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Inactivation of cytidine triphosphate synthase 1 prevents fatal auto-immunity in mice

Author

Listed:
  • Claire Soudais

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

  • Romane Schaus

    (Inserm UMR 1163, Institut Imagine)

  • Camille Bachelet

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

  • Norbert Minet

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

  • Sara Mouasni

    (Laboratory of Molecular Basis of Altered Immune Homeostasis Inserm UMR 1163, Institut Imagine)

  • Cécile Garcin

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

  • Caique Lopes Souza

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

  • Pierre David

    (Institut Imagine-Structure Fédérative de Recherche Necker INSERM US24/CNRS)

  • Clara Cousu

    (Université Paris Cité, CNRS UMR 8253, INSERM U1151, Institut Necker Enfants Malades)

  • Hélène Asnagli

    (Technoparc du Pays-de-Gex)

  • Andrew Parker

    (Technoparc du Pays-de-Gex)

  • Paul Palmquist-Gomes

    (Université de Paris Cité
    INSERM UMR1163)

  • Fernando E. Sepulveda

    (Laboratory of Molecular Basis of Altered Immune Homeostasis Inserm UMR 1163, Institut Imagine)

  • Sébastien Storck

    (Université Paris Cité, CNRS UMR 8253, INSERM U1151, Institut Necker Enfants Malades)

  • Sigolène M. Meilhac

    (Université de Paris Cité
    INSERM UMR1163)

  • Alain Fischer

    (Inserm UMR 1163, Institut Imagine
    Collège de France)

  • Emmanuel Martin

    (Inserm UMR 1163, Institut Imagine)

  • Sylvain Latour

    (Inserm UMR 1163, Institut Imagine
    Université de Paris Cité)

Abstract

De novo synthesis of the pyrimidine, cytidine triphosphate (CTP), is crucial for DNA/RNA metabolism and depends on the CTP synthetases, CTPS1 and −2. Partial CTPS1 deficiency in humans has previously been shown to lead to immunodeficiency, with impaired expansion of T and B cells. Here, we examine the effects of conditional and inducible inactivation of Ctps1 and/or Ctps2 on mouse embryonic development and immunity. We report that deletion of Ctps1, but not Ctps2, is embryonic-lethal. Tissue and cells with high proliferation and renewal rates, such as intestinal epithelium, erythroid and thymic lineages, activated B and T lymphocytes, and memory T cells strongly rely on CTPS1 for their maintenance and growth. However, both CTPS1 and CTPS2 are required for T cell proliferation following TCR stimulation. Deletion of Ctps1 in T cells or treatment with a CTPS1 inhibitor rescued Foxp3-deficient mice from fatal systemic autoimmunity and reduced the severity of experimental autoimmune encephalomyelitis. These findings support that CTPS1 may represent a target for immune suppression.

Suggested Citation

  • Claire Soudais & Romane Schaus & Camille Bachelet & Norbert Minet & Sara Mouasni & Cécile Garcin & Caique Lopes Souza & Pierre David & Clara Cousu & Hélène Asnagli & Andrew Parker & Paul Palmquist-Gom, 2024. "Inactivation of cytidine triphosphate synthase 1 prevents fatal auto-immunity in mice," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45805-y
    DOI: 10.1038/s41467-024-45805-y
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    References listed on IDEAS

    as
    1. Emmanuel Martin & Noé Palmic & Sylvia Sanquer & Christelle Lenoir & Fabian Hauck & Cédric Mongellaz & Sylvie Fabrega & Patrick Nitschké & Mauro Degli Esposti & Jeremy Schwartzentruber & Naomi Taylor &, 2014. "Erratum: CTP synthase 1 deficiency in humans reveals its central role in lymphocyte proliferation," Nature, Nature, vol. 511(7509), pages 370-370, July.
    2. Emmanuel Martin & Noé Palmic & Sylvia Sanquer & Christelle Lenoir & Fabian Hauck & Cédric Mongellaz & Sylvie Fabrega & Patrick Nitschké & Mauro Degli Esposti & Jeremy Schwartzentruber & Naomi Taylor &, 2014. "CTP synthase 1 deficiency in humans reveals its central role in lymphocyte proliferation," Nature, Nature, vol. 510(7504), pages 288-292, June.
    3. Andrea Ventura & David G. Kirsch & Margaret E. McLaughlin & David A. Tuveson & Jan Grimm & Laura Lintault & Jamie Newman & Elizabeth E. Reczek & Ralph Weissleder & Tyler Jacks, 2007. "Restoration of p53 function leads to tumour regression in vivo," Nature, Nature, vol. 445(7128), pages 661-665, February.
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