Identification of three novel FGF16 mutations in X‐linked recessive fusion of the fourth and fifth metacarpals and possible correlation with heart disease

Nonsense mutations in FGF16 have recently been linked to X‐linked recessive hand malformations with fusion between the fourth and the fifth metacarpals and hypoplasia of the fifth digit (MF4; MIM#309630). The purpose of this study was to perform careful clinical phenotyping and to define molecular m...

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Bibliographic Details
Published in:Molecular genetics & genomic medicine 2014-09, Vol.2 (5), p.402-411
Main Authors: Laurell, Tobias, Nilsson, Daniel, Hofmeister, Wolfgang, Lindstrand, Anna, Ahituv, Nadav, Vandermeer, Julia, Amilon, Anders, Annerén, Göran, Arner, Marianne, Pettersson, Maria, Jäntti, Nina, Rosberg, Hans‐Eric, Cattini, Peter A., Nordenskjöld, Agneta, Mäkitie, Outi, Grigelioniene, Giedre, Nordgren, Ann
Format: Article
Language:English
Subjects:
Basic Medicine
Binding sites
Cardiovascular disease
Cardiovascular diseases
Coronary artery disease
Danio rerio
FGF16
Fibrillation
Genomes
Genotype & phenotype
Growth factors
Heart
Heart attacks
Heart diseases
Hypoplasia
Kinases
Medical and Health Sciences
Medical Genetics
Medical research
Medicin och hälsovetenskap
Medicinsk genetik
Medicinska och farmaceutiska grundvetenskaper
metacarpal fusion
MF4
Molecular modelling
Mutation
Myocardial infarction
Original
Phenotypes
Phenotyping
R&D
Research & development
Zebrafish
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Summary:Nonsense mutations in FGF16 have recently been linked to X‐linked recessive hand malformations with fusion between the fourth and the fifth metacarpals and hypoplasia of the fifth digit (MF4; MIM#309630). The purpose of this study was to perform careful clinical phenotyping and to define molecular mechanisms behind X‐linked recessive MF4 in three unrelated families. We performed whole‐exome sequencing, and identified three novel mutations in FGF16. The functional impact of FGF16 loss was further studied using morpholino‐based suppression of fgf16 in zebrafish. In addition, clinical investigations revealed reduced penetrance and variable expressivity of the MF4 phenotype. Cardiac disorders, including myocardial infarction and atrial fibrillation followed the X‐linked FGF16 mutated trait in one large family. Our findings establish that a mutation in exon 1, 2 or 3 of FGF16 results in X‐linked recessive MF4 and expand the phenotypic spectrum of FGF16 mutations to include a possible correlation with heart disease. Nonsense mutations in FGF16 have recently been linked to X‐linked recessive hand malformations with fusion between the fourth and the fifth metacarpals and hypoplasia of the fifth digit (MF4; MIM#309630). The purpose of this study was to perform careful clinical phenotyping and to define molecular mechanisms behind X‐linked recessive MF4 in three unrelated families. We performed whole‐exome sequencing, and identified three novel mutations in FGF16. The functional impact of the identified FGF16 changes were confirmed using mutated human FGF16 message and morpholino‐based suppression of Fgf16 in zebrafish. In addition, clinical investigations revealed reduced penetrance and variable expressivity of the MF4 phenotype. Cardiac disorders, including myocardial infarction and atrial fibrillation followed the X‐linked FGF16 mutated trait in one large family. Our findings establish that a mutation in exon 1, 2 or 3 of FGF16 results in X‐linked recessive MF4 and expand the phenotypic spectrum of FGF16 mutations to include a possible correlation with heart disease.
ISSN:2324-9269
2324-9269
DOI:10.1002/mgg3.81