Abstract
BackgroundSkeletal ciliopathies comprise a spectrum of ciliary malfunction disorders that have a profound effect on the skeleton. Most common among these disorders is short rib polydactyly syndrome (SRPS), a recessively inherited perinatal lethal condition characterized by a long narrow chest, markedly shortened long bones, polydactyly and, often, multi-organ system involvement. SRPS shows extensive locus heterogeneity with mutations in genes encoding proteins that participate in cilia formation and/or function.ResultsHerein we describe mutations in IFT43, a satellite member of the retrograde IFT-A complex, that produce a form of SRPS with unusual bending of the ribs and appendicular bones. These newly described IFT43 mutations disrupted cilia formation, produced abnormalities in cartilage growth plate architecture thus contributing to altered endochondral ossification. We further show that the IFT43 SRPS phenotype is similar to SRPS resulting from mutations in the gene encoding IFT121 (WDR35), a direct interactor with IFT43.ConclusionsThis study defines a new IFT43-associated phenotype, identifying an additional locus for SRPS. The data demonstrate that IFT43 is essential for ciliogenesis and that the mutations disrupted the orderly proliferation and differentiation of growth plate chondrocytes, resulting in a severe effect on endochondral ossification and mineralization. Phenotypic similarities with SRPS cases resulting from mutations in the gene encoding the IFT43 direct interacting protein IFT121 suggests that similar mechanisms may be disrupted by defects in these two IFT-A satellite interactors.
Highlights
Skeletal ciliopathies comprise a spectrum of ciliary malfunction disorders that have a profound effect on the skeleton
Clinical and radiographic findings We identified three cases from two families (International Skeletal Dysplasia Registry reference numbers R03-121A and R06-303A and R06-303E) with prenatal findings consistent with short rib polydactyly syndrome (SRPS) (Table 2)
The data presented here demonstrate that IFT43 and IFT121 mutations produce a similar and unique form of SRPS characterized by appendicular and axial campomelia and undermineralization of the skeleton
Summary
Skeletal ciliopathies comprise a spectrum of ciliary malfunction disorders that have a profound effect on the skeleton. Most common among these disorders is short rib polydactyly syndrome (SRPS), a recessively inherited perinatal lethal condition characterized by a long narrow chest, markedly shortened long bones, polydactyly and, often, multi-organ system involvement. A spectrum of skeletal dysplasias results from mutations in genes that participate in primary cilia formation and/or function. These disorders are referred to as ciliary disorders of the skeleton or skeletal ciliopathies [1]. Asphyxiating thoracic dystrophy (ATD) is phenotypically similar to SRPS, but with less severe overall features, and about one-third of affected individuals survive the neonatal period [2]
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
