AD and MS were enriched in pathways involved in inflammation and neurodegeneration, highlighting new opportunities for future investigation.

Published

2023

40. Investigation of convergent and divergent genetic influences underlying schizophrenia and alcohol use disorder.

Author

Johnson, Emma C., Kapoor, Manav, Hatoum, Alexander S., Zhou, Hang, Polimanti, Renato, Wendt, Frank R., Walters, Raymond K., Lai, Dongbing, Kember, Rachel L., Hartz, Sarah, Meyers, Jacquelyn L., Peterson, Roseann E., Ripke, Stephan, Bigdeli, Tim B., Fanous, Ayman H., Pato, Carlos N., Pato, Michele T., Goate, Alison M., Kranzler, Henry R., and O'Donovan, Michael C.

Subjects

*STATISTICS, *SCHIZOPHRENIA, *SINGLE nucleotide polymorphisms, *GENETIC variation, *GENE expression, *ALCOHOL drinking, *GENOMES, *DATA analysis, *MENTAL illness, *PHENOTYPES

Abstract

Background: Alcohol use disorder (AUD) and schizophrenia (SCZ) frequently co-occur, and large-scale genome-wide association studies (GWAS) have identified significant genetic correlations between these disorders. Methods: We used the largest published GWAS for AUD (total cases = 77 822) and SCZ (total cases = 46 827) to identify genetic variants that influence both disorders (with either the same or opposite direction of effect) and those that are disorder specific. Results: We identified 55 independent genome-wide significant single nucleotide polymorphisms with the same direction of effect on AUD and SCZ, 8 with robust effects in opposite directions, and 98 with disorder-specific effects. We also found evidence for 12 genes whose pleiotropic associations with AUD and SCZ are consistent with mediation via gene expression in the prefrontal cortex. The genetic covariance between AUD and SCZ was concentrated in genomic regions functional in brain tissues (p = 0.001). Conclusions: Our findings provide further evidence that SCZ shares meaningful genetic overlap with AUD. [ABSTRACT FROM AUTHOR]

Published

2023

41. Pleiotropic effects on Sarcopenia subphenotypes point to potential molecular markers for the disease.

Author

Fonseca, Isabela D., Fabbri, Luiz Eduardo, Moraes, Lauro, Coelho, Daniel B., Dos Santos, Fernanda C., and Rosse, Izinara

Subjects

*MUSCLE physiology, *RISK assessment, *GENETIC markers, *MUSCLE diseases, *DESCRIPTIVE statistics, *MUSCLE strength, *BIOINFORMATICS, *GENES, *PHYSICAL fitness, *WALKING speed, *SARCOPENIA, *PHENOTYPES, *SEQUENCE analysis, *SINGLE nucleotide polymorphisms, *GENOMES

Abstract

• The phenotypes associated with Sarcopenia share a common genetic architecture. • There exists a strong genetic correlation between muscle strength and gait speed. • Thirteen pleiotropic loci were identified for pairs of Sarcopenia subphenotypes. • Novel candidate genes and molecular markers were proposed for Sarcopenia risk. Sarcopenia is a progressive age-related muscle disease characterized by low muscle strength, quantity and quality, and low physical performance. The clinical overlap between these subphenotypes (reduction in muscle strength, quantity and quality, and physical performance) was evidenced, but the genetic overlap is still poorly investigated. Herein, we investigated whether there is a genetic overlap amongst sarcopenia subphenotypes in the search for more effective molecular markers for this disease. For that, a Bioinformatics approach was used to identify and characterize pleiotropic effects at the genome, loci and gene levels using Genome-wide association study results. As a result, a high genetic correlation was identified between gait speed and muscle strength (rG=0.5358, p=3.39 × 10-8). Using a Pleiotropy-informed conditional and conjunctional false discovery rate method we identified two pleiotropic loci for muscle strength and gait speed, one of them was nearby the gene PHACTR1. Moreover, 11 pleiotropic loci and 25 genes were identified for muscle mass and muscle strength. Lastly, using a gene-based GWAS approach three candidate genes were identified in the overlap of the three Sarcopenia subphenotypes: FTO, RPS10 and CALCR. The current study provides evidence of genetic overlap and pleiotropy among sarcopenia subphenotypes and highlights novel candidate genes and molecular markers associated with the risk of sarcopenia. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

