OMIXCARE: OMICS technologies solved about 33% of the patients with heterogeneous rare neuro-developmental disorders and negative exome sequencing results and identified 13% additional candidate variants

Archive ouverte

Colin, Estelle | Duffourd, Yannis | Tisserant, Emilie | Relator, Raissa | Bruel, Ange-Line | Tran Mau-Them, Frédéric | Denommé-Pichon, Anne-Sophie | Safraou, Hana | Delanne, Julian | Jean-Marçais, Nolwenn | Keren, Boris | Isidor, Bertrand | Vincent, Marie | Mignot, Cyril | Heron, Delphine | Afenjar, Alexandra | Heide, Solveig | Faudet, Anne | Charles, Perrine | Odent, Sylvie | Herenger, Yvan | Sorlin, Arthur | Moutton, Sébastien | Kerkhof, Jennifer | Mcconkey, Haley | Chevarin, Martin | Poë, Charlotte | Couturier, Victor | Bourgeois, Valentin | Callier, Patrick | Boland, Anne | Olaso, Robert | Philippe, Christophe | Sadikovic, Bekim | Thauvin-Robinet, Christel | Faivre, Laurence | Deleuze, Jean-François | Vitobello, Antonio

Edité par CCSD ; Frontiers media -

International audience. Purpose: Patients with rare or ultra-rare genetic diseases, which affect 350 million people worldwide, may experience a diagnostic odyssey. High-throughput sequencing leads to an etiological diagnosis in up to 50% of individuals with heterogeneous neurodevelopmental or malformation disorders. There is a growing interest in additional omics technologies in translational research settings to examine the remaining unsolved cases. Methods: We gathered 30 individuals with malformation syndromes and/or severe neurodevelopmental disorders with negative trio exome sequencing and array comparative genomic hybridization results through a multicenter project. We applied short-read genome sequencing, total RNA sequencing, and DNA methylation analysis, in that order, as complementary translational research tools for a molecular diagnosis. Results: The cohort was mainly composed of pediatric individuals with a median age of 13.7 years (4 years and 6 months to 35 years and 1 month). Genome sequencing alone identified at least one variant with a high level of evidence of pathogenicity in 8/30 individuals (26.7%) and at least a candidate disease-causing variant in 7/30 other individuals (23.3%). RNA-seq data in 23 individuals allowed two additional individuals (8.7%) to be diagnosed, confirming the implication of two pathogenic variants (8.7%), and excluding one candidate variant (4.3%). Finally, DNA methylation analysis confirmed one diagnosis identified by genome sequencing (Kabuki syndrome) and identified an episignature compatible with a BAFopathy in a patient with a clinical diagnosis of Coffin-Siris with negative genome and RNA-seq results in blood. Conclusion: Overall, our integrated genome, transcriptome, and DNA methylation analysis solved 10/30 (33.3%) cases and identified a strong candidate gene in 4/30 (13.3%) of the patients with rare neurodevelopmental disorders and negative exome sequencing results.

• Description
• Sujet/Public
• Outil
• Outil d'anticipation
• Mémoire et thèse
• Gestion