Jinjie Duan , Jakob Grove , Ditte Demontis , F. Kyle Satterstrom , Jack Fu , Caitlin Carey , Stephan Sanders , Bernie Devlin , Kathryn Roeder , Joseph Buxbaum , Elise Robinson , Michael Talkowski , Benjamin Neale , Mark Daly , Anders Børglum
{"title":"自闭症和 adhd 的跨障碍罕见变异分析","authors":"Jinjie Duan , Jakob Grove , Ditte Demontis , F. Kyle Satterstrom , Jack Fu , Caitlin Carey , Stephan Sanders , Bernie Devlin , Kathryn Roeder , Joseph Buxbaum , Elise Robinson , Michael Talkowski , Benjamin Neale , Mark Daly , Anders Børglum","doi":"10.1016/j.euroneuro.2024.08.047","DOIUrl":null,"url":null,"abstract":"<div><div>Autism spectrum disorder (ASD) and attention deficit hyperactivity disorder (ADHD) are heterogeneous neurodevelopmental disorders with high heritability and frequent co-occurrence. Our previous work on the first phase of iPSYCH exomes (Satterstrom et al., 2019) suggested a similar burden of rare protein-truncating variants (PTVs) across ASD and ADHD and identified MAP1A as a shared risk gene implicated by rare PTVs in both disorders. This study aims to 1) extend these findings, employing a significantly larger iPSYCH exome dataset for gene discovery, 2) estimate the burden heritability explained by rare coding variants in ASD and ADHD, and 3) assess the burden genetic correlation between the two disorders.</div><div>We analyzed exomes of 25,208 individuals from iPSYCH, encompassing 7,119 individuals diagnosed with ASD alone (ASD-only), 5,598 with ADHD alone (ADHD-only), 3,794 with both ASD and ADHD (ASD+ADHD), and 8,697 controls. We used multivariate Poisson regression models to systematically evaluate rare variant burdens in different gene sets across the three case groups and controls, stratified further by the presence or absence of intellectual disability (ID). The gene sets included all genes, genes intolerant to loss-of-function variants (pLI > 0.9), and gene sets associated with different disorders including ID, ASD, ADHD, schizophrenia, and a broader group of neurodevelopmental disorders. We applied c-alpha tests to assess whether the distribution of rare deleterious variants differs between ASD and ADHD. We employed burden heritability regression to estimate the burden heritability of ASD and ADHD, respectively, and the burden genetic correlation between the two disorders. For gene discovery, we combined individuals diagnosed with ASD and/or ADHD into a single case group and applied TADA+ to integrate with family data and Swedish PAGES case-control data from a recent large-scale ASD rare variant study (Fu et al., 2022).</div><div>We observed similar burdens of class I variants including rare PTVs and rare deleterious missense variants (MPC > 3) in constrained genes across the three case groups, while they all showed a significant excess compared to controls: OR = 1.35, 95% CI = [1.26, 1.45] for ASD-only; OR = 1.35, CI = [1.25, 1.45] for ADHD-only; and OR = 1.39, CI = [1.28, 1.52] for ASD+ADHD. The c-alpha tests indicated no significant differences in the distribution of class I variants in constrained genes between ASD-only and ADHD-only groups (P= 0.39) while, when comparing the case groups to controls, significant differences were observed. The burden heritability of class I variants on the liability scale was estimated to 1.87% (SE = 0.51%) for ASD and 2.42% (s.e. = 0.72%) for ADHD. The class I variant burden genetic correlation between ASD and ADHD was 0.31 (s.e. = 0.26), which approximates the point estimate of their common-variant genetic correlation of 0.42 (s.e. = 0.05) (Demontis et al., 2023).</div><div>Our findings suggest substantial sharing of rare variant risk between ASD and ADHD, reinforcing the results of our earlier work (Satterstrom et al., 2019). This motivated us to merge individuals diagnosed with ASD and/or ADHD into a single group to enhance the discovery of rare variant risk genes shared between the disorders. This gene discovery analysis is ongoing, and the results will be presented at the conference.