42. Mapping the genetic landscape of psychiatric disorders with the MiXeR toolset.

Author

van der Meer D, Hindley G, Shadrin A, Smeland OB, Parker AN, Dale AM, Frei O, and Andreassen OA

Abstract

Psychiatric disorders have complex genetic architectures with substantial genetic overlap across conditions, which may partly explain their high levels of comorbidity. This presents significant challenges to research; genome-wide association studies (GWAS) have uncovered hundreds of loci associated with single disorders, yet the genetic landscape of psychiatric disorders has remained largely obscured. By moving beyond the conventional infinitesimal model, uni-, bi-, and trivariate MiXeR tools, applied to GWAS summary statistics, have enabled us to more comprehensively describe the genetic architecture of complex disorders and traits, and their overlap. Further, the GSA-MiXeR tool improves biological interpretation of GWAS findings to better understand causal mechanisms. Here, we outline the methodology underlying the MiXeR tools, together with instructions for their optimal use. We review results from studies investigating the genetic architecture of psychiatric disorders and their overlap using the MiXeR toolset. These studies have revealed generally high polygenicity and low discoverability among psychiatric disorders, particularly in contrast to somatic disorders. There is also pervasive genetic overlap across psychiatric disorders and behavioral traits, while their overlap with somatic traits is smaller, in line with differences in polygenicity. Finally, GSA-MiXeR has quantified the contribution of gene-sets to the heritability of psychiatric disorders, prioritizing small, biologically coherent gene-sets. Together, these findings have implications for our understanding of the complex relationships between psychiatric disorders and related traits. MiXeR tools have provided new insights into the genetic architecture of psychiatric disorders, generating a better understanding of their underlying biological mechanisms and potential for clinical utility., (Copyright © 2025. Published by Elsevier Inc.)

Published

2025

43. From single nucleotide variations to genes: identifying the genetic links between sleep and psychiatric disorders.

Author

Jia N, Zhu Z, Liu Y, Yin X, Man L, Hou W, Zhang H, Yu Q, and Hui L

Subjects

Humans, Genetic Predisposition to Disease genetics, Multifactorial Inheritance genetics, Phenotype, Sleep genetics, Sleep physiology, Polymorphism, Single Nucleotide genetics, Genome-Wide Association Study, Sleep Wake Disorders genetics, Mental Disorders genetics

Abstract

Study Objectives: Sleep disorders and psychiatric disorders frequently coexist and interact, yet the shared genetic basis linking these two domains remains poorly understood., Methods: We investigated the genetic correlation and overlap between seven sleep/circadian traits and three psychiatric disorders at the level of genome-wide association studies (GWAS), utilizing LDSC, HDL, and GPA. To identify potential polygenic single nucleotide variations (SNVs) within each trait pair, we used PLACO, while gene-level analyses were performed using MAGMA and POPS. Furthermore, the functions and biological mechanisms, enriched phenotypes, tissues, cellular features, and pathways were thoroughly investigated using FUMA, deTS, and enrichment analyses at the biological pathway level., Results: Our study revealed extensive genetic associations and overlaps in all 21 trait pairs. We identified 18 494 SNVs and 543 independent genomic risk loci, with 113 confirmed as causative through colocalization analysis. These loci collectively spanned 196 unique chromosomal regions. We pinpointed 43 distinct pleiotropic genes exhibiting significant enrichment in behavioral/physiological phenotypes, nervous system phenotypes, and brain tissue. Aberrations in synaptic structure and function, neurogenesis and development, as well as immune responses, particularly involving the MAPK pathway, emerged as potential underpinnings of the biology of sleep/circadian traits and psychiatric disorders., Conclusions: We identified shared loci and specific sets of genes between sleep/circadian traits and psychiatric disorders, shedding light on the genetic etiology. These discoveries hold promise as potential targets for novel drug interventions, providing valuable insights for the development of therapeutic strategies for these disorders., (© The Author(s) 2024. Published by Oxford University Press on behalf of Sleep Research Society. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2025

