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Implementation of meiosis prophase I programme requires a conserved retinoid-independent stabilizer of meiotic transcripts

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  • Emilie Abby

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Sophie Tourpin

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Jonathan Ribeiro

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Katrin Daniel

    (Molecular Cell Biology Group/Experimental Center, Institute of Physiological Chemistry, Medical School, MTZ, Dresden University of Technology)

  • Sébastien Messiaen

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Delphine Moison

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Justine Guerquin

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Jean-Charles Gaillard

    (CEA, DSV/IBITEC-S/SPI/Li2D, Laboratory ‘Innovative Technologies for Detection and Diagnostic’, CEA-Marcoule)

  • Jean Armengaud

    (CEA, DSV/IBITEC-S/SPI/Li2D, Laboratory ‘Innovative Technologies for Detection and Diagnostic’, CEA-Marcoule)

  • Francina Langa

    (Centre d'Ingénierie Génétique Murine, Institut Pasteur)

  • Attila Toth

    (Molecular Cell Biology Group/Experimental Center, Institute of Physiological Chemistry, Medical School, MTZ, Dresden University of Technology)

  • Emmanuelle Martini

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

  • Gabriel Livera

    (Université Paris Diderot, Sorbonne Paris Cité, Laboratory of Development of the Gonads, Unit of Stem Cells and Radiation
    CEA, DSV, iRCM, SCSR, LDG
    INSERM, Unité 967
    Université Paris-Sud, UMR-967)

Abstract

Sexual reproduction is crucially dependent on meiosis, a conserved, specialized cell division programme that is essential for the production of haploid gametes. Here we demonstrate that fertility and the implementation of the meiotic programme require a previously uncharacterized meiosis-specific protein, MEIOC. Meioc invalidation in mice induces early and pleiotropic meiotic defects in males and females. MEIOC prevents meiotic transcript degradation and interacts with an RNA helicase that binds numerous meiotic mRNAs. Our results indicate that proper engagement into meiosis necessitates the specific stabilization of meiotic transcripts, a previously little-appreciated feature in mammals. Remarkably, the upregulation of MEIOC at the onset of meiosis does not require retinoic acid and STRA8 signalling. Thus, we propose that the complete induction of the meiotic programme requires both retinoic acid-dependent and -independent mechanisms. The latter process involving post-transcriptional regulation likely represents an ancestral mechanism, given that MEIOC homologues are conserved throughout multicellular animals.

Suggested Citation

  • Emilie Abby & Sophie Tourpin & Jonathan Ribeiro & Katrin Daniel & Sébastien Messiaen & Delphine Moison & Justine Guerquin & Jean-Charles Gaillard & Jean Armengaud & Francina Langa & Attila Toth & Emma, 2016. "Implementation of meiosis prophase I programme requires a conserved retinoid-independent stabilizer of meiotic transcripts," Nature Communications, Nature, vol. 7(1), pages 1-16, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10324
    DOI: 10.1038/ncomms10324
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    Cited by:

    1. Mengwen Hu & Yu-Han Yeh & Yasuhisa Munakata & Hironori Abe & Akihiko Sakashita & So Maezawa & Miguel Vidal & Haruhiko Koseki & Neil Hunter & Richard M. Schultz & Satoshi H. Namekawa, 2022. "PRC1-mediated epigenetic programming is required to generate the ovarian reserve," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    2. Miguel Angel Brieño-Enríquez & Mariela Faykoo-Martinez & Meagan Goben & Jennifer K. Grenier & Ashley McGrath & Alexandra M. Prado & Jacob Sinopoli & Kate Wagner & Patrick T. Walsh & Samia H. Lopa & Di, 2023. "Postnatal oogenesis leads to an exceptionally large ovarian reserve in naked mole-rats," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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