Mutations in DYNC2LI1 disrupt cilia function and cause short rib polydactyly syndrome

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作者
S. Paige Taylor
Tiago J. Dantas
Ivan Duran
Sulin Wu
Ralph S. Lachman
Stanley F. Nelson
Daniel H. Cohn
Richard B. Vallee
Deborah Krakow
机构
[1] University of California,Department of Human Genetics
[2] Los Angeles,Department of Pathology and Cell Biology
[3] Columbia University,Department of Orthopaedic Surgery and Orthopaedic Institute for Children
[4] University of California,Department of Pathology and Laboratory Medicine
[5] Los Angeles,Department of Molecular
[6] International Skeletal Dysplasia Registry,Division of Genetic Medicine, Department of Pediatrics
[7] University of California,Department of Genome Sciences
[8] Los Angeles,undefined
[9] University of California,undefined
[10] Los Angeles,undefined
[11] Cell,undefined
[12] and Developmental Biology,undefined
[13] University of California,undefined
[14] Los Angeles,undefined
[15] University of Washington,undefined
[16] University of Washington,undefined
来源
Nature Communications | / 6卷
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摘要
The short rib polydactyly syndromes (SRPSs) are a heterogeneous group of autosomal recessive, perinatal lethal skeletal disorders characterized primarily by short, horizontal ribs, short limbs and polydactyly. Mutations in several genes affecting intraflagellar transport (IFT) cause SRPS but they do not account for all cases. Here we identify an additional SRPS gene and further unravel the functional basis for IFT. We perform whole-exome sequencing and identify mutations in a new disease-producing gene, cytoplasmic dynein-2 light intermediate chain 1, DYNC2LI1, segregating with disease in three families. Using primary fibroblasts, we show that DYNC2LI1 is essential for dynein-2 complex stability and that mutations in DYNC2LI1 result in variable length, including hyperelongated, cilia, Hedgehog pathway impairment and ciliary IFT accumulations. The findings in this study expand our understanding of SRPS locus heterogeneity and demonstrate the importance of DYNC2LI1 in dynein-2 complex stability, cilium function, Hedgehog regulation and skeletogenesis.
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