44. Genetic Overlap Analysis Identifies a Shared Etiology between Migraine and Headache with Type 2 Diabetes.

Author

Islam, Md Rafiqul and Nyholt, Dale R.

Subjects

*MIGRAINE, *SUMATRIPTAN, *TYPE 2 diabetes, *GENETIC correlations, *ETIOLOGY of diseases, *GENOME-wide association studies, *SPREADING cortical depression

Abstract

Migraine and headache frequently co-occur with type 2 diabetes (T2D), suggesting a shared aetiology between the two conditions. We used genome-wide association study (GWAS) data to investigate the genetic overlap and causal relationship between migraine and headache with T2D. Using linkage disequilibrium score regression (LDSC), we found a significant genetic correlation between migraine and T2D (rg = 0.06, p = 1.37 × 10−5) and between headache and T2D (rg = 0.07, p = 3.0 × 10−4). Using pairwise GWAS (GWAS-PW) analysis, we identified 11 pleiotropic regions between migraine and T2D and 5 pleiotropic regions between headache and T2D. Cross-trait SNP meta-analysis identified 23 novel SNP loci (Pmeta < 5 × 10−8) associated with migraine and T2D, and three novel SNP loci associated with headache and T2D. Cross-trait gene-based overlap analysis identified 33 genes significantly associated (Pgene-based < 3.85 × 10−6) with migraine and T2D, and 11 genes associated with headache and T2D, with 7 genes (EHMT2, SLC44A4, PLEKHA1, CFDP1, TMEM170A, CHST6, and BCAR1) common between them. There was also a significant overlap of genes nominally associated (Pgene-based < 0.05) with both migraine and T2D (Pbinomial-test = 2.83 × 10−46) and headache and T2D (Pbinomial-test = 4.08 × 10−29). Mendelian randomisation (MR) analyses did not provide consistent evidence for a causal relationship between migraine and T2D. However, we found headache was causally associated (inverse-variance weighted, ORIVW = 0.90, Pivw = 7 × 10−3) with T2D. Our findings robustly confirm the comorbidity of migraine and headache with T2D, with shared genetically controlled biological mechanisms contributing to their co-occurrence, and evidence for a causal relationship between headache and T2D. [ABSTRACT FROM AUTHOR]

Published

2022

45. Novel Loci Associated With Attention-Deficit/Hyperactivity Disorder Are Revealed by Leveraging Polygenic Overlap With Educational Attainment.

Author

Shadrin, Alexey A, Smeland, Olav B, Zayats, Tetyana, Schork, Andrew J, Frei, Oleksandr, Bettella, Francesco, Witoelar, Aree, Li, Wen, Eriksen, Jon A, Krull, Florian, Djurovic, Srdjan, Faraone, Stephen V, Reichborn-Kjennerud, Ted, Thompson, Wesley K, Johansson, Stefan, Haavik, Jan, Dale, Anders M, Wang, Yunpeng, and Andreassen, Ole A

Subjects

Humans, Genetic Predisposition to Disease, Attention Deficit Disorder with Hyperactivity, Multifactorial Inheritance, Phenotype, Polymorphism, Single Nucleotide, Child, Educational Status, Female, Male, Genome-Wide Association Study, Jumonji Domain-Containing Histone Demethylases, attention-deficit/hyperactivity disorder, conditional/conjunctional false discovery rate, educational attainment, genetic overlap, Genetics, Brain Disorders, Pediatric, Attention Deficit Hyperactivity Disorder (ADHD), Mental Health, Human Genome, Biotechnology, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental & Child Psychology

