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2. Genes To Mental Health (G2MH): A Framework to Map the Combined Effects of Rare and Common Variants on Dimensions of Cognition and Psychopathology

Author

Jacquemont, Sébastien, Huguet, Guillaume, Klein, Marieke, Chawner, Samuel JRA, Donald, Kirsten A, van den Bree, Marianne BM, Sebat, Jonathan, Ledbetter, David H, Constantino, John N, Earl, Rachel K, McDonald-McGinn, Donna M, van Amelsvoort, Therese, Swillen, Ann, O’Donnell-Luria, Anne H, Glahn, David C, Almasy, Laura, Eichler, Evan E, Scherer, Stephen W, Robinson, Elise, Bassett, Anne S, Martin, Christa Lese, Finucane, Brenda, Vorstman, Jacob AS, Bearden, Carrie E, and Gur, Raquel E

Subjects
Clinical and Health Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Behavioral and Social Science, Biotechnology, Human Genome, Brain Disorders, Mental Health, Genetics, Basic Behavioral and Social Science, Mental health, Good Health and Well Being, Cognition, Humans, Mental Disorders, Psychiatry, Psychopathology, Genes to Mental Health Network, Autism Spectrum Disorder, Diagnosis and Classification, Genetics/Genomics, Intellectual Disabilities, Neurodevelopmental Disorders, Schizophrenia Spectrum and Other Psychotic Disorders, Medical and Health Sciences, Psychology and Cognitive Sciences, Clinical sciences, Clinical and health psychology
Abstract

Rare genomic disorders (RGDs) confer elevated risk for neurodevelopmental psychiatric disorders. In this era of intense genomics discoveries, the landscape of RGDs is rapidly evolving. However, there has not been comparable progress to date in scalable, harmonized phenotyping methods. As a result, beyond associations with categorical diagnoses, the effects on dimensional traits remain unclear for many RGDs. The nature and specificity of RGD effects on cognitive and behavioral traits is an area of intense investigation: RGDs are frequently associated with more than one psychiatric condition, and those studied to date affect, to varying degrees, a broad range of developmental and cognitive functions. Although many RGDs have large effects, phenotypic expression is typically influenced by additional genomic and environmental factors. There is emerging evidence that using polygenic risk scores in individuals with RGDs offers opportunities to refine prediction, thus allowing for the identification of those at greatest risk of psychiatric illness. However, translation into the clinic is hindered by roadblocks, which include limited genetic testing in clinical psychiatry, and the lack of guidelines for following individuals with RGDs, who are at high risk of developing psychiatric symptoms. The Genes to Mental Health Network (G2MH) is a newly funded National Institute of Mental Health initiative that will collect, share, and analyze large-scale data sets combining genomics and dimensional measures of psychopathology spanning diverse populations and geography. The authors present here the most recent understanding of the effects of RGDs on dimensional behavioral traits and risk for psychiatric conditions and discuss strategies that will be pursued within the G2MH network, as well as how expected results can be translated into clinical practice to improve patient outcomes.

Published
2022

4. Rare deleterious mutations of HNRNP genes result in shared neurodevelopmental disorders.

Author

Gillentine, Madelyn A, Wang, Tianyun, Hoekzema, Kendra, Rosenfeld, Jill, Liu, Pengfei, Guo, Hui, Kim, Chang N, De Vries, Bert BA, Vissers, Lisenka ELM, Nordenskjold, Magnus, Kvarnung, Malin, Lindstrand, Anna, Nordgren, Ann, Gecz, Jozef, Iascone, Maria, Cereda, Anna, Scatigno, Agnese, Maitz, Silvia, Zanni, Ginevra, Bertini, Enrico, Zweier, Christiane, Schuhmann, Sarah, Wiesener, Antje, Pepper, Micah, Panjwani, Heena, Torti, Erin, Abid, Farida, Anselm, Irina, Srivastava, Siddharth, Atwal, Paldeep, Bacino, Carlos A, Bhat, Gifty, Cobian, Katherine, Bird, Lynne M, Friedman, Jennifer, Wright, Meredith S, Callewaert, Bert, Petit, Florence, Mathieu, Sophie, Afenjar, Alexandra, Christensen, Celenie K, White, Kerry M, Elpeleg, Orly, Berger, Itai, Espineli, Edward J, Fagerberg, Christina, Brasch-Andersen, Charlotte, Hansen, Lars Kjærsgaard, Feyma, Timothy, Hughes, Susan, Thiffault, Isabelle, Sullivan, Bonnie, Yan, Shuang, Keller, Kory, Keren, Boris, Mignot, Cyril, Kooy, Frank, Meuwissen, Marije, Basinger, Alice, Kukolich, Mary, Philips, Meredith, Ortega, Lucia, Drummond-Borg, Margaret, Lauridsen, Mathilde, Sorensen, Kristina, Lehman, Anna, CAUSES Study, Lopez-Rangel, Elena, Levy, Paul, Lessel, Davor, Lotze, Timothy, Madan-Khetarpal, Suneeta, Sebastian, Jessica, Vento, Jodie, Vats, Divya, Benman, L Manace, Mckee, Shane, Mirzaa, Ghayda M, Muss, Candace, Pappas, John, Peeters, Hilde, Romano, Corrado, Elia, Maurizio, Galesi, Ornella, Simon, Marleen EH, van Gassen, Koen LI, Simpson, Kara, Stratton, Robert, Syed, Sabeen, Thevenon, Julien, Palafoll, Irene Valenzuela, Vitobello, Antonio, Bournez, Marie, Faivre, Laurence, Xia, Kun, SPARK Consortium, Earl, Rachel K, Nowakowski, Tomasz, Bernier, Raphael A, and Eichler, Evan E

Subjects
CAUSES Study, SPARK Consortium, Cortex development, Gene families, Neurodevelopmental disorders, hnRNPs, Genetics, Clinical Sciences
Abstract

