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The K219T-Lamin mutation induces conduction defects through epigenetic inhibition of SCN5A in human cardiac laminopathy

Author

Listed:
  • Nicolò Salvarani

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS)

  • Silvia Crasto

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS)

  • Michele Miragoli

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS
    University of Parma)

  • Alessandro Bertero

    (University of Washington)

  • Marianna Paulis

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS)

  • Paolo Kunderfranco

    (Humanitas Clinical and Research Center – IRCCS)

  • Simone Serio

    (Humanitas Clinical and Research Center – IRCCS)

  • Alberto Forni

    (University of Verona)

  • Carla Lucarelli

    (University of Verona)

  • Matteo Dal Ferro

    (“Ospedali Riuniti” and University of Trieste)

  • Veronica Larcher

    (Humanitas Clinical and Research Center – IRCCS)

  • Gianfranco Sinagra

    (“Ospedali Riuniti” and University of Trieste)

  • Paolo Vezzoni

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS)

  • Charles E. Murry

    (University of Washington)

  • Giuseppe Faggian

    (University of Verona)

  • Gianluigi Condorelli

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS
    Humanitas University)

  • Elisa Di Pasquale

    (National Research Council of Italy
    Humanitas Clinical and Research Center – IRCCS)

Abstract

Mutations in LMNA, which encodes the nuclear proteins Lamin A/C, can cause cardiomyopathy and conduction disorders. Here, we employ induced pluripotent stem cells (iPSCs) generated from human cells carrying heterozygous K219T mutation on LMNA to develop a disease model. Cardiomyocytes differentiated from these iPSCs, and which thus carry K219T-LMNA, have altered action potential, reduced peak sodium current and diminished conduction velocity. Moreover, they have significantly downregulated Nav1.5 channel expression and increased binding of Lamin A/C to the promoter of SCN5A, the channel’s gene. Coherently, binding of the Polycomb Repressive Complex 2 (PRC2) protein SUZ12 and deposition of the repressive histone mark H3K27me3 are increased at SCN5A. CRISPR/Cas9-mediated correction of the mutation re-establishes sodium current density and SCN5A expression. Thus, K219T-LMNA cooperates with PRC2 in downregulating SCN5A, leading to decreased sodium current density and slower conduction velocity. This mechanism may underlie the conduction abnormalities associated with LMNA-cardiomyopathy.

Suggested Citation

  • Nicolò Salvarani & Silvia Crasto & Michele Miragoli & Alessandro Bertero & Marianna Paulis & Paolo Kunderfranco & Simone Serio & Alberto Forni & Carla Lucarelli & Matteo Dal Ferro & Veronica Larcher &, 2019. "The K219T-Lamin mutation induces conduction defects through epigenetic inhibition of SCN5A in human cardiac laminopathy," Nature Communications, Nature, vol. 10(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09929-w
    DOI: 10.1038/s41467-019-09929-w
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