Literature DB >> 31735292

Mutations in TTC29, Encoding an Evolutionarily Conserved Axonemal Protein, Result in Asthenozoospermia and Male Infertility.

Patrick Lorès1, Denis Dacheux2, Zine-Eddine Kherraf3, Jean-Fabrice Nsota Mbango1, Charles Coutton4, Laurence Stouvenel1, Come Ialy-Radio1, Amir Amiri-Yekta5, Marjorie Whitfield1, Alain Schmitt1, Caroline Cazin6, Maëlle Givelet1, Lucile Ferreux7, Selima Fourati Ben Mustapha8, Lazhar Halouani8, Ouafi Marrakchi8, Abbas Daneshipour5, Elma El Khouri1, Marcio Do Cruzeiro1, Maryline Favier1, François Guillonneau1, Marhaba Chaudhry1, Zeinab Sakheli1, Jean-Philippe Wolf9, Catherine Patrat9, Gérard Gacon1, Sergey N Savinov10, Seyedeh Hanieh Hosseini11, Derrick R Robinson12, Raoudha Zouari8, Ahmed Ziyyat13, Christophe Arnoult6, Emmanuel Dulioust9, Mélanie Bonhivers12, Pierre F Ray3, Aminata Touré14.   

Abstract

In humans, structural or functional defects of the sperm flagellum induce asthenozoospermia, which accounts for the main sperm defect encountered in infertile men. Herein we focused on morphological abnormalities of the sperm flagellum (MMAF), a phenotype also termed "short tails," which constitutes one of the most severe sperm morphological defects resulting in asthenozoospermia. In previous work based on whole-exome sequencing of a cohort of 167 MMAF-affected individuals, we identified bi-allelic loss-of-function mutations in more than 30% of the tested subjects. In this study, we further analyzed this cohort and identified five individuals with homozygous truncating variants in TTC29, a gene preferentially and highly expressed in the testis, and encoding a tetratricopeptide repeat-containing protein related to the intraflagellar transport (IFT). One individual carried a frameshift variant, another one carried a homozygous stop-gain variant, and three carried the same splicing variant affecting a consensus donor site. The deleterious effect of this last variant was confirmed on the corresponding transcript and protein product. In addition, we produced and analyzed TTC29 loss-of-function models in the flagellated protist T. brucei and in M. musculus. Both models confirmed the importance of TTC29 for flagellar beating. We showed that in T. brucei the TPR structural motifs, highly conserved between the studied orthologs, are critical for TTC29 axonemal localization and flagellar beating. Overall our work demonstrates that TTC29 is a conserved axonemal protein required for flagellar structure and beating and that TTC29 mutations are a cause of male sterility due to MMAF.
Copyright © 2019 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  MMAF; TPR; TTC29; asthenozoospermia; flagella; infertility; mouse; sperm; trypanosome

Mesh:

Substances:

Year:  2019        PMID: 31735292      PMCID: PMC6904810          DOI: 10.1016/j.ajhg.2019.10.007

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


  70 in total

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