<i>TUBB4B</i>variants specifically impact ciliary function, causing a ciliopathic spectrum

Abstract Cilia are small microtubule-based structures found on the surface of most mammalian cells, which have key sensory and sometimes motile functions. Primary ciliary dyskinesia (PCD) is a type of ciliopathy caused by defects in motile cilia. The genetic basis of PCD is only partially understood. Studying a cohort of 11 human patients with PCD, we find thatde novomutations inTUBB4B, a beta tubulin isotype, cause three distinct classes of ciliopathic disease.In vivostudies in mice show thatTubb4bplays a specific role in cilia, building centrioles and axonemes in multiciliated cells. Examining the effects of specific TUBB4B variants in cells and in mice, we further demonstrate that distinctTUBB4Bmutations differentially affect microtubule dynamics and cilia formation in a dominant negative manner. Finally, structure-function studies reveal that different TUBB4B mutations disrupt distinct tubulin interfaces. Importantly, these molecular differences correlate with disease features. We show that tubulin heterodimer-impairing TUBB4B variants underlie nonsyndromic PCD, whilst additional renal and sensorineural ciliopathic features in a syndromic PCD subtype arise from microtubule lumenal interface-impaired TUBB4B variants. These findings suggest that specific tubulin isotypes have distinct and non-redundant subcellular functions, and demonstrate that human tubulinopathies can be drivers of ciliopathic syndromes..

Medienart:

Preprint

Erscheinungsjahr:

2023

Erschienen:

2023

Enthalten in:

bioRxiv.org - (2023) vom: 10. März Zur Gesamtaufnahme - year:2023

Sprache:

Englisch

Beteiligte Personen:

Mechaussier, Sabrina [VerfasserIn]
Dodd, Daniel O [VerfasserIn]
Yeyati, Patricia L [VerfasserIn]
McPhie, Fraser [VerfasserIn]
Attard, Thomas [VerfasserIn]
Shoemark, Amelia [VerfasserIn]
Gupta, Deepesh K [VerfasserIn]
Zariwala, Maimoona A [VerfasserIn]
Legendre, Marie [VerfasserIn]
Bracht, Diana [VerfasserIn]
Wallmeier, Julia [VerfasserIn]
Gui, Miao [VerfasserIn]
Anderson, Jacob R [VerfasserIn]
Fassad, Mahmoud R [VerfasserIn]
Parry, David A [VerfasserIn]
Tennant, Peter A [VerfasserIn]
Meynert, Alison [VerfasserIn]
Wheway, Gabrielle [VerfasserIn]
Fares-Taie, Lucas [VerfasserIn]
Black, Holly A [VerfasserIn]
Mitri-Frangieh, Rana [VerfasserIn]
Faucon, Catherine [VerfasserIn]
Kaplan, Josseline [VerfasserIn]
Patel, Mitali [VerfasserIn]
McKie, Lisa [VerfasserIn]
Megaw, Roly [VerfasserIn]
Gatsogiannis, Christos [VerfasserIn]
Mohamed, Mai A [VerfasserIn]
Aitken, Stuart [VerfasserIn]
Gautier, Philippe [VerfasserIn]
Reinholt, Finn R [VerfasserIn]
Hirst, Robert A [VerfasserIn]
O’Callaghan, Chris [VerfasserIn]
Heimdal, Ketil [VerfasserIn]
Bottier, Mathieu [VerfasserIn]
Escudier, Estelle [VerfasserIn]
Crowley, Suzanne [VerfasserIn]
Descartes, Maria [VerfasserIn]
Jabs, Ethylin W [VerfasserIn]
Kenia, Priti [VerfasserIn]
Amiel, Jeanne [VerfasserIn]
Blümlein, Ulrike [VerfasserIn]
Rogers, Andrew [VerfasserIn]
Wambach, Jennifer A [VerfasserIn]
Wegner, Daniel J [VerfasserIn]
Fulton, Anne B [VerfasserIn]
Kenna, Margaret [VerfasserIn]
Rosenfeld, Margaret [VerfasserIn]
Holm, Ingrid A [VerfasserIn]
Quigley, Alan [VerfasserIn]
Cassidy, Diana M [VerfasserIn]
von Kriegsheim, Alex [VerfasserIn]
Papon, Jean-Francois [VerfasserIn]
Pasquier, Laurent [VerfasserIn]
Murris, Marlène S [VerfasserIn]
Chalmers, James D [VerfasserIn]
Hogg, Clare [VerfasserIn]
Macleod, Kenneth [VerfasserIn]
Urquhart, Don S [VerfasserIn]
Unger, Stefan [VerfasserIn]
Aitman, Timothy J [VerfasserIn]
Amselem, Serge [VerfasserIn]
Rozet, Jean-Michel [VerfasserIn]
Amselem, Serge [VerfasserIn]
Leigh, Margaret W [VerfasserIn]
Knowles, Michael R. [VerfasserIn]
Omran, Heymut [VerfasserIn]
Mitchison, Hannah M [VerfasserIn]
Brown, Alan [VerfasserIn]
Marsh, Joseph A [VerfasserIn]
Welburn, Julie P I [VerfasserIn]
Horani, Amjad [VerfasserIn]
Rozet, Jean-Michel [VerfasserIn]
Perrault, Isabelle [VerfasserIn]
Mill, Pleasantine [VerfasserIn]

Links:

Volltext [kostenfrei]

Themen:

570
Biology

doi:

10.1101/2022.10.19.22280748

funding:

Förderinstitution / Projekttitel:

PPN (Katalog-ID):

XBI037717790

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