BackgroundWith the increasing number of genomic sequencing studies, hundreds of genes have been implicated in neurodevelopmental disorders (NDDs). The rate of gene discovery far outpaces our understanding of genotype-phenotype correlations, with clinical characterization remaining a bottleneck for understanding NDDs. Most disease-associated Mendelian genes are members of gene families, and we hypothesize that those with related molecular function share clinical presentations.MethodsWe tested our hypothesis by considering gene families that have multiple members with an enrichment of de novo variants among NDDs, as determined by previous meta-analyses. One of these gene families is the heterogeneous nuclear ribonucleoproteins (hnRNPs), which has 33 members, five of which have been recently identified as NDD genes (HNRNPK, HNRNPU, HNRNPH1, HNRNPH2, and HNRNPR) and two of which have significant enrichment in our previous meta-analysis of probands with NDDs (HNRNPU and SYNCRIP). Utilizing protein homology, mutation analyses, gene expression analyses, and phenotypic characterization, we provide evidence for variation in 12 HNRNP genes as candidates for NDDs. Seven are potentially novel while the remaining genes in the family likely do not significantly contribute to NDD risk.ResultsWe report 119 new NDD cases (64 de novo variants) through sequencing and international collaborations and combined with published clinical case reports. We consider 235 cases with gene-disruptive single-nucleotide variants or indels and 15 cases with small copy number variants. Three hnRNP-encoding genes reach nominal or exome-wide significance for de novo variant enrichment, while nine are candidates for pathogenic mutations. Comparison of HNRNP gene expression shows a pattern consistent with a role in cerebral cortical development with enriched expression among radial glial progenitors. Clinical assessment of probands (n = 188-221) expands the phenotypes associated with HNRNP rare variants, and phenotypes associated with variation in the HNRNP genes distinguishes them as a subgroup of NDDs.ConclusionsOverall, our novel approach of exploiting gene families in NDDs identifies new HNRNP-related disorders, expands the phenotypes of known HNRNP-related disorders, strongly implicates disruption of the hnRNPs as a whole in NDDs, and supports that NDD subtypes likely have shared molecular pathogenesis. To date, this is the first study to identify novel genetic disorders based on the presence of disorders in related genes. We also perform the first phenotypic analyses focusing on related genes. Finally, we show that radial glial expression of these genes is likely critical during neurodevelopment. This is important for diagnostics, as well as developing strategies to best study these genes for the development of therapeutics.

Published
2021

5. Brief Report: Associations between Self-Injurious Behaviors and Abdominal Pain among Individuals with ASD-Associated Disruptive Mutations

Author

Kurtz-Nelson, Evangeline C., Tham, See Wan, Ahlers, Kaitlyn, Cho, Daniel, Wallace, Arianne S., Eichler, Evan E., Bernier, Raphael A., and Earl, Rachel K.

Abstract

Self-injurious behaviors (SIB) are elevated in autism spectrum disorder (ASD) and related genetic disorders, but the genetic and biological mechanisms that contribute to SIB in ASD are poorly understood. This study examined rates and predictors of SIB in 112 individuals with disruptive mutations to ASD-risk genes. Current SIB were reported in 30% of participants and associated with poorer cognitive and adaptive skills. History of severe abdominal pain predicted higher rates of SIB and SIB severity after controlling for age and adaptive behavior; individuals with a history of severe abdominal pain were eight times more likely to exhibit SIB than those with no history. Future research is needed to examine associations between genetic risk, pain, and SIB in this population.

Published
2021
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6. Author Correction: Large-scale targeted sequencing identifies risk genes for neurodevelopmental disorders

Author

Wang, Tianyun, Hoekzema, Kendra, Vecchio, Davide, Wu, Huidan, Sulovari, Arvis, Coe, Bradley P, Gillentine, Madelyn A, Wilfert, Amy B, Perez-Jurado, Luis A, Kvarnung, Malin, Sleyp, Yoeri, Earl, Rachel K, Rosenfeld, Jill A, Geisheker, Madeleine R, Han, Lin, Du, Bing, Barnett, Chris, Thompson, Elizabeth, Shaw, Marie, Carroll, Renee, Friend, Kathryn, Catford, Rachael, Palmer, Elizabeth E, Zou, Xiaobing, Ou, Jianjun, Li, Honghui, Guo, Hui, Gerdts, Jennifer, Avola, Emanuela, Calabrese, Giuseppe, Elia, Maurizio, Greco, Donatella, Lindstrand, Anna, Nordgren, Ann, Anderlid, Britt-Marie, Vandeweyer, Geert, Van Dijck, Anke, Van der Aa, Nathalie, McKenna, Brooke, Hancarova, Miroslava, Bendova, Sarka, Havlovicova, Marketa, Malerba, Giovanni, Bernardina, Bernardo Dalla, Muglia, Pierandrea, van Haeringen, Arie, Hoffer, Mariette JV, Franke, Barbara, Cappuccio, Gerarda, Delatycki, Martin, Lockhart, Paul J, Manning, Melanie A, Liu, Pengfei, Scheffer, Ingrid E, Brunetti-Pierri, Nicola, Rommelse, Nanda, Amaral, David G, Santen, Gijs WE, Trabetti, Elisabetta, Sedláček, Zdeněk, Michaelson, Jacob J, Pierce, Karen, Courchesne, Eric, Kooy, R Frank, Nordenskjöld, Magnus, Romano, Corrado, Peeters, Hilde, Bernier, Raphael A, Gecz, Jozef, Xia, Kun, and Eichler, Evan E

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Commerce, Management, Tourism and Services, SPARK Consortium
Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2020

