1. Noncoding copy-number variations are associated with congenital limb malformation
- Author
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Aleksander Jamsheer, Stefan Mundlos, Laure Bosquillon de Jarcy, Anna Sowińska-Seidler, Lila Allou, Meredith Wilson, Barbara Oehl-Jaschkowitz, Magdalena Socha, Idit Maya, Roger Mountford, Denise Horn, Malte Spielmann, Wiebke Hülsemann, Johannes Wagner, Fernando Santos-Simarro, Bjørt K Kragesteen, Eva Klopocki, Pablo Lapunzina, Guntram Borck, Lars Wittler, Ingo Kurth, Denis Duboule, Alan Fryer, Deepthi De Silva, Bénédicte Mascrez, Ricarda Flöttmann, and Sinje Geuer
- Subjects
0301 basic medicine ,Genetics ,congenital, hereditary, and neonatal diseases and abnormalities ,endocrine system diseases ,Genome-wide association study ,Biology ,Genome ,Gene dosage ,Phenotype ,03 medical and health sciences ,030104 developmental biology ,mental disorders ,CRISPR ,Copy-number variation ,Enhancer ,Gene ,Genetics (clinical) - Abstract
PurposeCopy-number variants (CNVs) are generally interpreted by linking the effects of gene dosage with phenotypes. The clinical interpretation of noncoding CNVs remains challenging. We investigated the percentage of disease-associated CNVs in patients with congenital limb malformations that affect noncoding cis-regulatory sequences versus genes sensitive to gene dosage effects.MethodsWe applied high-resolution copy-number analysis to 340 unrelated individuals with isolated limb malformation. To investigate novel candidate CNVs, we re-engineered human CNVs in mice using clustered regularly interspaced short palindromic repeats (CRISPR)-based genome editing.ResultsOf the individuals studied, 10% harbored CNVs segregating with the phenotype in the affected families. We identified 31 CNVs previously associated with congenital limb malformations and four novel candidate CNVs. Most of the disease-associated CNVs (57%) affected the noncoding cis-regulatory genome, while only 43% included a known disease gene and were likely to result from gene dosage effects. In transgenic mice harboring four novel candidate CNVs, we observed altered gene expression in all cases, indicating that the CNVs had a regulatory effect either by changing the enhancer dosage or altering the topological associating domain architecture of the genome.ConclusionOur findings suggest that CNVs affecting noncoding regulatory elements are a major cause of congenital limb malformations.
- Published
- 2018