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Integration of therapeutic cargo into the human genome with programmable type V-K CAST

Author

Listed:
  • Jason Liu

    (Inc)

  • Daniela S. Aliaga Goltsman

    (Inc)

  • Lisa M. Alexander

    (Inc)

  • Khak Khak Khayi

    (Inc)

  • Jennifer H. Hong

    (Inc)

  • Drew T. Dunham

    (Inc)

  • Christine A. Romano

    (Inc)

  • Morayma M. Temoche-Diaz

    (Inc)

  • Shailaja Chadha

    (Inc)

  • Rodrigo Fregoso Ocampo

    (Inc)

  • Jennifer Oki-O’Connell

    (Inc)

  • Owen P. Janson

    (Inc)

  • Keirstinne Turcios

    (Inc)

  • Liliana Gonzalez-Osorio

    (Inc)

  • Jared Muysson

    (Inc)

  • Jenat Rahman

    (Inc)

  • Sarah M. Laperriere

    (Inc)

  • Audra E. Devoto

    (Inc)

  • Cindy J. Castelle

    (Inc)

  • Cristina N. Butterfield

    (Inc)

  • Gregory J. Cost

    (Inc)

  • Christopher T. Brown

    (Inc)

  • Brian C. Thomas

    (Inc)

Abstract

CRISPR-associated (Cas) transposases (CAST) are RNA-guided systems capable of programmable integration of large segments of DNA without creating double-strand breaks. Engineered Cascade CAST function in human cells but are challenging to deploy due to the complexity of the targeting components. Unlike Cascade, which require three Cas proteins, type V-K CAST require a single Cas12k effector for targeting. Here, we show that compact type V-K CAST from uncultivated microbes are repurposable for programmable DNA integration into the genome of human cells. Engineering for nuclear localization and function enables integration of a therapeutically relevant transgene at a safe-harbor site in multiple human cell types. Notably, off-targets are rare events reproducibly found in specific genomic regions. These CAST advancements are expected to accelerate applications of genome editing to therapeutic development, biotechnology, and synthetic biology.

Suggested Citation

  • Jason Liu & Daniela S. Aliaga Goltsman & Lisa M. Alexander & Khak Khak Khayi & Jennifer H. Hong & Drew T. Dunham & Christine A. Romano & Morayma M. Temoche-Diaz & Shailaja Chadha & Rodrigo Fregoso Oca, 2025. "Integration of therapeutic cargo into the human genome with programmable type V-K CAST," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57416-2
    DOI: 10.1038/s41467-025-57416-2
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