7. Large-scale targeted sequencing identifies risk genes for neurodevelopmental disorders

Author

Wang, Tianyun, Hoekzema, Kendra, Vecchio, Davide, Wu, Huidan, Sulovari, Arvis, Coe, Bradley P, Gillentine, Madelyn A, Wilfert, Amy B, Perez-Jurado, Luis A, Kvarnung, Malin, Sleyp, Yoeri, Earl, Rachel K, Rosenfeld, Jill A, Geisheker, Madeleine R, Han, Lin, Du, Bing, Barnett, Chris, Thompson, Elizabeth, Shaw, Marie, Carroll, Renee, Friend, Kathryn, Catford, Rachael, Palmer, Elizabeth E, Zou, Xiaobing, Ou, Jianjun, Li, Honghui, Guo, Hui, Gerdts, Jennifer, Avola, Emanuela, Calabrese, Giuseppe, Elia, Maurizio, Greco, Donatella, Lindstrand, Anna, Nordgren, Ann, Anderlid, Britt-Marie, Vandeweyer, Geert, Van Dijck, Anke, Van der Aa, Nathalie, McKenna, Brooke, Hancarova, Miroslava, Bendova, Sarka, Havlovicova, Marketa, Malerba, Giovanni, Bernardina, Bernardo Dalla, Muglia, Pierandrea, van Haeringen, Arie, Hoffer, Mariette JV, Franke, Barbara, Cappuccio, Gerarda, Delatycki, Martin, Lockhart, Paul J, Manning, Melanie A, Liu, Pengfei, Scheffer, Ingrid E, Brunetti-Pierri, Nicola, Rommelse, Nanda, Amaral, David G, Santen, Gijs WE, Trabetti, Elisabetta, Sedláček, Zdeněk, Michaelson, Jacob J, Pierce, Karen, Courchesne, Eric, Kooy, R Frank, Nordenskjöld, Magnus, Romano, Corrado, Peeters, Hilde, Bernier, Raphael A, Gecz, Jozef, Xia, Kun, and Eichler, Evan E

Subjects
Genetics, Prevention, 2.1 Biological and endogenous factors, Aetiology, Basic Helix-Loop-Helix Transcription Factors, CCCTC-Binding Factor, Case-Control Studies, Cohort Studies, DNA Mutational Analysis, DNA-Binding Proteins, Female, Genetic Association Studies, Genetic Predisposition to Disease, Heterogeneous-Nuclear Ribonucleoprotein U, High-Throughput Nucleotide Sequencing, Humans, KCNQ3 Potassium Channel, Male, Mutation, Neurodevelopmental Disorders, RNA-Binding Proteins, Repressor Proteins, Transcription Factors, SPARK Consortium
Abstract

Most genes associated with neurodevelopmental disorders (NDDs) were identified with an excess of de novo mutations (DNMs) but the significance in case-control mutation burden analysis is unestablished. Here, we sequence 63 genes in 16,294 NDD cases and an additional 62 genes in 6,211 NDD cases. By combining these with published data, we assess a total of 125 genes in over 16,000 NDD cases and compare the mutation burden to nonpsychiatric controls from ExAC. We identify 48 genes (25 newly reported) showing significant burden of ultra-rare (MAF

Published
2020

8. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

van der Sluijs, Pleuntje J., Joosten, Marieke, Alby, Caroline, Attié-Bitach, Tania, Gilmore, Kelly, Dubourg, Christele, Fradin, Mélanie, Wang, Tianyun, Kurtz-Nelson, Evangeline C., Ahlers, Kaitlyn P., Arts, Peer, Barnett, Christopher P., Ashfaq, Myla, Baban, Anwar, van den Born, Myrthe, Borrie, Sarah, Busa, Tiffany, Byrne, Alicia, Carriero, Miriam, Cesario, Claudia, Chong, Karen, Cueto-González, Anna Maria, Dempsey, Jennifer C., Diderich, Karin E.M., Doherty, Dan, Farholt, Stense, Gerkes, Erica H., Gorokhova, Svetlana, Govaerts, Lutgarde C.P., Gregersen, Pernille A., Hickey, Scott E., Lefebvre, Mathilde, Mari, Francesca, Martinovic, Jelena, Northrup, Hope, O’Leary, Melanie, Parbhoo, Kareesma, Patrier, Sophie, Popp, Bernt, Santos-Simarro, Fernando, Stoltenburg, Corinna, Thauvin-Robinet, Christel, Thompson, Elisabeth, Vulto-van Silfhout, Anneke T., Zahir, Farah R., Scott, Hamish S., Earl, Rachel K., Eichler, Evan E., Vora, Neeta L., Wilnai, Yael, Giordano, Jessica L., Wapner, Ronald J., Rosenfeld, Jill A., Haak, Monique C., and Santen, Gijs W.E.

Published
2022
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9. GIGYF1 disruption associates with autism and impaired IGF-1R signaling

Author

Chen, Guodong, Yu, Bin, Tan, Senwei, Tan, Jieqiong, Jia, Xiangbin, Zhang, Qiumeng, Zhang, Xiaolei, Jiang, Qian, Hua, Yue, Han, Yaoling, Luo, Shengjie, Hoekzema, Kendra, Bernier, Raphael A., Earl, Rachel K., Kurtz-Nelson, Evangeline C., Idleburg, Michaela J., Madan-Khetarpal, Suneeta, Clark, Rebecca, Sebastian, Jessica, Fernandez-Jaen, Alberto, Alvarez, Sara, King, Staci D., Ramos, Luiza L.P., Santos, Mara Lucia S.F., Martin, Donna M., Brooks, Dan, Symonds, Joseph D., Cutcutache, Ioana, Pan, Qian, Hu, Zhengmao, Yuan, Ling, Eichler, Evan E., Xia, Kun, and Guo, Hui

Subjects
Gene mutations -- Health aspects, Pervasive developmental disorders -- Diagnosis -- Care and treatment -- Genetic aspects, Insulin-like growth factor 1 -- Analysis, Neurophysiology -- Methods, Health care industry
Abstract

Autism spectrum disorder (ASD) represents a group of neurodevelopmental phenotypes with a strong genetic component. An excess of likely gene-disruptive (LGD) mutations in GIGYF1 was implicated in ASD. Here, we report that GIGYF1 is the second-most mutated gene among known ASD high-confidence risk genes. We investigated the inheritance of 46 GIGYF1 LGD variants, including the highly recurrent mutation c.333del:p.L111Rfs*234. Inherited GIGYF1 heterozygous LGD variants were 1.8 times more common than de novo mutations. Among individuals with ASD, cognitive impairments were less likely in those with GIGYF1 LGD variants relative to those with other high-confidence gene mutations. Using a Gigyf1 conditional KO mouse model, we showed that haploinsufficiency in the developing brain led to social impairments without significant cognitive impairments. In contrast, homozygous mice showed more severe social disability as well as cognitive impairments. Gigyf1 deficiency in mice led to a reduction in the number of upper-layer cortical neurons, accompanied by a decrease in proliferation and increase in differentiation of neural progenitor cells. We showed that GIGYF1 regulated the recycling of IGF-1R to the cell surface. KO of GIGYF1 led to a decreased level of IGF-1R on the cell surface, disrupting the IGF-1R/ERK signaling pathway. In summary, our findings show that GIGYF1 is a regulator of IGF-1R recycling. Haploinsufficiency of GIGYF1 was associated with autistic behavior, likely through interference with IGF-1R/ERK signaling pathway., Introduction Autism spectrum disorder (ASD) is a highly heritable neurodevelopmental condition characterized by impaired social communication and repetitive behaviors (1). Previous studies have identified over 200 high-confidence ASD risk genes--most [...]