Abstract

OBJECTIVE:Attention-deficit/hyperactivity disorder (ADHD) is a common and highly heritable psychiatric condition. By exploiting the reported relationship between ADHD and educational attainment (EA), we aimed to improve discovery of ADHD-associated genetic variants and to investigate genetic overlap between these phenotypes. METHOD:A conditional/conjunctional false discovery rate (condFDR/conjFDR) method was applied to genome-wide association study (GWAS) data on ADHD (2,064 trios, 896 cases, and 2,455 controls) and EA (n=328,917) to identify ADHD-associated loci and loci overlapping between ADHD and EA. Identified single nucleotide polymorphisms (SNPs) were tested for association in an independent population-based study of ADHD symptoms (n=17,666). Genetic correlation between ADHD and EA was estimated using LD score regression and Pearson correlation. RESULTS:At levels of condFDR10-fold mutual enrichment of SNPs associated with both traits. CONCLUSION:We identified 5 novel loci associated with ADHD and provided evidence for a shared genetic basis between ADHD and EA. These findings could aid understanding of the genetic risk architecture of ADHD and its relation to EA.

Published

2018

46. Genetic Overlap Between Attention-Deficit/Hyperactivity Disorder and Bipolar Disorder: Evidence From Genome-wide Association Study Meta-analysis.

Author

van Hulzen, Kimm JE, Scholz, Claus J, Franke, Barbara, Ripke, Stephan, Klein, Marieke, McQuillin, Andrew, Sonuga-Barke, Edmund J, PGC ADHD Working Group, Kelsoe, John R, Landén, Mikael, Andreassen, Ole A, PGC Bipolar Disorder Working Group, Lesch, Klaus-Peter, Weber, Heike, Faraone, Stephen V, Arias-Vasquez, Alejandro, and Reif, Andreas

Subjects

PGC ADHD Working Group, PGC Bipolar Disorder Working Group, Humans, Attention Deficit Disorder with Hyperactivity, Bipolar Disorder, Comorbidity, Genome-Wide Association Study, Attention-deficit/hyperactivity disorder, GWAS, bipolar disorder, cross-disorder meta-analysis, genetic correlation, genetic overlap, Human Genome, Pediatric, Genetics, Attention Deficit Hyperactivity Disorder (ADHD), Mental Health, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Good Health and Well Being, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

BackgroundAttention-deficit/hyperactivity disorder (ADHD) and bipolar disorder (BPD) are frequently co-occurring and highly heritable mental health conditions. We hypothesized that BPD cases with an early age of onset (≤21 years old) would be particularly likely to show genetic covariation with ADHD.MethodsGenome-wide association study data were available for 4609 individuals with ADHD, 9650 individuals with BPD (5167 thereof with early-onset BPD), and 21,363 typically developing controls. We conducted a cross-disorder genome-wide association study meta-analysis to identify whether the observed comorbidity between ADHD and BPD could be due to shared genetic risks.ResultsWe found a significant single nucleotide polymorphism-based genetic correlation between ADHD and BPD in the full and age-restricted samples (rGfull = .64, p = 3.13 × 10-14; rGrestricted = .71, p = 4.09 × 10-16). The meta-analysis between the full BPD sample identified two genome-wide significant (prs7089973 = 2.47 × 10-8; prs11756438 = 4.36 × 10-8) regions located on chromosomes 6 (CEP85L) and 10 (TAF9BP2). Restricting the analyses to BPD cases with an early onset yielded one genome-wide significant association (prs58502974 = 2.11 × 10-8) on chromosome 5 in the ADCY2 gene. Additional nominally significant regions identified contained known expression quantitative trait loci with putative functional consequences for NT5DC1, NT5DC2, and CACNB3 expression, whereas functional predictions implicated ABLIM1 as an allele-specific expressed gene in neuronal tissue.ConclusionsThe single nucleotide polymorphism-based genetic correlation between ADHD and BPD is substantial, significant, and consistent with the existence of genetic overlap between ADHD and BPD, with potential differential genetic mechanisms involved in early and later BPD onset.

