Mutations in the TGFβ Binding-Protein-Like Domain 5 of FBN1 Are Responsible for Acromicric and Geleophysic Dysplasias | Zendy

Carine Le Goff | Zendy; Clémentine Mahaut | Zendy; Lauren W. Wang | Zendy; Slimane Allali | Zendy; Avinash Abhyankar | Zendy; Sacha A. Jensen | Zendy; Louise Zylberberg | Zendy; Gwenaëlle CollodBéroud | Zendy; Damien Bonnet | Zendy; Yasemin Alanay | Zendy; Angela F. Brady | Zendy; MariePierre Cordier | Zendy; Koenraad Devriendt | Zendy; David Geneviève | Zendy; Pelin Özlem ŞimşekKiper | Zendy; Hiroshi Kitoh | Zendy; Deborah Krakow | Zendy; Sally Ann Lynch | Zendy; M Le Merrer | Zendy; André Mégarbané | Zendy; Geert Mortier | Zendy; Sylvie Odent | Zendy; Michel Polak | Zendy; Marianne Rohrbach | Zendy; David Sillence | Zendy; Irene StolteDijkstra | Zendy; Andrea SupertiFurga | Zendy; David L. Rimoin | Zendy; Vicken Topouchian | Zendy; Sheila Unger | Zendy; Bernhard Zabel | Zendy; Christine BôleFeysot | Zendy; Patrick Nitschké | Zendy; Penny A. Handford | Zendy; JeanLaurent Casanova | Zendy; Cathérine Boileau | Zendy; Suneel Apte | Zendy; Arnold Münnich | Zendy; Valérie CormierDaire | Zendy

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Mutations in the TGFβ Binding-Protein-Like Domain 5 of FBN1 Are Responsible for Acromicric and Geleophysic Dysplasias

Author(s) -

Carine Le Goff,

Clémentine Mahaut,

Lauren W. Wang,

Slimane Allali,

Avinash Abhyankar,

Sacha A. Jensen,

Louise Zylberberg,

Gwenaëlle CollodBéroud,

Damien Bonnet,

Yasemin Alanay,

Angela F. Brady,

MariePierre Cordier,

Koenraad Devriendt,

David Geneviève,

Pelin Özlem ŞimşekKiper,

Hiroshi Kitoh,

Deborah Krakow,

Sally Ann Lynch,

M Le Merrer,

André Mégarbané,

Geert Mortier,

Sylvie Odent,

Michel Polak,

Marianne Rohrbach,

David Sillence,

Irene StolteDijkstra,

Andrea SupertiFurga,

David L. Rimoin,

Vicken Topouchian,

Sheila Unger,

Bernhard Zabel,

Christine BôleFeysot,

Patrick Nitschké,

Penny A. Handford,

JeanLaurent Casanova,

Cathérine Boileau,

Suneel Apte,

Arnold Münnich,

Valérie CormierDaire

Publication year - 2011

Publication title -

the american journal of human genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.661

H-Index - 302

eISSN - 1537-6605

pISSN - 0002-9297

DOI - 10.1016/j.ajhg.2011.05.012

Subject(s) - fibrillin , arachnodactyly , marfan syndrome , short stature , exon , phenotype , genetics , mutation , exome sequencing , gene , biology , dysplasia , transforming growth factor , medicine , microbiology and biotechnology , endocrinology

Geleophysic (GD) and acromicric dysplasia (AD) belong to the acromelic dysplasia group and are both characterized by severe short stature, short extremities, and stiff joints. Although AD has an unknown molecular basis, we have previously identified ADAMTSL2 mutations in a subset of GD patients. After exome sequencing in GD and AD cases, we selected fibrillin 1 (FBN1) as a candidate gene, even though mutations in this gene have been described in Marfan syndrome, which is characterized by tall stature and arachnodactyly. We identified 16 heterozygous FBN1 mutations that are all located in exons 41 and 42 and encode TGFβ-binding protein-like domain 5 (TB5) of FBN1 in 29 GD and AD cases. Microfibrillar network disorganization and enhanced TGFβ signaling were consistent features in GD and AD fibroblasts. Importantly, a direct interaction between ADAMTSL2 and FBN1 was demonstrated, suggesting a disruption of this interaction as the underlying mechanism of GD and AD phenotypes. Although enhanced TGFβ signaling caused by FBN1 mutations can trigger either Marfan syndrome or GD and AD, our findings support the fact that TB5 mutations in FBN1 are responsible for short stature phenotypes.

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