Published
2022
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11. Pubertal maturation and timing effects on resting state electroencephalography in autistic and comparison youth.

Author

Rea, Hannah M., Clawson, Ann, Hudac, Caitlin M., Santhosh, Megha, Bernier, Raphael A., Earl, Rachel K., Pelphrey, Kevin A., Webb, Sara Jane, and Neuhaus, Emily

Abstract

Autistic and comparison individuals differ in resting‐state electroencephalography (EEG), such that sex and age explain variability within and between groups. Pubertal maturation and timing may further explain variation, as previous work has suggested alterations in pubertal timing in autistic youth. In a sample from two studies of 181 autistic and 94 comparison youth (8 years to 17 years and 11 months), mixed‐effects linear regressions were conducted to assess differences in EEG (midline power for theta, alpha, and beta frequency bands). Alpha power was analyzed as a mediator in the relation between pubertal maturation and timing with autistic traits in the autistic groups to understand the role of puberty in brain‐based changes that contribute to functional outcomes. Individuals advanced in puberty exhibited decreased power in all bands. Those who experienced puberty relatively early showed decreased power in theta and beta bands, controlling for age, sex, and diagnosis. Autistic individuals further along in pubertal development exhibited lower social skills. Alpha mediated the relation between puberty and repetitive behaviors. Pubertal maturation and timing appear to play unique roles in the development of cognitive processes for autistic and comparison youth and should be considered in research on developmental variation in resting‐state EEG. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Characterizing Sensory Phenotypes of Subgroups with a Known Genetic Etiology Pertaining to Diagnoses of Autism Spectrum Disorder and Intellectual Disability

Author

Hudac, Caitlin M., primary, Friedman, Nicole R., additional, Ward, Victoria R., additional, Estreicher, Rachel E., additional, Dorsey, Grace C., additional, Bernier, Raphael A., additional, Kurtz-Nelson, Evangeline C., additional, Earl, Rachel K., additional, Eichler, Evan E., additional, and Neuhaus, Emily, additional

Published
2023
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13. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

van der Sluijs, Pleuntje J., primary, Joosten, Marieke, additional, Alby, Caroline, additional, Attié-Bitach, Tania, additional, Gilmore, Kelly, additional, Dubourg, Christele, additional, Fradin, Mélanie, additional, Wang, Tianyun, additional, Kurtz-Nelson, Evangeline C., additional, Ahlers, Kaitlyn P., additional, Arts, Peer, additional, Barnett, Christopher P., additional, Ashfaq, Myla, additional, Baban, Anwar, additional, van den Born, Myrthe, additional, Borrie, Sarah, additional, Busa, Tiffany, additional, Byrne, Alicia, additional, Carriero, Miriam, additional, Cesario, Claudia, additional, Chong, Karen, additional, Cueto-González, Anna Maria, additional, Dempsey, Jennifer C., additional, Diderich, Karin E.M., additional, Doherty, Dan, additional, Farholt, Stense, additional, Gerkes, Erica H., additional, Gorokhova, Svetlana, additional, Govaerts, Lutgarde C.P., additional, Gregersen, Pernille A., additional, Hickey, Scott E., additional, Lefebvre, Mathilde, additional, Mari, Francesca, additional, Martinovic, Jelena, additional, Northrup, Hope, additional, O’Leary, Melanie, additional, Parbhoo, Kareesma, additional, Patrier, Sophie, additional, Popp, Bernt, additional, Santos-Simarro, Fernando, additional, Stoltenburg, Corinna, additional, Thauvin-Robinet, Christel, additional, Thompson, Elisabeth, additional, Vulto-van Silfhout, Anneke T., additional, Zahir, Farah R., additional, Scott, Hamish S., additional, Earl, Rachel K., additional, Eichler, Evan E., additional, Vora, Neeta L., additional, Wilnai, Yael, additional, Giordano, Jessica L., additional, Wapner, Ronald J., additional, Rosenfeld, Jill A., additional, Haak, Monique C., additional, and Santen, Gijs W.E., additional

Published
2023
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14. Characterizing the autism spectrum phenotype in DYRK1A‐related syndrome.

Author

Kurtz‐Nelson, Evangeline C., Rea, Hannah M., Petriceks, Aiva C., Hudac, Caitlin M., Wang, Tianyun, Earl, Rachel K., Bernier, Raphael A., Eichler, Evan E., and Neuhaus, Emily

Abstract

Likely gene‐disrupting (LGD) variants in DYRK1A are causative of DYRK1A syndrome and associated with autism spectrum disorder (ASD) and intellectual disability (ID). While many individuals with DYRK1A syndrome are diagnosed with ASD, they may present with a unique profile of ASD traits. We present a comprehensive characterization of the ASD profile in children and young adults with LGDs in DYRK1A. Individuals with LGD variants in DYRK1A (n = 29) were compared to children who had ASD with no known genetic cause, either with low nonverbal IQ (n = 14) or average or above nonverbal IQ (n = 41). ASD was assessed using the ADOS‐2, ADI‐R, SRS‐2, SCQ, and RBS‐R. Quantitative score comparisons were conducted, as were qualitative analyses of clinicians' behavioral observations. Diagnosis of ASD was confirmed in 85% and ID was confirmed in 89% of participants with DYRK1A syndrome. Individuals with DYRK1A syndrome showed broadly similar social communication behaviors to children with idiopathic ASD and below‐average nonverbal IQ, with specific challenges noted in social reciprocity and nonverbal communication. Children with DYRK1A syndrome also showed high rates of sensory‐seeking behaviors. Phenotypic characterization of individuals with DYRK1A syndrome may provide additional information on mechanisms contributing to co‐occurring ASD and ID and contribute to the identification of genetic predictors of specific ASD traits. Lay Summary: DYRK1A syndrome has been identified as a genetic cause of autism spectrum disorder (ASD). We found that individuals with DYRK1A syndrome had high rates of ASD and intellectual disability (ID). Individuals with DYRK1A syndrome showed many similarities in ASD traits when compared to individuals with ASD and ID without a known genetic cause, but individuals with DYRK1A syndrome showed particular differences in social reciprocity, nonverbal communication, and sensory‐seeking behaviors. [ABSTRACT FROM AUTHOR]

