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WDR90 is a centriolar microtubule wall protein important for centriole architecture integrity

Emmanuelle Steib, Marine H. Laporte, Davide Gambarotto, Natacha Olieric, Céline Zheng, Susanne Borgers, Vincent Oliéric, Maeva Le Guennec, France Koll, Anne‐Marie Tassin, Michel O. Steinmetz, Paul Guichard, Virginie Hamel

2020eLife65 citationsDOIOpen Access PDF

Abstract

Centrioles are characterized by a nine-fold arrangement of microtubule triplets held together by an inner protein scaffold. These structurally robust organelles experience strenuous cellular processes such as cell division or ciliary beating while performing their function. However, the molecular mechanisms underlying the stability of microtubule triplets, as well as centriole architectural integrity remain poorly understood. Here, using ultrastructure expansion microscopy for nanoscale protein mapping, we reveal that POC16 and its human homolog WDR90 are components of the microtubule wall along the central core region of the centriole. We further found that WDR90 is an evolutionary microtubule associated protein. Finally, we demonstrate that WDR90 depletion impairs the localization of inner scaffold components, leading to centriole structural abnormalities in human cells. Altogether, this work highlights that WDR90 is an evolutionary conserved molecular player participating in centriole architecture integrity.

Topics & Concepts

CentrioleCell biologyMicrotubuleBasal bodyBiologyCiliumOrganelleScaffold proteinCentrosomeMotile ciliumMicrotubule-associated proteinCellFlagellumGeneticsCell cycleSignal transductionGeneMicrotubule and mitosis dynamicsGenetic and Kidney Cyst DiseasesProtist diversity and phylogeny
WDR90 is a centriolar microtubule wall protein important for centriole architecture integrity | Litcius