Brett V Johnson1, Raman Kumar1, Sabrina Oishi2, Suzy Alexander3, Maria Kasherman4, Michelle Sanchez Vega5, Atma Ivancevic6, Alison Gardner1, Deepti Domingo1, Mark Corbett1, Euan Parnell7, Sehyoun Yoon7, Tracey Oh8, Matthew Lines9, Henrietta Lefroy10, Usha Kini10, Margot Van Allen11, Sabine Grønborg12, Sandra Mercier13, Sébastien Küry13, Stéphane Bézieau13, Laurent Pasquier14, Martine Raynaud15, Alexandra Afenjar16, Thierry Billette de Villemeur17, Boris Keren18, Julie Désir19, Lionel Van Maldergem20, Martina Marangoni19, Nicola Dikow21, David A Koolen22, Peter M VanHasselt23, Marjan Weiss24, Petra Zwijnenburg25, Joaquim Sa25, Claudia Falcao Reis25, Carlos López-Otín26, Olaya Santiago-Fernández27, Alberto Fernández-Jaén28, Anita Rauch29, Katharina Steindl29, Pascal Joset29, Amy Goldstein30, Suneeta Madan-Khetarpal31, Elena Infante31, Elaine Zackai30, Carey Mcdougall30, Vinodh Narayanan32, Keri Ramsey32, Saadet Mercimek-Andrews33, Loren Pena34, Vandana Shashi35, Kelly Schoch35, Jennifer A Sullivan35, Filippo Pinto E Vairo36, Pavel N Pichurin37, Sarah A Ewing37, Sarah S Barnett38, Eric W Klee37, M Scott Perry39, Mary Kay Koenig40, Catherine E Keegan41, Jane L Schuette41, Stephanie Asher42, Yezmin Perilla-Young43, Laurie D Smith43, Jill A Rosenfeld44, Elizabeth Bhoj30, Paige Kaplan30, Dong Li30, Renske Oegema45, Ellen van Binsbergen45, Bert van der Zwaag45, Marie Falkenberg Smeland46, Ioana Cutcutache47, Matthew Page48, Martin Armstrong48, Angela E Lin49, Marcie A Steeves49, Nicolette den Hollander50, Mariëtte J V Hoffer50, Margot R F Reijnders51, Serwet Demirdas52, Daniel C Koboldt53, Dennis Bartholomew53, Theresa Mihalic Mosher53, Scott E Hickey54, Christine Shieh55, Pedro A Sanchez-Lara56, John M Graham56, Kamer Tezcan57, G B Schaefer58, Noelle R Danylchuk59, Alexander Asamoah60, Kelly E Jackson60, Naomi Yachelevich61, Margaret Au56, Luis A Pérez-Jurado62, Tjitske Kleefstra22, Peter Penzes7, Stephen A Wood63, Thomas Burne3, Tyler Mark Pierson64, Michael Piper65, Jozef Gécz66, Lachlan A Jolly67. 1. University of Adelaide and Robinson Research Institute, Adelaide, Australia. 2. School of Biomedical Sciences, The University of Queensland, Brisbane, Australia. 3. Queensland Brain Institute, The University of Queensland, Brisbane, Australia; Queensland Centre for Mental Health Research, Wacol, Queensland, Australia. 4. School of Biomedical Sciences, The University of Queensland, Brisbane, Australia; Griffith Institute for Drug Discovery, Griffith University, Brisbane, Australia. 5. Queensland Brain Institute, The University of Queensland, Brisbane, Australia. 6. University of Adelaide and Robinson Research Institute, Adelaide, Australia; BioFrontiers Institute, University of Colorado Boulder, Boulder, Colorado. 7. Department of Physiology, Northwestern University Feinberg School of Medicine, Chicago, Illinois. 8. Department of Medical Genetics, British Columbia Women's Hospital and University of British Columbia, Vancouver, British Columbia, Canada. 9. Children's Hospital of Eastern Ontario, Ottawa, Ontario, Canada. 10. Oxford Centre for Genomic Medicine, Oxford University Hospitals National Health Services Foundation Trust, Oxford, United Kingdom. 11. Department of Medical Genetics, University of British Columbia, Vancouver, British Columbia, Canada. 12. Center for Rare Diseases, Department of Pediatrics and Department of Clinical Genetics, University Hospital Copenhagen, Copenhagen, Denmark. 13. Service de Génétique Médicale, Centre Hospitalier Universitaire Nantes and l'Institut du Thorax, Institut National de la Santé et de la Recherche Médicale, Centre National de la Recherche Scientifique, Université de Nantes, Nantes, France. 14. Service de Génétique Clinique, Centre de Référence Déficiences Intellectuelles de Causes Rares, Centre Hospitalier Universitaire Hôpital Sud, Rennes, France. 15. Centre Hospitalier Régional Universitaire de Tours, Service de Génétique, Unité Nixte de Recherche 1253, iBrain, Université de Tours, Institut National de la Santé et de la Recherche Médicale, Tours, France. 16. Groupe de Recherche Clinique No. 19, ConCer-LD, Département de Génétique, Assistance Publique-Hôpitaux de Paris, Hôpital Armand Trousseau, Centres de Référence Maladies Rares des Déficits Intellectuels de Causes Rares, Paris, France. 17. Sorbonne Université, Groupe de Recherche Clinique No. 19, ConCer-LD, Neuropédiatrie, Centres de Référence Maladies Rares Neurogénétique, Institut National de la Santé et de la Recherche Médicale, Assistance Publique-Hôpitaux de Paris, Hôpital Armand Trousseau, Paris, France. 18. Hôpital de la Pitié-Salpêtrière, Département de Génétique, Paris, France. 19. Erasme University Hospital, Université Libre de Bruxelles, Brussels, Belgium. 