TALPID3 controls centrosome and cell polarity and the human ortholog KIAA0586 is mutated in Joubert syndrome (JBTS23)

6533b839fe1ef96bd12a5b0f

RESEARCH PRODUCT

TALPID3 controls centrosome and cell polarity and the human ortholog KIAA0586 is mutated in Joubert syndrome (JBTS23)

Eugen Boltshauser André Reis Peter Nürnberg Amy M. Fraser Pleasantine Mill Gemma M. Davis Uwe Wolfrum Oliver Rompel Arif B. Ekici Steffen Uebe Rami Abou Jamra Lynn Mcteir Hanno J. Bolz Emma Hall Courtney Cross Lars Tebbe Gudrun Nürnberg Michaela Thoenes Nicolas Daudet Hasan Tawamie Megan G. Davey Holger Thiele Louise A. Stephen

subject

QH301-705.5 chicken Science Population Cell Cycle Proteins Biology medicine.disease_cause Retina General Biochemistry Genetics and Molecular Biology Joubert syndrome Mice Talpid3 Cerebellum Joubert syndrome Ciliogenesis medicine Animals Humans Basal body Abnormalities Multiple human Eye Abnormalities Biology (General)Human Biology and Medicine education mouse Genetics Mutation education.field_of_study General Immunology and Microbiology General Neuroscience Cilium Q R General Medicine Kidney Diseases Cystic medicine.disease KIAA0586 3. Good health Disease Models Animal cell polarity Ciliopathy Developmental Biology and Stem Cells ciliopathy centrosome Centrosome Mutation Medicine Research Article

description

Joubert syndrome (JBTS) is a severe recessive neurodevelopmental ciliopathy which can affect several organ systems. Mutations in known JBTS genes account for approximately half of the cases. By homozygosity mapping and whole-exome sequencing, we identified a novel locus, JBTS23, with a homozygous splice site mutation in KIAA0586 (alias TALPID3), a known lethal ciliopathy locus in model organisms. Truncating KIAA0586 mutations were identified in two additional patients with JBTS. One mutation, c.428delG (p.Arg143Lysfs*4), is unexpectedly common in the general population and may be a major contributor to JBTS. We demonstrate KIAA0586 protein localization at the basal body in human and mouse photoreceptors, as is common for JBTS proteins, and also in pericentriolar locations. We show that loss of TALPID3 (KIAA0586) function in animal models causes abnormal tissue polarity, centrosome length and orientation, and centriolar satellites. We propose that JBTS and other ciliopathies may in part result from cell polarity defects. DOI: http://dx.doi.org/10.7554/eLife.08077.001

year	journal	country	edition	language
2015-09-01	eLife

https://doi.org/10.7554/elife.08077