TY - JOUR
T1 - The kinetochore protein, CENPF, is mutated in human ciliopathy and microcephaly phenotypes
AU - Waters, Aoife M.
AU - Asfahani, Rowan
AU - Carroll, Paula
AU - Bicknell, Louise
AU - Lescai, Francesco
AU - Bright, Alison
AU - Chanudet, Estelle
AU - Brooks, Anthony
AU - Christou-Savina, Sonja
AU - Osman, Guled
AU - Walsh, Patrick
AU - Bacchelli, Chiara
AU - Chapgier, Ariane
AU - Vernay, Bertrand
AU - Bader, David M.
AU - Deshpande, Charu
AU - O'Sullivan, Mary
AU - Ocaka, Louise
AU - Stanescu, Horia
AU - Stewart, Helen S.
AU - Hildebrandt, Friedhelm
AU - Otto, Edgar
AU - Johnson, Colin A.
AU - Szymanska, Katarzyna
AU - Katsanis, Elias Nicholas
AU - Davis, Erica Ellen
AU - Kleta, Robert
AU - Hubank, Mike
AU - Doxsey, Stephen
AU - Jackson, Andrew
AU - Stupka, Elia
AU - Winey, Mark
AU - Beales, Philip L.
PY - 2015
Y1 - 2015
N2 - Background: Mutations in microtubule-regulating genes are associated with disorders of neuronal migration and microcephaly. Regulation of centriole length has been shown to underlie the pathogenesis of certain ciliopathy phenotypes. Using a next-generation sequencing approach, we identified mutations in a novel centriolar disease gene in a kindred with an embryonic lethal ciliopathy phenotype and in a patient with primary microcephaly. Methods and results: Whole exome sequencing data from a non-consanguineous Caucasian kindred exhibiting mid-gestation lethality and ciliopathic malformations revealed two novel non-synonymous variants in CENPF, a microtubule-regulating gene. All four affected fetuses showed segregation for two mutated alleles [IVS5-2A>C, predicted to abolish the consensus splice-acceptor site from exon 6; c.1744G>T, p.E582X]. In a second unrelated patient exhibiting microcephaly, we identified two CENPF mutations [c.1744G>T, p.E582X; c.8692 C>T, p.R2898X] by whole exome sequencing. We found that CENP-F colocalised with Ninein at the subdistal appendages of the mother centriole in mouse inner medullary collecting duct cells. Intraflagellar transport protein-88 (IFT-88) colocalised with CENP-F along the ciliary axonemes of renal epithelial cells in age-matched control human fetuses but did not in truncated cilia of mutant CENPF kidneys. Pairwise co-immunoprecipitation assays of mitotic and serum-starved HEKT293 cells confirmed that IFT88 precipitates with endogenous CENP-F. Conclusions: Our data identify CENPF as a new centriolar disease gene implicated in severe human ciliopathy and microcephaly related phenotypes. CENP-F has a novel putative function in ciliogenesis and cortical neurogenesis.
AB - Background: Mutations in microtubule-regulating genes are associated with disorders of neuronal migration and microcephaly. Regulation of centriole length has been shown to underlie the pathogenesis of certain ciliopathy phenotypes. Using a next-generation sequencing approach, we identified mutations in a novel centriolar disease gene in a kindred with an embryonic lethal ciliopathy phenotype and in a patient with primary microcephaly. Methods and results: Whole exome sequencing data from a non-consanguineous Caucasian kindred exhibiting mid-gestation lethality and ciliopathic malformations revealed two novel non-synonymous variants in CENPF, a microtubule-regulating gene. All four affected fetuses showed segregation for two mutated alleles [IVS5-2A>C, predicted to abolish the consensus splice-acceptor site from exon 6; c.1744G>T, p.E582X]. In a second unrelated patient exhibiting microcephaly, we identified two CENPF mutations [c.1744G>T, p.E582X; c.8692 C>T, p.R2898X] by whole exome sequencing. We found that CENP-F colocalised with Ninein at the subdistal appendages of the mother centriole in mouse inner medullary collecting duct cells. Intraflagellar transport protein-88 (IFT-88) colocalised with CENP-F along the ciliary axonemes of renal epithelial cells in age-matched control human fetuses but did not in truncated cilia of mutant CENPF kidneys. Pairwise co-immunoprecipitation assays of mitotic and serum-starved HEKT293 cells confirmed that IFT88 precipitates with endogenous CENP-F. Conclusions: Our data identify CENPF as a new centriolar disease gene implicated in severe human ciliopathy and microcephaly related phenotypes. CENP-F has a novel putative function in ciliogenesis and cortical neurogenesis.
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U2 - 10.1136/jmedgenet-2014-102691
DO - 10.1136/jmedgenet-2014-102691
M3 - Article
C2 - 25564561
AN - SCOPUS:84930616352
SN - 0022-2593
VL - 52
SP - 147
EP - 156
JO - Journal of medical genetics
JF - Journal of medical genetics
IS - 3
ER -