</div></div>","PeriodicalId":12049,"journal":{"name":"European Neuropsychopharmacology","volume":"87 ","pages":"Page 17"},"PeriodicalIF":6.1000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"CROSS-DISORDER RARE VARIANT ANALYSIS OF AUTISM AND ADHD\",\"authors\":\"Jinjie Duan , Jakob Grove , Ditte Demontis , F. Kyle Satterstrom , Jack Fu , Caitlin Carey , Stephan Sanders , Bernie Devlin , Kathryn Roeder , Joseph Buxbaum , Elise Robinson , Michael Talkowski , Benjamin Neale , Mark Daly , Anders Børglum\",\"doi\":\"10.1016/j.euroneuro.2024.08.047\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>Autism spectrum disorder (ASD) and attention deficit hyperactivity disorder (ADHD) are heterogeneous neurodevelopmental disorders with high heritability and frequent co-occurrence. Our previous work on the first phase of iPSYCH exomes (Satterstrom et al., 2019) suggested a similar burden of rare protein-truncating variants (PTVs) across ASD and ADHD and identified MAP1A as a shared risk gene implicated by rare PTVs in both disorders. This study aims to 1) extend these findings, employing a significantly larger iPSYCH exome dataset for gene discovery, 2) estimate the burden heritability explained by rare coding variants in ASD and ADHD, and 3) assess the burden genetic correlation between the two disorders.</div><div>We analyzed exomes of 25,208 individuals from iPSYCH, encompassing 7,119 individuals diagnosed with ASD alone (ASD-only), 5,598 with ADHD alone (ADHD-only), 3,794 with both ASD and ADHD (ASD+ADHD), and 8,697 controls. We used multivariate Poisson regression models to systematically evaluate rare variant burdens in different gene sets across the three case groups and controls, stratified further by the presence or absence of intellectual disability (ID). The gene sets included all genes, genes intolerant to loss-of-function variants (pLI > 0.9), and gene sets associated with different disorders including ID, ASD, ADHD, schizophrenia, and a broader group of neurodevelopmental disorders. We applied c-alpha tests to assess whether the distribution of rare deleterious variants differs between ASD and ADHD. We employed burden heritability regression to estimate the burden heritability of ASD and ADHD, respectively, and the burden genetic correlation between the two disorders. For gene discovery, we combined individuals diagnosed with ASD and/or ADHD into a single case group and applied TADA+ to integrate with family data and Swedish PAGES case-control data from a recent large-scale ASD rare variant study (Fu et al., 2022).</div><div>We observed similar burdens of class I variants including rare PTVs and rare deleterious missense variants (MPC > 3) in constrained genes across the three case groups, while they all showed a significant excess compared to controls: OR = 1.35, 95% CI = [1.26, 1.45] for ASD-only; OR = 1.35, CI = [1.25, 1.45] for ADHD-only; and OR = 1.39, CI = [1.28, 1.52] for ASD+ADHD. The c-alpha tests indicated no significant differences in the distribution of class I variants in constrained genes between ASD-only and ADHD-only groups (P= 0.39) while, when comparing the case groups to controls, significant differences were observed. The burden heritability of class I variants on the liability scale was estimated to 1.87% (SE = 0.51%) for ASD and 2.42% (s.e. = 0.72%) for ADHD. The class I variant burden genetic correlation between ASD and ADHD was 0.31 (s.e. = 0.26), which approximates the point estimate of their common-variant genetic correlation of 0.42 (s.e. = 0.05) (Demontis et al., 2023).</div><div>Our findings suggest substantial sharing of rare variant risk between ASD and ADHD, reinforcing the results of our earlier work (Satterstrom et al., 2019). This motivated us to merge individuals diagnosed with ASD and/or ADHD into a single group to enhance the discovery of rare variant risk genes shared between the disorders. 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CROSS-DISORDER RARE VARIANT ANALYSIS OF AUTISM AND ADHD
Autism spectrum disorder (ASD) and attention deficit hyperactivity disorder (ADHD) are heterogeneous neurodevelopmental disorders with high heritability and frequent co-occurrence. Our previous work on the first phase of iPSYCH exomes (Satterstrom et al., 2019) suggested a similar burden of rare protein-truncating variants (PTVs) across ASD and ADHD and identified MAP1A as a shared risk gene implicated by rare PTVs in both disorders. This study aims to 1) extend these findings, employing a significantly larger iPSYCH exome dataset for gene discovery, 2) estimate the burden heritability explained by rare coding variants in ASD and ADHD, and 3) assess the burden genetic correlation between the two disorders.