Published

2017

47. Shared genetic etiology of vessel diseases: A genome-wide multi-traits association analysis.

Author

Song, Jiangwei, Gao, Ning, Chen, Zhe, Xu, Guocong, Kong, Minjian, Wei, Dongdong, Sun, Qi, and Dong, Aiqiang

Subjects

*PERIPHERAL vascular diseases, *VARICOSE veins, *THORACIC aneurysms, *ARTERIAL diseases, *ETIOLOGY of diseases, *COAGULATION

Abstract

The comorbidity among vascular diseases has been widely reported, however, the contribution of shared genetic components remains ambiguous. Based on genome-wide association study summary statistics, we employed statistical genetics methodologies to explore the shared genetic basis of eight vascular diseases: coronary artery disease, abdominal aortic aneurysm, ischemic stroke, peripheral artery disease, thoracic aortic aneurysm, phlebitis, varicose veins, and venous thromboembolism. We assessed global and local genetic correlations among these disorders by linkage disequilibrium score regression, high-definition likelihood, and local analysis of variant association. Cross-trait analyses conducted with CPASSOC identified pleiotropic variants and loci. Further, biological pathways at the multi-omics level were explored using multimarker analysis of genomic annotation, transcriptome-wide and proteome-wide association studies. Causal associations among the vascular diseases were evaluated by mendelian randomization and latent causal variable to assess vertical pleiotropic effects. We found significant global genetic associations in 18 pairs of vascular diseases. Additionally, we discovered 317 unique genomic regions where at least one pair of traits demonstrated significant correlation. Multi-trait association analysis identified 19,361 significant potential pleiotropic variants in 274 independent pleiotropic loci. Multi-trait colocalization analysis revealed 56 colocalized loci in specific disease sets. Gene-based analysis identified 700 potential pleiotropic genes, which were subsequently validated at both transcriptome and protein levels. Gene-set enrichment analysis supports the role of biological pathways such as vessel wall structure, coagulation and lipid transport in vascular disease. Additionally, 7 pairs of vascular diseases have a causal relationship. Our study indicates a shared genetic basis and the presence of common risk genes among vascular diseases. These findings offer novel insights into potential mechanisms underlying the association between vascular diseases, as well as provide guidance for interventions and treatments of multi-vascular conditions. • The first comprehensive exploration of the shared genetic etiology of vascular-related diseases. • Multiple mechanisms such as thrombosis and vascular biological behavior are shared across multiple vascular diseases through statistical genetics approaches revealed at the multi-omics level. [ABSTRACT FROM AUTHOR]

Published

2024

48. Boosting Schizophrenia Genetics by Utilizing Genetic Overlap With Brain Morphology.

Author

van der Meer, Dennis, Shadrin, Alexey A., O'Connell, Kevin, Bettella, Francesco, Djurovic, Srdjan, Wolfers, Thomas, Alnæs, Dag, Agartz, Ingrid, Smeland, Olav B., Melle, Ingrid, Sánchez, Jennifer Monereo, Linden, David E.J., Dale, Anders M., Westlye, Lars T., Andreassen, Ole A., Frei, Oleksandr, and Kaufmann, Tobias

Subjects

*FALSE discovery rate, *GENOME-wide association studies, *GENETIC correlations, *MONOGENIC & polygenic inheritance (Genetics), *MORPHOLOGY

