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  • TTC12 Loss-of-Function Mutations Cause Primary Ciliary Dyskinesia and Unveil Distinct Dynein Assembly Mechanisms in Motile Cilia Versus Flagella.

TTC12 Loss-of-Function Mutations Cause Primary Ciliary Dyskinesia and Unveil Distinct Dynein Assembly Mechanisms in Motile Cilia Versus Flagella.

American journal of human genetics (2020-01-25)
Lucie Thomas, Khaled Bouhouche, Marjorie Whitfield, Guillaume Thouvenin, Andre Coste, Bruno Louis, Claire Szymanski, Emilie Bequignon, Jean-François Papon, Manon Castelli, Michel Lemullois, Xavier Dhalluin, Valérie Drouin-Garraud, Guy Montantin, Sylvie Tissier, Philippe Duquesnoy, Bruno Copin, Florence Dastot, Sandrine Couvet, Anne-Laure Barbotin, Catherine Faucon, Isabelle Honore, Bernard Maitre, Nicole Beydon, Aline Tamalet, Nathalie Rives, France Koll, Estelle Escudier, Anne-Marie Tassin, Aminata Touré, Valérie Mitchell, Serge Amselem, Marie Legendre
RÉSUMÉ

Cilia and flagella are evolutionarily conserved organelles whose motility relies on the outer and inner dynein arm complexes (ODAs and IDAs). Defects in ODAs and IDAs result in primary ciliary dyskinesia (PCD), a disease characterized by recurrent airway infections and male infertility. PCD mutations in assembly factors have been shown to cause a combined ODA-IDA defect, affecting both cilia and flagella. We identified four loss-of-function mutations in TTC12, which encodes a cytoplasmic protein, in four independent families in which affected individuals displayed a peculiar PCD phenotype characterized by the absence of ODAs and IDAs in sperm flagella, contrasting with the absence of only IDAs in respiratory cilia. Analyses of both primary cells from individuals carrying TTC12 mutations and human differentiated airway cells invalidated for TTC12 by a CRISPR-Cas9 approach revealed an IDA defect restricted to a subset of single-headed IDAs that are different in flagella and cilia, whereas TTC12 depletion in the ciliate Paramecium tetraurelia recapitulated the sperm phenotype. Overall, our study, which identifies TTC12 as a gene involved in PCD, unveils distinct dynein assembly mechanisms in human motile cilia versus flagella.

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