Jérémie Mortreux1, Tiffany Busa2, Dominique P Germain3,4, Gwenaël Nadeau5, Jacques Puechberty6, Christine Coubes6, Vincent Gatinois7, Pierre Cacciagli8, Yannis Duffourd9,10, Jean-Marc Pinard11, Hélène Tevissen12, Laurent Villard13, Damien Sanlaville14,15,16, Nicole Philip2,8, Chantal Missirian2. 1. Département de Génétique Médicale, APHM, CHU Timone Enfants, Marseille, France. jeremie.mortreux@ap-hm.fr. 2. Département de Génétique Médicale, APHM, CHU Timone Enfants, Marseille, France. 3. Division of Medical Genetics, University of Versailles, 78180, Montigny, France. 4. CHU Raymond Poincaré (AP-HP), Garches, France. 5. UF de génétique chromosomique, Centre hospitalier métropole Savoie, Chambéry, France. 6. Département de Génétique Médicale, Maladies rares et Médecine Personnalisée, CHU de Montpellier, France. 7. Laboratoire de Génétique Chromosomique, CHU de Montpellier, France. 8. Aix Marseille Université, GMGF UMR_S 910, Marseille, France. 9. Fédération Hospitalo-Universitaire Médecine Translationnelle et Anomalies du Développement (FHU TRANSLAD), CHU de Dijon et Université de Bourgogne-Franche Comté, Dijon, France. 10. Equipe d'Accueil 42271, Génétique des Anomalies du Développement, Université de Bourgogne, Dijon, France. 11. Division of Neuropediatrics, CHU Raymond Poincaré (AP-HP), Garches, France. 12. Service de pédiatrie, CH de Valence, Valence, France. 13. Aix Marseille Université, GMGF, Inserm, UMR_S 910, Marseille, France. 14. Department of Genetics, Lyon University Hospitals, Lyon, France. 15. Lyon Neuroscience Research Centre, CNRS UMR5292, Inserm U1028, Lyon, France. 16. Claude Bernard Lyon I University, Lyon, France.
Abstract
INTRODUCTION: A large number of genes involved in autosomal recessive forms of intellectual disability (ID) were identified over the past few years through whole-exome sequencing (WES) or whole-genome sequencing in consanguineous families. Disease-associated variants in TRAPPC9 were reported in eight multiplex consanguineous sibships from different ethnic backgrounds, and led to the delineation of the phenotype. Affected patients have microcephaly, obesity, normal motor development, severe ID, and language impairment and brain anomalies. PATIENTS: We report six new patients recruited through a national collaborative network. RESULTS: In the two patients heterozygous for a copy-number variation (CNV), the phenotype was clinically relevant with regard to the literature, which prompted to sequence the second allele, leading to identification of disease-associated variants in both. The third patient was homozygote for an intragenic TRAPPC9 CNV. The phenotype of the patients reported was concordant with the literature. Recent reports emphasized the role of CNVs in the etiology of rare recessive disorders. CONCLUSION: This study demonstrates that CNVs significantly contribute to the mutational spectrum of TRAPPC9 gene, and also confirms the interest of combining WES with CNV analysis to provide a molecular diagnosis to patients with rare Mendelian disorders.
INTRODUCTION: A large number of genes involved in autosomal recessive forms of intellectual disability (ID) were identified over the past few years through whole-exome sequencing (WES) or whole-genome sequencing in consanguineous families. Disease-associated variants in TRAPPC9 were reported in eight multiplex consanguineous sibships from different ethnic backgrounds, and led to the delineation of the phenotype. Affected patients have microcephaly, obesity, normal motor development, severe ID, and language impairment and brain anomalies. PATIENTS: We report six new patients recruited through a national collaborative network. RESULTS: In the two patients heterozygous for a copy-number variation (CNV), the phenotype was clinically relevant with regard to the literature, which prompted to sequence the second allele, leading to identification of disease-associated variants in both. The third patient was homozygote for an intragenic TRAPPC9 CNV. The phenotype of the patients reported was concordant with the literature. Recent reports emphasized the role of CNVs in the etiology of rare recessive disorders. CONCLUSION: This study demonstrates that CNVs significantly contribute to the mutational spectrum of TRAPPC9 gene, and also confirms the interest of combining WES with CNV analysis to provide a molecular diagnosis to patients with rare Mendelian disorders.
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