Exome sequencing identifies the first genetic determinants of sirenomelia in humans

Sirenomelia is a rare severe malformation sequence of unknown cause characterized by fused legs and severe visceral abnormalities. We present a series of nine families including two rare familial aggregations of sirenomelia investigated by a trio‐based exome sequencing strategy. This approach identi...

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Veröffentlicht in:	Human mutation 2020-05, Vol.41 (5), p.926-933
Hauptverfasser:	Lecoquierre, François, Brehin, Anne‐Claire, Coutant, Sophie, Coursimault, Juliette, Bazin, Anne, Finck, Wilfrid, Benoist, Guillaume, Begorre, Marianne, Beneteau, Claire, Cailliez, Daniel, Chenal, Pierre, De Jong, Mirjam, Degré, Sophie, Devisme, Louise, Francannet, Christine, Gérard, Bénédicte, Jeanne, Corinne, Joubert, Madeleine, Journel, Hubert, Laurichesse Delmas, Hélène, Layet, Valérie, Liquier, Alain, Mangione, Raphaele, Patrier, Sophie, Pelluard, Fanny, Petit, Florence, Tillouche, Nadia, Ravenswaaij‐Arts, Conny, Frebourg, Thierry, Saugier‐Veber, Pascale, Gruchy, Nicolas, Nicolas, Gaël, Gerard, Marion
Format:	Artikel
Sprache:	eng
Schlagworte:	caudal dysgenesis CDX2 CDX2 protein de novo mutation exome sequencing Heredity Heterozygotes Life Sciences Sirenomelia Wnt protein
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creator	Lecoquierre, François Brehin, Anne‐Claire Coutant, Sophie Coursimault, Juliette Bazin, Anne Finck, Wilfrid Benoist, Guillaume Begorre, Marianne Beneteau, Claire Cailliez, Daniel Chenal, Pierre De Jong, Mirjam Degré, Sophie Devisme, Louise Francannet, Christine Gérard, Bénédicte Jeanne, Corinne Joubert, Madeleine Journel, Hubert Laurichesse Delmas, Hélène Layet, Valérie Liquier, Alain Mangione, Raphaele Patrier, Sophie Pelluard, Fanny Petit, Florence Tillouche, Nadia Ravenswaaij‐Arts, Conny Frebourg, Thierry Saugier‐Veber, Pascale Gruchy, Nicolas Nicolas, Gaël Gerard, Marion
description	Sirenomelia is a rare severe malformation sequence of unknown cause characterized by fused legs and severe visceral abnormalities. We present a series of nine families including two rare familial aggregations of sirenomelia investigated by a trio‐based exome sequencing strategy. This approach identified CDX2 variants in the two familial aggregations, both fitting an autosomal dominant pattern of inheritance with variable expressivity. CDX2 is a major regulator of caudal development in vertebrate and mouse heterozygotes are a previously described model of sirenomelia. Remarkably, the p.(Arg237His) variant has already been reported in a patient with persistent cloaca. Analysis of the sporadic cases revealed six additional candidate variants including a de novo frameshift variant in the genetically constrained NKD1 gene, encoding a known interactor of CDX2. We provide the first insights for a genetic contribution in human sirenomelia and highlight the role of Cdx and Wnt signaling pathways in the development of this disorder.
doi_str_mv	10.1002/humu.23998
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subjects	caudal dysgenesis CDX2 CDX2 protein de novo mutation exome sequencing Heredity Heterozygotes Life Sciences Sirenomelia Wnt protein
title	Exome sequencing identifies the first genetic determinants of sirenomelia in humans
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