20. Centre de Génétique Humaine, Université de Franche-Comté, Besançon, France. 21. Institute of Human Genetics, Heidelberg University, Heidelberg, Germany. 22. Department of Human Genetics, Radboud University Medical Center, Nijmegen, The Netherlands. 23. Department of Metabolic Diseases, University Medical Center Utrecht, Utrecht, The Netherlands. 24. Department of Clinical Genetics, Vrije Universiteit University Medical Center, Amsterdam, The Netherlands. 25. Medical Genetics Unit, Hospital Pediátrico, Centro Hospitalar e Universitário de Coimbra, Coimbra, Portugal. 26. Departamento de Bioquímica y Biología Molecular, Instituto Universitário de Oncología del Principado de Asturias, Universidad de Oviedo, Oviedo, Spain; Centro de Investigación Biomédica en Red de Cáncer, Spain. 27. Departamento de Bioquímica y Biología Molecular, Instituto Universitário de Oncología del Principado de Asturias, Universidad de Oviedo, Oviedo, Spain. 28. Unidad de Neurología Infantil, Hospital Universitário Quirón Madrid, Madrid, Spain. 29. Institute of Medical Genetics, University of Zurich, Schlieren, Switzerland. 30. Children's Hospital of Philadelphia, Philadelphia, Pennsylvania. 31. Children's Hospital of Pittsburgh, Pittsburgh, Pennsylvania. 32. Center for Rare Childhood Disorders, Translational Genomics Research Institute, Phoenix, Arizona. 33. Division of Clinical and Metabolic Genetics, Department of Pediatrics, University of Toronto, The Hospital for Sick Children, Toronto, Ontario, Canada. 34. Division of Human Genetics, Cincinnati Children's Hospital; Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, Ohio. 35. Department of Pediatrics, Division of Medical Genetics, Duke University Medical Center, Durham, North Carolina. 36. Department of Clinical Genomics, Mayo Clinic, Rochester, Minnesota; Center for Individualized Medicine, Mayo Clinic, Rochester, Minnesota. 37. Department of Clinical Genomics, Mayo Clinic, Rochester, Minnesota. 38. Department of Laboratory Medicine and Pathology, Mayo Clinic, Rochester, Minnesota. 39. Jane and John Justin Neuroscience Center, Cook Children's Medical Center, Fort Worth, Texas. 40. Department of Pediatrics, University of Texas Medical School at Houston, Houston, Texas. 41. Division of Genetics, Department of Pediatrics, University of Michigan, Ann Arbor, Michigan. 42. Translational Medicine & Human Genetics, Hospital of the University of Pennsylvania, Philadelphia, Pennsylvania. 43. Division of Pediatric Genetics and Metabolism, University of North Carolina, Chapel Hill, North Carolina. 44. Baylor College of Medicine, Houston, Texas. 45. Department of Genetics, University Medical Center Utrecht, Utrecht, The Netherlands. 46. Department of Medical Genetics, University Hospital of North Norway, Tromsø, Norway. 47. Translational Medicine, UCB Pharma, Slough, United Kingdom. 48. Translational Medicine, UCB Pharma, Braine-l'Alleud, Belgium. 49. Medical Genetics Unit, Mass General Hospital for Children, Boston, Massachusetts. 50. Department of Clinical Genetics, Leiden University Medical Center, Leiden, The Netherlands. 51. Department of Clinical Genetics, Maastricht University Medical Center, Maastricht, The Netherlands. 52. Department of Clinical Genetics, Erasmus University Medical Center, Rotterdam, The Netherlands. 53. Nationwide Children's Hospital, Columbus, Ohio. 54. Department of Pediatrics, The Ohio State University College of Medicine, Columbus, Ohio. 55. David Geffen School of Medicine, University of California-Los Angeles, California. 56. Department of Pediatrics, Cedars-Sinai Medical Center, Los Angeles, California. 57. Department of Genetics, Kaiser Permanente, Sacramento, California. 58. Section of Genetics and Metabolism, University of Arkansas for Medical Sciences, Little Rock, Arkansas. 59. Department of Genetic Counseling, University of Arkansas for Medical Sciences, Little Rock, Arkansas. 60. Department of Pediatrics, University of Louisville School of Medicine, Louisville, Kentucky. 61. Clinical Genetics Services, Department of Pediatrics, New York University School of Medicine, New York, New York. 62. University of Adelaide and Robinson Research Institute, Adelaide, Australia; Women's and Children's Hospital, Adelaide, Australia; South Australian Health and Medical Research Institute, Adelaide, South Australia; Hospital del Mar Research Institute, Network Research Centre for Rare Diseases and Universitat Pompeu Fabra, Barcelona, Spain. 63. Griffith Institute for Drug Discovery, Griffith University, Brisbane, Australia. 64. Department of Pediatrics, Cedars-Sinai Medical Center, Los Angeles, California; Department of Neurology and the Board of Governors Regenerative Medicine Institute, Cedars-Sinai Medical Center, Los Angeles, California. 65. School of Biomedical Sciences, The University of Queensland, Brisbane, Australia; Queensland Brain Institute, The University of Queensland, Brisbane, Australia. 66. University of Adelaide and Robinson Research Institute, Adelaide, Australia; South Australian Health and Medical Research Institute, Adelaide, South Australia. Electronic address: Jozef.Gecz@adelaide.edu.au. 67. University of Adelaide and Robinson Research Institute, Adelaide, Australia. Electronic address: Lachlan.Jolly@adelaide.edu.au.
