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Regulated control of gene therapies by drug-induced splicing

Author

Listed:
  • Alex Mas Monteys

    (The Children’s Hospital of Philadelphia
    University of Pennsylvania)

  • Amiel A. Hundley

    (The Children’s Hospital of Philadelphia)

  • Paul T. Ranum

    (The Children’s Hospital of Philadelphia)

  • Luis Tecedor

    (The Children’s Hospital of Philadelphia)

  • Amy Muehlmatt

    (The Children’s Hospital of Philadelphia)

  • Euyn Lim

    (The Children’s Hospital of Philadelphia)

  • Dmitriy Lukashev

    (Novartis Institutes for BioMedical Research (NIBR))

  • Rajeev Sivasankaran

    (Novartis Institutes for BioMedical Research (NIBR))

  • Beverly L. Davidson

    (The Children’s Hospital of Philadelphia
    University of Pennsylvania)

Abstract

So far, gene therapies have relied on complex constructs that cannot be finely controlled1,2. Here we report a universal switch element that enables precise control of gene replacement or gene editing after exposure to a small molecule. The small-molecule inducers are currently in human use, are orally bioavailable when given to animals or humans and can reach both peripheral tissues and the brain. Moreover, the switch system, which we denote Xon, does not require the co-expression of any regulatory proteins. Using Xon, the translation of the desired elements for controlled gene replacement or gene editing machinery occurs after a single oral dose of the inducer, and the robustness of expression can be controlled by the drug dose, protein stability and redosing. The ability of Xon to provide temporal control of protein expression can be adapted for cell-biology applications and animal studies. Additionally, owing to the oral bioavailability and safety of the drugs used, the Xon switch system provides an unprecedented opportunity to refine and tailor the application of gene therapies in humans.

Suggested Citation

  • Alex Mas Monteys & Amiel A. Hundley & Paul T. Ranum & Luis Tecedor & Amy Muehlmatt & Euyn Lim & Dmitriy Lukashev & Rajeev Sivasankaran & Beverly L. Davidson, 2021. "Regulated control of gene therapies by drug-induced splicing," Nature, Nature, vol. 596(7871), pages 291-295, August.
    • Handle: RePEc:nat:nature:v:596:y:2021:i:7871:d:10.1038_s41586-021-03770-2
    DOI: 10.1038/s41586-021-03770-2
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    Citations

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    Cited by:

    1. Florian Krach & Judith Stemick & Tom Boerstler & Alexander Weiss & Ioannis Lingos & Stephanie Reischl & Holger Meixner & Sonja Ploetz & Michaela Farrell & Ute Hehr & Zacharias Kohl & Beate Winner & Ju, 2022. "An alternative splicing modulator decreases mutant HTT and improves the molecular fingerprint in Huntington’s disease patient neurons," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. Caroline Gubser Keller & Youngah Shin & Alex Mas Monteys & Nicole Renaud & Martin Beibel & Natalia Teider & Thomas Peters & Thomas Faller & Sophie St-Cyr & Judith Knehr & Guglielmo Roma & Alejandro Re, 2022. "An orally available, brain penetrant, small molecule lowers huntingtin levels by enhancing pseudoexon inclusion," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    3. Yuma Ishigami & Mandy S. Wong & Carlos Martí-Gómez & Andalus Ayaz & Mahdi Kooshkbaghi & Sonya M. Hanson & David M. McCandlish & Adrian R. Krainer & Justin B. Kinney, 2024. "Specificity, synergy, and mechanisms of splice-modifying drugs," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    4. Jonathan P. Ling & Alexei M. Bygrave & Clayton P. Santiago & Rogger P. Carmen-Orozco & Vickie T. Trinh & Minzhong Yu & Yini Li & Ying Liu & Kyra D. Bowden & Leighton H. Duncan & Jeong Han & Kamil Tane, 2022. "Cell-specific regulation of gene expression using splicing-dependent frameshifting," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    5. Zachariah L. McLean & Dadi Gao & Kevin Correia & Jennie C. L. Roy & Shota Shibata & Iris N. Farnum & Zoe Valdepenas-Mellor & Marina Kovalenko & Manasa Rapuru & Elisabetta Morini & Jayla Ruliera & Tamm, 2024. "Splice modulators target PMS1 to reduce somatic expansion of the Huntington’s disease-associated CAG repeat," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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