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

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...

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Autores principales: 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
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Cell and Developmental Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9650323/
https://www.ncbi.nlm.nih.gov/pubmed/36393831
http://dx.doi.org/10.3389/fcell.2022.1021785
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author 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
author_facet 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
author_sort Colin, Estelle
collection PubMed
description 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.
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spelling pubmed-96503232022-11-15 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 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 Front Cell Dev Biol Cell and Developmental Biology 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. Frontiers Media S.A. 2022-10-28 /pmc/articles/PMC9650323/ /pubmed/36393831 http://dx.doi.org/10.3389/fcell.2022.1021785 Text en Copyright © 2022 Colin, Duffourd, Tisserant, Relator, Bruel, Tran Mau-Them, Denommé-Pichon, Safraou, Delanne, Jean-Marçais, Keren, Isidor, Vincent, Mignot, Heron, Afenjar, Heide, Faudet, Charles, Odent, Herenger, Sorlin, Moutton, Kerkhof, McConkey, Chevarin, Poë, Couturier, Bourgeois, Callier, Boland, Olaso, Philippe, Sadikovic, Thauvin-Robinet, Faivre, Deleuze and Vitobello. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Cell and Developmental Biology
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
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
title 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
title_full 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
title_fullStr 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
title_full_unstemmed 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
title_short 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
title_sort 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
topic Cell and Developmental Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9650323/
https://www.ncbi.nlm.nih.gov/pubmed/36393831
http://dx.doi.org/10.3389/fcell.2022.1021785
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