Published
2023
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15. De novo variants in genes regulating stress granule assembly associate with neurodevelopmental disorders

Author

Jia, Xiangbin, primary, Zhang, Shujie, additional, Tan, Senwei, additional, Du, Bing, additional, He, Mei, additional, Qin, Haisong, additional, Chen, Jia, additional, Duan, Xinyu, additional, Luo, Jingsi, additional, Chen, Fei, additional, Ouyang, Luping, additional, Wang, Jian, additional, Chen, Guodong, additional, Yu, Bin, additional, Zhang, Ge, additional, Zhang, Zimin, additional, Lyu, Yongqing, additional, Huang, Yi, additional, Jiao, Jian, additional, Chen, Jin Yun (Helen), additional, Swoboda, Kathryn J., additional, Agolini, Emanuele, additional, Novelli, Antonio, additional, Leoni, Chiara, additional, Zampino, Giuseppe, additional, Cappuccio, Gerarda, additional, Brunetti-Pierri, Nicola, additional, Gerard, Benedicte, additional, Ginglinger, Emmanuelle, additional, Richer, Julie, additional, McMillan, Hugh, additional, White-Brown, Alexandre, additional, Hoekzema, Kendra, additional, Bernier, Raphael A., additional, Kurtz-Nelson, Evangeline C., additional, Earl, Rachel K., additional, Meddens, Claartje, additional, Alders, Marielle, additional, Fuchs, Meredith, additional, Caumes, Roseline, additional, Brunelle, Perrine, additional, Smol, Thomas, additional, Kuehl, Ryan, additional, Day-Salvatore, Debra-Lynn, additional, Monaghan, Kristin G., additional, Morrow, Michelle M., additional, Eichler, Evan E., additional, Hu, Zhengmao, additional, Yuan, Ling, additional, Tan, Jieqiong, additional, Xia, Kun, additional, Shen, Yiping, additional, and Guo, Hui, additional

Published
2022
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18. Delineation of a novel neurodevelopmental syndrome associated with PAX5 haploinsufficiency

Author

Gofin, Yoel, primary, Wang, Tianyun, additional, Gillentine, Madelyn A., additional, Scott, Tiana M., additional, Berry, Aliska M., additional, Azamian, Mahshid S., additional, Genetti, Casie, additional, Agrawal, Pankaj B., additional, Picker, Jonathan, additional, Wojcik, Monica H., additional, Delgado, Mauricio R., additional, Lynch, Sally A., additional, Scherer, Stephen W., additional, Howe, Jennifer L., additional, Bacino, Carlos A., additional, DiTroia, Stephanie, additional, VanNoy, Grace E., additional, O'Donnell‐Luria, Anne, additional, Lalani, Seema R., additional, Graf, William D., additional, Rosenfeld, Jill A., additional, Eichler, Evan E., additional, Earl, Rachel K., additional, and Scott, Daryl A., additional

Published
2022
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19. SPEN haploinsufficiency causes a neurodevelopmental disorder overlapping proximal 1p36 deletion syndrome with an episignature of X chromosomes in females

Author

Radio, Francesca Clementina, Pang, Kaifang, Ciolfi, Andrea, Levy, Michael A., Hernández-García, Andrés, Pedace, Lucia, Pantaleoni, Francesca, Liu, Zhandong, de Boer, Elke, Jackson, Adam, Bruselles, Alessandro, McConkey, Haley, Stellacci, Emilia, Lo Cicero, Stefania, Motta, Marialetizia, Carrozzo, Rosalba, Dentici, Maria Lisa, McWalter, Kirsty, Desai, Megha, Monaghan, Kristin G., Telegrafi, Aida, Philippe, Christophe, Vitobello, Antonio, Au, Margaret, Grand, Katheryn, Sanchez-Lara, Pedro A., Baez, Joanne, Lindstrom, Kristin, Kulch, Peggy, Sebastian, Jessica, Madan-Khetarpal, Suneeta, Roadhouse, Chelsea, MacKenzie, Jennifer J., Monteleone, Berrin, Saunders, Carol J., Jean Cuevas, July K., Cross, Laura, Zhou, Dihong, Hartley, Taila, Sawyer, Sarah L., Monteiro, Fabíola Paoli, Secches, Tania Vertemati, Kok, Fernando, Schultz-Rogers, Laura E., Macke, Erica L., Morava, Eva, Klee, Eric W., Kemppainen, Jennifer, Iascone, Maria, Selicorni, Angelo, Tenconi, Romano, Amor, David J., Pais, Lynn, Gallacher, Lyndon, Turnpenny, Peter D., Stals, Karen, Ellard, Sian, Cabet, Sara, Lesca, Gaetan, Pascal, Joset, Steindl, Katharina, Ravid, Sarit, Weiss, Karin, Castle, Alison M.R., Carter, Melissa T., Kalsner, Louisa, de Vries, Bert B.A., van Bon, Bregje W., Wevers, Marijke R., Pfundt, Rolph, Stegmann, Alexander P.A., Kerr, Bronwyn, Kingston, Helen M., Chandler, Kate E., Sheehan, Willow, Elias, Abdallah F., Shinde, Deepali N., Towne, Meghan C., Robin, Nathaniel H., Goodloe, Dana, Vanderver, Adeline, Sherbini, Omar, Bluske, Krista, Hagelstrom, R. Tanner, Zanus, Caterina, Faletra, Flavio, Musante, Luciana, Kurtz-Nelson, Evangeline C., Earl, Rachel K., Anderlid, Britt-Marie, Morin, Gilles, van Slegtenhorst, Marjon, Diderich, Karin E.M., Brooks, Alice S., Gribnau, Joost, Boers, Ruben G., Finestra, Teresa Robert, Carter, Lauren B., Rauch, Anita, Gasparini, Paolo, Boycott, Kym M., Barakat, Tahsin Stefan, Graham, John M., Jr., Faivre, Laurence, Banka, Siddharth, Wang, Tianyun, Eichler, Evan E., Priolo, Manuela, Dallapiccola, Bruno, Vissers, Lisenka E.L.M., Sadikovic, Bekim, Scott, Daryl A., Holder, Jimmy Lloyd, Jr., and Tartaglia, Marco

