Human IFT52 Mutations Uncover a Novel Role for the Protein in Microtubule Dynamics and Centrosome Cohesion

Overview

Journal Hum Mol Genet

Specialties Genetics
Molecular Biology

Date 2019 May 2

PMID 31042281

Citations 15

Authors

Marie Alice Dupont

Camille Humbert

Celine Huber

Quentin Siour

Ida Chiara Guerrera

Vincent Jung

Anni Christensen

Aurore Pouliet

Meriem Garfa-Traore

Patrick Nitschke

Marie Injeyan

Kathryn Millar

David Chitayat

Patrick Shannon

Katta Mohan Girisha

Anju Shukla

Charlotte Mechler

Esben Lorentzen

Alexandre Benmerah

Valerie Cormier-Daire

Cecile Jeanpierre

Sophie Saunier

Marion Delous

Affiliations

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Abstract

Mutations in genes encoding components of the intraflagellar transport (IFT) complexes have previously been associated with a spectrum of diseases collectively termed ciliopathies. Ciliopathies relate to defects in the formation or function of the cilium, a sensory or motile organelle present on the surface of most cell types. IFT52 is a key component of the IFT-B complex and ensures the interaction of the two subcomplexes, IFT-B1 and IFT-B2. Here, we report novel IFT52 biallelic mutations in cases with a short-rib thoracic dysplasia (SRTD) or a congenital anomaly of kidney and urinary tract (CAKUT). Combining in vitro and in vivo studies in zebrafish, we showed that SRTD-associated missense mutation impairs IFT-B complex assembly and IFT-B2 ciliary localization, resulting in decreased cilia length. In comparison, CAKUT-associated missense mutation has a mild pathogenicity, thus explaining the lack of skeletal defects in CAKUT case. In parallel, we demonstrated that the previously reported homozygous nonsense IFT52 mutation associated with Sensenbrenner syndrome [Girisha et al. (2016) A homozygous nonsense variant in IFT52 is associated with a human skeletal ciliopathy. Clin. Genet., 90, 536-539] leads to exon skipping and results in a partially functional protein. Finally, our work uncovered a novel role for IFT52 in microtubule network regulation. We showed that IFT52 interacts and partially co-localized with centrin at the distal end of centrioles where it is involved in its recruitment and/or maintenance. Alteration of this function likely contributes to centriole splitting observed in Ift52-/- cells. Altogether, our findings allow a better comprehensive genotype-phenotype correlation among IFT52-related cases and revealed a novel, extra-ciliary role for IFT52, i.e. disruption may contribute to pathophysiological mechanisms.

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