We analyzed exomes of 25,208 individuals from iPSYCH, encompassing 7,119 individuals diagnosed with ASD alone (ASD-only), 5,598 with ADHD alone (ADHD-only), 3,794 with both ASD and ADHD (ASD+ADHD), and 8,697 controls. We used multivariate Poisson regression models to systematically evaluate rare variant burdens in different gene sets across the three case groups and controls, stratified further by the presence or absence of intellectual disability (ID). The gene sets included all genes, genes intolerant to loss-of-function variants (pLI > 0.9), and gene sets associated with different disorders including ID, ASD, ADHD, schizophrenia, and a broader group of neurodevelopmental disorders. We applied c-alpha tests to assess whether the distribution of rare deleterious variants differs between ASD and ADHD. We employed burden heritability regression to estimate the burden heritability of ASD and ADHD, respectively, and the burden genetic correlation between the two disorders. For gene discovery, we combined individuals diagnosed with ASD and/or ADHD into a single case group and applied TADA+ to integrate with family data and Swedish PAGES case-control data from a recent large-scale ASD rare variant study (Fu et al., 2022).
We observed similar burdens of class I variants including rare PTVs and rare deleterious missense variants (MPC > 3) in constrained genes across the three case groups, while they all showed a significant excess compared to controls: OR = 1.35, 95% CI = [1.26, 1.45] for ASD-only; OR = 1.35, CI = [1.25, 1.45] for ADHD-only; and OR = 1.39, CI = [1.28, 1.52] for ASD+ADHD. The c-alpha tests indicated no significant differences in the distribution of class I variants in constrained genes between ASD-only and ADHD-only groups (P= 0.39) while, when comparing the case groups to controls, significant differences were observed. The burden heritability of class I variants on the liability scale was estimated to 1.87% (SE = 0.51%) for ASD and 2.42% (s.e. = 0.72%) for ADHD. The class I variant burden genetic correlation between ASD and ADHD was 0.31 (s.e. = 0.26), which approximates the point estimate of their common-variant genetic correlation of 0.42 (s.e. = 0.05) (Demontis et al., 2023).
Our findings suggest substantial sharing of rare variant risk between ASD and ADHD, reinforcing the results of our earlier work (Satterstrom et al., 2019). This motivated us to merge individuals diagnosed with ASD and/or ADHD into a single group to enhance the discovery of rare variant risk genes shared between the disorders. This gene discovery analysis is ongoing, and the results will be presented at the conference.
期刊介绍:
European Neuropsychopharmacology is the official publication of the European College of Neuropsychopharmacology (ECNP). In accordance with the mission of the College, the journal focuses on clinical and basic science contributions that advance our understanding of brain function and human behaviour and enable translation into improved treatments and enhanced public health impact in psychiatry. Recent years have been characterized by exciting advances in basic knowledge and available experimental techniques in neuroscience and genomics. However, clinical translation of these findings has not been as rapid. The journal aims to narrow this gap by promoting findings that are expected to have a major impact on both our understanding of the biological bases of mental disorders and the development and improvement of treatments, ideally paving the way for prevention and recovery.