Published
2021
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20. Additional file 3 of Rare deleterious mutations of HNRNP genes result in shared neurodevelopmental disorders

Author

Gillentine, Madelyn A., Tianyun Wang, Hoekzema, Kendra, Rosenfeld, Jill, Pengfei Liu, Guo, Hui, Kim, Chang N., De Vries, Bert B. A., Lisenka E. L. M. Vissers, Nordenskjold, Magnus, Kvarnung, Malin, Lindstrand, Anna, Nordgren, Ann, Gecz, Jozef, Iascone, Maria, Cereda, Anna, Scatigno, Agnese, Maitz, Silvia, Zanni, Ginevra, Bertini, Enrico, Zweier, Christiane, Schuhmann, Sarah, Wiesener, Antje, Pepper, Micah, Panjwani, Heena, Torti, Erin, Abid, Farida, Anselm, Irina, Siddharth Srivastava, Paldeep Atwal, Bacino, Carlos A., Gifty Bhat, Cobian, Katherine, Bird, Lynne M., Friedman, Jennifer, Wright, Meredith S., Callewaert, Bert, Petit, Florence, Mathieu, Sophie, Afenjar, Alexandra, Celenie K. Christensen, White, Kerry M., Elpeleg, Orly, Berger, Itai, Espineli, Edward J., Fagerberg, Christina, Brasch-Andersen, Charlotte, Hansen, Lars Kjærsgaard, Feyma, Timothy, Hughes, Susan, Thiffault, Isabelle, Sullivan, Bonnie, Yan, Shuang, Keller, Kory, Keren, Boris, Mignot, Cyril, Kooy, Frank, Meuwissen, Marije, Basinger, Alice, Kukolich, Mary, Philips, Meredith, Ortega, Lucia, Drummond-Borg, Margaret, Lauridsen, Mathilde, Sorensen, Kristina, Lehman, Anna, Lopez-Rangel, Elena, Levy, Paul, Lessel, Davor, Lotze, Timothy, Suneeta Madan-Khetarpal, Sebastian, Jessica, Vento, Jodie, Vats, Divya, L. Manace Benman, Mckee, Shane, Ghayda M. Mirzaa, Muss, Candace, Pappas, John, Peeters, Hilde, Romano, Corrado, Elia, Maurizio, Galesi, Ornella, Simon, Marleen E. H., Van Gassen, Koen L. I., Simpson, Kara, Stratton, Robert, Sabeen Syed, Thevenon, Julien, Palafoll, Irene Valenzuela, Vitobello, Antonio, Bournez, Marie, Faivre, Laurence, Xia, Kun, Earl, Rachel K., Nowakowski, Tomasz, Bernier, Raphael A., and Eichler, Evan E.

Subjects
Data_FILES
Abstract

Additional file 3: Table S13. GenBank accession numbers.

Published
2021
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21. Additional file 2 of Rare deleterious mutations of HNRNP genes result in shared neurodevelopmental disorders

Author

Gillentine, Madelyn A., Tianyun Wang, Hoekzema, Kendra, Rosenfeld, Jill, Pengfei Liu, Guo, Hui, Kim, Chang N., De Vries, Bert B. A., Lisenka E. L. M. Vissers, Nordenskjold, Magnus, Kvarnung, Malin, Lindstrand, Anna, Nordgren, Ann, Gecz, Jozef, Iascone, Maria, Cereda, Anna, Scatigno, Agnese, Maitz, Silvia, Zanni, Ginevra, Bertini, Enrico, Zweier, Christiane, Schuhmann, Sarah, Wiesener, Antje, Pepper, Micah, Panjwani, Heena, Torti, Erin, Abid, Farida, Anselm, Irina, Siddharth Srivastava, Paldeep Atwal, Bacino, Carlos A., Gifty Bhat, Cobian, Katherine, Bird, Lynne M., Friedman, Jennifer, Wright, Meredith S., Callewaert, Bert, Petit, Florence, Mathieu, Sophie, Afenjar, Alexandra, Celenie K. Christensen, White, Kerry M., Elpeleg, Orly, Berger, Itai, Espineli, Edward J., Fagerberg, Christina, Brasch-Andersen, Charlotte, Hansen, Lars Kjærsgaard, Feyma, Timothy, Hughes, Susan, Thiffault, Isabelle, Sullivan, Bonnie, Yan, Shuang, Keller, Kory, Keren, Boris, Mignot, Cyril, Kooy, Frank, Meuwissen, Marije, Basinger, Alice, Kukolich, Mary, Philips, Meredith, Ortega, Lucia, Drummond-Borg, Margaret, Lauridsen, Mathilde, Sorensen, Kristina, Lehman, Anna, Lopez-Rangel, Elena, Levy, Paul, Lessel, Davor, Lotze, Timothy, Suneeta Madan-Khetarpal, Sebastian, Jessica, Vento, Jodie, Vats, Divya, L. Manace Benman, Mckee, Shane, Ghayda M. Mirzaa, Muss, Candace, Pappas, John, Peeters, Hilde, Romano, Corrado, Elia, Maurizio, Galesi, Ornella, Simon, Marleen E. H., Van Gassen, Koen L. I., Simpson, Kara, Stratton, Robert, Sabeen Syed, Thevenon, Julien, Palafoll, Irene Valenzuela, Vitobello, Antonio, Bournez, Marie, Faivre, Laurence, Xia, Kun, Earl, Rachel K., Nowakowski, Tomasz, Bernier, Raphael A., and Eichler, Evan E.