Abstract

Schizophrenia is a complex polygenic disorder with subtle, distributed abnormalities in brain morphology. There are indications of shared genetic architecture between schizophrenia and brain measures despite low genetic correlations. Through the use of analytical methods that allow for mixed directions of effects, this overlap may be leveraged to improve our understanding of underlying mechanisms of schizophrenia and enrich polygenic risk prediction outcome. We ran a multivariate genome-wide analysis of 175 brain morphology measures using data from 33,735 participants of the UK Biobank and analyzed the results in a conditional false discovery rate together with schizophrenia genome-wide association study summary statistics of the Psychiatric Genomics Consortium (PGC) Wave 3. We subsequently created a pleiotropy-enriched polygenic score based on the loci identified through the conditional false discovery rate approach and used this to predict schizophrenia in a nonoverlapping sample of 743 individuals with schizophrenia and 1074 healthy controls. We found that 20% of the loci and 50% of the genes significantly associated with schizophrenia were also associated with brain morphology. The conditional false discovery rate analysis identified 428 loci, including 267 novel loci, significantly associated with brain-linked schizophrenia risk, with functional annotation indicating high relevance for brain tissue. The pleiotropy-enriched polygenic score explained more variance in liability than conventional polygenic scores across several scenarios. Our results indicate strong genetic overlap between schizophrenia and brain morphology with mixed directions of effect. The results also illustrate the potential of exploiting polygenetic overlap between brain morphology and mental disorders to boost discovery of brain tissue–specific genetic variants and its use in polygenic risk frameworks. [ABSTRACT FROM AUTHOR]

Published

2022

49. Combined pituitary hormone deficiency in a patient with an FGFR1 missense variant: case report and literature review.

Author

Shinichiro Sano, Yohei Masunaga, Fumiko Kato, Yasuko Fujisawa, Hirotomo Saitsu, and Tsutomu Ogata

Subjects

*HORMONE deficiencies, *MISSENSE mutation, *FIBROBLAST growth factor receptors, *PITUITARY hormones, *GENETIC variation, *JAPANESE people

Abstract

Recent studies have indicated that heterozygous loss-of-function variants in fibroblast growth factor receptor 1 (FGFR1) are involved in the development of congenital hypogonadotropic hypogonadism and combined pituitary hormone deficiency (CPHD). We encountered a Japanese boy with short stature and pubertal failure. Endocrine studies showed GH, TSH, and LH/FSH deficiencies, and brain magnetic resonance imaging delineated hypoplastic anterior pituitary and ectopic posterior pituitary. The patient was treated with GH, l-thyroxine, and hCG/rFSH. Next-generation sequencing panel for pituitary dysfunction identified a probably weak disease-associated heterozygous missense variant in FGFR1 (NM_023110.3:c.176A>T:p.(Asp59Val)), together with a probably nondeleterious heterozygous missense variant in KISS1R (NM_032551.5:c.769G>C:p.(Val257Leu)). We also review six previously reported CHPD patients with probably deleterious FGFR1 variants. The data, in conjunction with the previously reported cases, argue for the relevance of FGFR1 variants to the development of CPHD. [ABSTRACT FROM AUTHOR]

Published

2022

50. Shared familial risk for type 2 diabetes mellitus and psychiatric disorders:A nationwide multigenerational genetics study

Author

Wimberley, Theresa, Brikell, Isabell, Astrup, Aske, Larsen, Janne T., Petersen, Liselotte V., Albiñana, Clara, Vilhjálmsson, Bjarni J., Bulik, Cynthia M., Chang, Zheng, Fanelli, Giuseppe, Bralten, Janita, Mota, Nina R., Salas-Salvadó, Jordi, Fernandez-Aranda, Fernando, Bulló, Monica, Franke, Barbara, Børglum, Anders, Mortensen, Preben B., Horsdal, Henriette T., Dalsgaard, Søren, Wimberley, Theresa, Brikell, Isabell, Astrup, Aske, Larsen, Janne T., Petersen, Liselotte V., Albiñana, Clara, Vilhjálmsson, Bjarni J., Bulik, Cynthia M., Chang, Zheng, Fanelli, Giuseppe, Bralten, Janita, Mota, Nina R., Salas-Salvadó, Jordi, Fernandez-Aranda, Fernando, Bulló, Monica, Franke, Barbara, Børglum, Anders, Mortensen, Preben B., Horsdal, Henriette T., and Dalsgaard, Søren