Abstract
BACKGROUND: The X-chromosome gene USP9X encodes a deubiquitylating enzyme that has been associated with neurodevelopmental disorders primarily in female subjects. USP9X escapes X inactivation, and in female subjects de novo heterozygous copy number loss or truncating mutations cause haploinsufficiency culminating in a recognizable syndrome with intellectual disability and signature brain and congenital abnormalities. In contrast, the involvement of USP9X in male neurodevelopmental disorders remains tentative. METHODS: We used clinically recommended guidelines to collect and interrogate the pathogenicity of 44 USP9X variants associated with neurodevelopmental disorders in males. Functional studies in patient-derived cell lines and mice were used to determine mechanisms of pathology. RESULTS: Twelve missense variants showed strong evidence of pathogenicity. We define a characteristic phenotype of the central nervous system (white matter disturbances, thin corpus callosum, and widened ventricles); global delay with significant alteration of speech, language, and behavior; hypotonia; joint hypermobility; visual system defects; and other common congenital and dysmorphic features. Comparison of in silico and phenotypical features align additional variants of unknown significance with likely pathogenicity. In support of partial loss-of-function mechanisms, using patient-derived cell lines, we show loss of only specific USP9X substrates that regulate neurodevelopmental signaling pathways and a united defect in transforming growth factor β signaling. In addition, we find correlates of the male phenotype in Usp9x brain-specific knockout mice, and further resolve loss of hippocampal-dependent learning and memory. CONCLUSIONS: Our data demonstrate the involvement of USP9X variants in a distinctive neurodevelopmental and behavioral syndrome in male subjects and identify plausible mechanisms of pathogenesis centered on disrupted transforming growth factor β signaling and hippocampal function.
BACKGROUND: The X-chromosome gene USP9X encodes a deubiquitylating enzyme that has been associated with neurodevelopmental disorders primarily in female subjects. USP9X escapes X inactivation, and in female subjects de novo heterozygous copy number loss or truncating mutations cause haploinsufficiency culminating in a recognizable syndrome with intellectual disability and signature brain and congenital abnormalities. In contrast, the involvement of USP9X in male neurodevelopmental disorders remains tentative. METHODS: We used clinically recommended guidelines to collect and interrogate the pathogenicity of 44 USP9X variants associated with neurodevelopmental disorders in males. Functional studies in patient-derived cell lines and mice were used to determine mechanisms of pathology. RESULTS: Twelve missense variants showed strong evidence of pathogenicity. We define a characteristic phenotype of the central nervous system (white matter disturbances, thin corpus callosum, and widened ventricles); global delay with significant alteration of speech, language, and behavior; hypotonia; joint hypermobility; visual system defects; and other common congenital and dysmorphic features. Comparison of in silico and phenotypical features align additional variants of unknown significance with likely pathogenicity. In support of partial loss-of-function mechanisms, using patient-derived cell lines, we show loss of only specific USP9X substrates that regulate neurodevelopmental signaling pathways and a united defect in transforming growth factor β signaling. In addition, we find correlates of the male phenotype in Usp9x brain-specific knockout mice, and further resolve loss of hippocampal-dependent learning and memory. CONCLUSIONS: Our data demonstrate the involvement of USP9X variants in a distinctive neurodevelopmental and behavioral syndrome in male subjects and identify plausible mechanisms of pathogenesis centered on disrupted transforming growth factor β signaling and hippocampal function.
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