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In vivo correction of anaemia in β-thalassemic mice by γPNA-mediated gene editing with nanoparticle delivery

Author

Listed:
  • Raman Bahal

    (Yale University)

  • Nicole Ali McNeer

    (Yale University
    Yale University)

  • Elias Quijano

    (Yale University)

  • Yanfeng Liu

    (Yale University)

  • Parker Sulkowski

    (Yale University
    Yale University)

  • Audrey Turchick

    (Yale University
    Yale University)

  • Yi-Chien Lu

    (Yale University)

  • Dinesh C. Bhunia

    (Carnegie Mellon University)

  • Arunava Manna

    (Carnegie Mellon University)

  • Dale L. Greiner

    (Program in Molecular Medicine, University of Massachusetts Medical School)

  • Michael A. Brehm

    (Program in Molecular Medicine, University of Massachusetts Medical School)

  • Christopher J. Cheng

    (Yale University)

  • Francesc López-Giráldez

    (Yale Center for Genome Analysis (YCGA), Yale University)

  • Adele Ricciardi

    (Yale University
    Yale University)

  • Jagadish Beloor

    (Section of Infectious Disease, Yale University)

  • Diane S. Krause

    (Yale University)

  • Priti Kumar

    (Section of Infectious Disease, Yale University)

  • Patrick G. Gallagher

    (Yale University)

  • Demetrios T. Braddock

    (Yale University)

  • W. Mark Saltzman

    (Yale University)

  • Danith H. Ly

    (Carnegie Mellon University)

  • Peter M. Glazer

    (Yale University
    Yale University)

Abstract

The blood disorder, β-thalassaemia, is considered an attractive target for gene correction. Site-specific triplex formation has been shown to induce DNA repair and thereby catalyse genome editing. Here we report that triplex-forming peptide nucleic acids (PNAs) substituted at the γ position plus stimulation of the stem cell factor (SCF)/c-Kit pathway yielded high levels of gene editing in haematopoietic stem cells (HSCs) in a mouse model of human β-thalassaemia. Injection of thalassemic mice with SCF plus nanoparticles containing γPNAs and donor DNAs ameliorated the disease phenotype, with sustained elevation of blood haemoglobin levels into the normal range, reduced reticulocytosis, reversal of splenomegaly and up to 7% β-globin gene correction in HSCs, with extremely low off-target effects. The combination of nanoparticle delivery, next generation γPNAs and SCF treatment may offer a minimally invasive treatment for genetic disorders of the blood that can be achieved safely and simply by intravenous administration.

Suggested Citation

  • Raman Bahal & Nicole Ali McNeer & Elias Quijano & Yanfeng Liu & Parker Sulkowski & Audrey Turchick & Yi-Chien Lu & Dinesh C. Bhunia & Arunava Manna & Dale L. Greiner & Michael A. Brehm & Christopher J, 2016. "In vivo correction of anaemia in β-thalassemic mice by γPNA-mediated gene editing with nanoparticle delivery," Nature Communications, Nature, vol. 7(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13304
    DOI: 10.1038/ncomms13304
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