Abstract

Background Psychiatric disorders and type 2 diabetes mellitus (T2DM) are heritable, polygenic, and often comorbid conditions, yet knowledge about their potential shared familial risk is lacking. We used family designs and T2DM polygenic risk score (T2DM-PRS) to investigate the genetic associations between psychiatric disorders and T2DM. Methods We linked 659 906 individuals born in Denmark 1990–2000 to their parents, grandparents, and aunts/uncles using population-based registers. We compared rates of T2DM in relatives of children with and without a diagnosis of any or one of 11 specific psychiatric disorders, including neuropsychiatric and neurodevelopmental disorders, using Cox regression. In a genotyped sample (iPSYCH2015) of individuals born 1981–2008 (n = 134 403), we used logistic regression to estimate associations between a T2DM-PRS and these psychiatric disorders. Results Among 5 235 300 relative pairs, relatives of individuals with a psychiatric disorder had an increased risk for T2DM with stronger associations for closer relatives (parents:hazard ratio = 1.38, 95% confidence interval 1.35–1.42; grandparents: 1.14, 1.13–1.15; and aunts/uncles: 1.19, 1.16–1.22). In the genetic sample, one standard deviation increase in T2DM-PRS was associated with an increased risk for any psychiatric disorder (odds ratio = 1.11, 1.08–1.14). Both familial T2DM and T2DM-PRS were significantly associated with seven of 11 psychiatric disorders, most strongly with attention-deficit/hyperactivity disorder and conduct disorder, and inversely with anorexia nervosa. Conclusions Our findings of familial co-aggregation and higher T2DM polygenic liability associated with psychiatric disorders point toward shared familial risk. This suggests that part of the comorbidity is explained by shared familial risks. The underlying mechanisms still remain largely unknown and the contributions of genetics and environment need further investigation., Background Psychiatric disorders and type 2 diabetes mellitus (T2DM) are heritable, polygenic, and often comorbid conditions, yet knowledge about their potential shared familial risk is lacking. We used family designs and T2DM polygenic risk score (T2DM-PRS) to investigate the genetic associations between psychiatric disorders and T2DM. Methods We linked 659 906 individuals born in Denmark 1990-2000 to their parents, grandparents, and aunts/uncles using population-based registers. We compared rates of T2DM in relatives of children with and without a diagnosis of any or one of 11 specific psychiatric disorders, including neuropsychiatric and neurodevelopmental disorders, using Cox regression. In a genotyped sample (iPSYCH2015) of individuals born 1981-2008 (n = 134 403), we used logistic regression to estimate associations between a T2DM-PRS and these psychiatric disorders. Results Among 5 235 300 relative pairs, relatives of individuals with a psychiatric disorder had an increased risk for T2DM with stronger associations for closer relatives (parents:hazard ratio = 1.38, 95% confidence interval 1.35-1.42; grandparents: 1.14, 1.13-1.15; and aunts/uncles: 1.19, 1.16-1.22). In the genetic sample, one standard deviation increase in T2DM-PRS was associated with an increased risk for any psychiatric disorder (odds ratio = 1.11, 1.08-1.14). Both familial T2DM and T2DM-PRS were significantly associated with seven of 11 psychiatric disorders, most strongly with attention-deficit/hyperactivity disorder and conduct disorder, and inversely with anorexia nervosa. Conclusions Our findings of familial co-aggregation and higher T2DM polygenic liability associated with psychiatric disorders point toward shared familial risk. This suggests that part of the comorbidity is explained by shared familial risks. The underlying mechanisms still remain largely unknown and the contributions of genetics and environment need further investigation.

Published

2024