Abstract

Additional file 2: Supplementary Figures S1-S5. Fig. S1. Dendrogram of hnRNPs based on multiple sequence alignment of canonical amino acid sequences. Colors match those seen in Fig. 2. NDD hnRNPs are shown in black boxes. Fig. S2. Pathogenicity assessment of variation in hnRNPs. A) Gene Variation Intolerance Ranking (GeVIR), loss-of-function observed/expected upper bound fraction (LOEUF), and Variation Intolerant Region Loss-of-Function (VIRLoF) percentiles. Average LOEUF percentile is significantly higher for NDD HNRNPs (n = 13) compared to other HNRNPs (n = 15). B) Average fold change for GeVIR, LEOUF, and VIRLoF for autosomal dominant (AD) and autosomal recessive (AR) variants. Average LEOUF fold change for AD mutations is significantly higher for NDD HNRNPs compared to other HNRNPs, with the AD VIRLoF fold change trending in the same direction. The AR LEOUF fold change is trending towards being significantly higher among other HNRNPs compared to NDD HNRNPs. One-way t-test. * p

Published
2021
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22. The CHD8/CHD7/Kismet family links blood-brain barrier glia and serotonin to ASD-associated sleep defects

Author

Coll-Tané, Mireia, primary, Gong, Naihua N., additional, Belfer, Samuel J., additional, van Renssen, Lara V., additional, Kurtz-Nelson, Evangeline C., additional, Szuperak, Milan, additional, Eidhof, Ilse, additional, van Reijmersdal, Boyd, additional, Terwindt, Isabel, additional, Durkin, Jaclyn, additional, Verheij, Michel M. M., additional, Kim, Chang N., additional, Hudac, Caitlin M., additional, Nowakowski, Tomasz J., additional, Bernier, Raphael A., additional, Pillen, Sigrid, additional, Earl, Rachel K., additional, Eichler, Evan E., additional, Kleefstra, Tjitske, additional, Kayser, Matthew S., additional, and Schenck, Annette, additional

Published
2021
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26. Unpacking The Autism Spectrum Disorder Profile of Children With De Novo Disruptive GRIN2B Variants: A Quantitative and Qualitative Analysis

Author

Hudac, Caitlin M., primary, Kurtz-Nelson, Evangeline, additional, Rutter, Tara M., additional, Peterson, Jessica L., additional, Hoekzema, Kendra, additional, Beighley, Jennifer, additional, Kelly, Morgan E., additional, Wallace, Arianne S., additional, Gerdts, Jennifer, additional, Eichler, Evan E., additional, Bernier, Raphael A., additional, and Earl, Rachel K., additional

Published
2020
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27. Recent ultra-rare inherited variants implicate new autism candidate risk genes

Author

Wilfert, Amy B., Turner, Tychele N., Murali, Shwetha C., Hsieh, PingHsun, Sulovari, Arvis, Wang, Tianyun, Coe, Bradley P., Guo, Hui, Hoekzema, Kendra, Bakken, Trygve E., Winterkorn, Lara H., Evani, Uday S., Byrska-Bishop, Marta, Earl, Rachel K., Bernier, Raphael A., Zody, Michael C., and Eichler, Evan E.

Abstract

Autism is a highly heritable complex disorder in which de novo mutation (DNM) variation contributes significantly to risk. Using whole-genome sequencing data from 3,474 families, we investigate another source of large-effect risk variation, ultra-rare variants. We report and replicate a transmission disequilibrium of private, likely gene-disruptive (LGD) variants in probands but find that 95% of this burden resides outside of known DNM-enriched genes. This variant class more strongly affects multiplex family probands and supports a multi-hit model for autism. Candidate genes with private LGD variants preferentially transmitted to probands converge on the E3 ubiquitin–protein ligase complex, intracellular transport and Erb signaling protein networks. We estimate that these variants are approximately 2.5 generations old and significantly younger than other variants of similar type and frequency in siblings. Overall, private LGD variants are under strong purifying selection and appear to act on a distinct set of genes not yet associated with autism.

Published
2021
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31. The Promise of Multi-Omics and Clinical Data Integration to Identify and Target Personalized Healthcare Approaches in Autism Spectrum Disorders

Author

Higdon, Roger, primary, Earl, Rachel K., additional, Stanberry, Larissa, additional, Hudac, Caitlin M., additional, Montague, Elizabeth, additional, Stewart, Elizabeth, additional, Janko, Imre, additional, Choiniere, John, additional, Broomall, William, additional, Kolker, Natali, additional, Bernier, Raphael A., additional, and Kolker, Eugene, additional

Published
2015
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32. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

Jantine van der Sluijs, Pleuntje, Joosten, Marieke, Alby, Caroline, Attié-Bitach, Tania, Gilmore, Kelly, Dubourg, Christele, Fradin, Mélanie, Wang, Tianyun, Kurtz-Nelson, Evangeline C., Ahlers, Kaitlyn P., Arts, Peer, Barnett, Christopher P., Ashfaq, Myla, Baban, Anwar, van den Born, Myrthe, Borrie, Sarah, Busa, Tiffany, Byrne, Alicia, Carriero, Miriam, Cesario, Claudia, Chong, Karen, Cueto-González, Anna Maria, Dempsey, Jennifer C., Diderich, Karin E.M., Doherty, Dan, Farholt, Stense, Gerkes, Erica H., Gorokhova, Svetlana, Govaerts, Lutgarde C.P., Gregersen, Pernille A., Hickey, Scott E., Lefebvre, Mathlide, Mari, Francesca, Martinovic, Jelena, Northrup, Hope, O’Leary, Melanie, Parbhoo, Kareesma, Patrier, Sophie, Popp, Bernt, Santos-Simarro, Fernando, Stoltenburg, Corinna, Thauvin, Christel, Thompson, Elisabeth, Silfhout, A.T. Vulto-van, Zahir, Farah R., Scott, Hamish, Earl, Rachel K., Eichler, Evan E., Vora, Neeta L., Wilnai, Yael, Giordano, Jessica L., Wapner, Ronald J., Rosenfeld, Jill, Haak, Monique C., and Santen, Gijs W.E.

Abstract

Genome-wide sequencing is increasingly being performed during pregnancy to identify the genetic cause of congenital anomalies. The interpretation of prenatally identified variants can be challenging and is hampered by our often limited knowledge of prenatal phenotypes. To better delineate the prenatal phenotype of Coffin-Siris syndrome (CSS), we collected clinical data from patients with a prenatal phenotype and a pathogenic variant in one of the CSS-associated genes.

Published
2022
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33. De novo variants in genes regulating stress granule assembly associate with neurodevelopmental disorders

Author

Xiangbin Jia, Shujie Zhang, Senwei Tan, Bing Du, Mei He, Haisong Qin, Jia Chen, Xinyu Duan, Jingsi Luo, Fei Chen, Luping Ouyang, Jian Wang, Guodong Chen, Bin Yu, Ge Zhang, Zimin Zhang, Yongqing Lyu, Yi Huang, Jian Jiao, Jin Yun (Helen) Chen, Kathryn J. Swoboda, Emanuele Agolini, Antonio Novelli, Chiara Leoni, Giuseppe Zampino, Gerarda Cappuccio, Nicola Brunetti-Pierri, Benedicte Gerard, Emmanuelle Ginglinger, Julie Richer, Hugh McMillan, Alexandre White-Brown, Kendra Hoekzema, Raphael A. Bernier, Evangeline C. Kurtz-Nelson, Rachel K. Earl, Claartje Meddens, Marielle Alders, Meredith Fuchs, Roseline Caumes, Perrine Brunelle, Thomas Smol, Ryan Kuehl, Debra-Lynn Day-Salvatore, Kristin G. Monaghan, Michelle M. Morrow, Evan E. Eichler, Zhengmao Hu, Ling Yuan, Jieqiong Tan, Kun Xia, Yiping Shen, Hui Guo, Human Genetics, ARD - Amsterdam Reproduction and Development, ACS - Pulmonary hypertension & thrombosis, Jia, Xiangbin, Zhang, Shujie, Tan, Senwei, Du, Bing, He, Mei, Qin, Haisong, Chen, Jia, Duan, Xinyu, Luo, Jingsi, Chen, Fei, Ouyang, Luping, Wang, Jian, Chen, Guodong, Yu, Bin, Zhang, Ge, Zhang, Zimin, Lyu, Yongqing, Huang, Yi, Jiao, Jian, Chen, Jin Yun Helen, Swoboda, Kathryn J, Agolini, Emanuele, Novelli, Antonio, Leoni, Chiara, Zampino, Giuseppe, Cappuccio, Gerarda, Brunetti-Pierri, Nicola, Gerard, Benedicte, Ginglinger, Emmanuelle, Richer, Julie, Mcmillan, Hugh, White-Brown, Alexandre, Hoekzema, Kendra, Bernier, Raphael A, Kurtz-Nelson, Evangeline C, Earl, Rachel K, Meddens, Claartje, Alders, Marielle, Fuchs, Meredith, Caumes, Roseline, Brunelle, Perrine, Smol, Thoma, Kuehl, Ryan, Day-Salvatore, Debra-Lynn, Monaghan, Kristin G, Morrow, Michelle M, Eichler, Evan E, Hu, Zhengmao, Yuan, Ling, Tan, Jieqiong, Xia, Kun, Shen, Yiping, and Guo, Hui

Subjects
Multidisciplinary, Animal, DNA Helicases, RNA Helicase, DNA Helicase, Stress Granule, Stress Granules, Mice, RNA Recognition Motif Proteins, Neurodevelopmental Disorders, RNA Recognition Motif Protein, Animals, Poly-ADP-Ribose Binding Proteins, RNA Helicases, Poly-ADP-Ribose Binding Protein
Abstract

Stress granules (SGs) are cytoplasmic assemblies in response to a variety of stressors. We report a new neurodevelopmental disorder (NDD) with common features of language problems, intellectual disability, and behavioral issues caused by de novo likely gene-disruptive variants in UBAP2L , which encodes an essential regulator of SG assembly. Ubap2l haploinsufficiency in mouse led to social and cognitive impairments accompanied by disrupted neurogenesis and reduced SG formation during early brain development. On the basis of data from 40,853 individuals with NDDs, we report a nominally significant excess of de novo variants within 29 genes that are not implicated in NDDs, including 3 essential genes ( G3BP1 , G3BP2 , and UBAP2L ) in the core SG interaction network. We validated that NDD-related de novo variants in newly implicated and known NDD genes, such as CAPRIN1 , disrupt the interaction of the core SG network and interfere with SG formation. Together, our findings suggest the common SG pathology in NDDs.

Published
2022

34. Characterizing the autism spectrum phenotype in DYRK1A-related syndrome.

Author

Kurtz-Nelson EC, Rea HM, Petriceks AC, Hudac CM, Wang T, Earl RK, Bernier RA, Eichler EE, and Neuhaus E

Subjects
Humans, Phenotype, Social Behavior, Dyrk Kinases, Autism Spectrum Disorder complications, Autistic Disorder genetics, Autistic Disorder complications, Intellectual Disability epidemiology, Intellectual Disability genetics, Intellectual Disability complications
Abstract

Likely gene-disrupting (LGD) variants in DYRK1A are causative of DYRK1A syndrome and associated with autism spectrum disorder (ASD) and intellectual disability (ID). While many individuals with DYRK1A syndrome are diagnosed with ASD, they may present with a unique profile of ASD traits. We present a comprehensive characterization of the ASD profile in children and young adults with LGDs in DYRK1A. Individuals with LGD variants in DYRK1A (n = 29) were compared to children who had ASD with no known genetic cause, either with low nonverbal IQ (n = 14) or average or above nonverbal IQ (n = 41). ASD was assessed using the ADOS-2, ADI-R, SRS-2, SCQ, and RBS-R. Quantitative score comparisons were conducted, as were qualitative analyses of clinicians' behavioral observations. Diagnosis of ASD was confirmed in 85% and ID was confirmed in 89% of participants with DYRK1A syndrome. Individuals with DYRK1A syndrome showed broadly similar social communication behaviors to children with idiopathic ASD and below-average nonverbal IQ, with specific challenges noted in social reciprocity and nonverbal communication. Children with DYRK1A syndrome also showed high rates of sensory-seeking behaviors. Phenotypic characterization of individuals with DYRK1A syndrome may provide additional information on mechanisms contributing to co-occurring ASD and ID and contribute to the identification of genetic predictors of specific ASD traits., (© 2023 International Society for Autism Research and Wiley Periodicals LLC.)

Published
2023
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