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In vivo gene editing of T-cells in lymph nodes for enhanced cancer immunotherapy

Author

Listed:
  • Jin Qu

    (Kowloon)

  • Yuan Wang

    (Kowloon)

  • Chuxiao Xiong

    (Kowloon)

  • Mingxue Wang

    (Kowloon)

  • Xingdao He

    (Kowloon)

  • Weibin Jia

    (Kowloon
    Hong Kong Science Park)

  • Cheuk Yin Li

    (Kowloon)

  • Tianlong Zhang

    (Clear Water Bay)

  • Zixun Wang

    (Chinese Academy of Sciences)

  • Wei Li

    (Wuhan University)

  • Becki Yi Kuang

    (Kowloon)

  • Peng Shi

    (Kowloon
    Hong Kong Science Park
    Kowloon
    Nanshan)

Abstract

Immune checkpoint blockade (ICB) therapy, while promising for cancer treatment, faces challenges like unexpected side effects and limited objective responses. Here, we develop an in vivo gene-editing strategy for improving ICB cancer therapy in a lastingly effective manner. The approach uses a conductive hydrogel-based electroporation system to enable nucleofection of programmed cell death protein 1 (PD1) targeted CRISPR-Cas9 DNAs into T-cells directly within the lymph nodes, and subsequently produces PD1-deficient T-cells to combat tumor growth, metastasis and recurrence in different melanoma models in mice. Following in vivo gene editing, animals show enhanced cellular and humoral immune responses along with multi-fold increases of effector T-cells infiltration to the solid tumors, preventing tumor recurrence and prolonging their survival. These findings provide a proof-of-concept for direct in vivo T-cell engineering via localized gene-editing for enhanced cancer immunotherapy, and also unlock the possibilities of using this method to treat more complex human diseases.

Suggested Citation

  • Jin Qu & Yuan Wang & Chuxiao Xiong & Mingxue Wang & Xingdao He & Weibin Jia & Cheuk Yin Li & Tianlong Zhang & Zixun Wang & Wei Li & Becki Yi Kuang & Peng Shi, 2024. "In vivo gene editing of T-cells in lymph nodes for enhanced cancer immunotherapy," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54292-0
    DOI: 10.1038/s41467-024-54292-0
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    References listed on IDEAS

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    1. Masakazu Kurita & Toshikazu Araoka & Tomoaki Hishida & David D. O’Keefe & Yuta Takahashi & Akihisa Sakamoto & Masahiro Sakurai & Keiichiro Suzuki & Jun Wu & Mako Yamamoto & Reyna Hernandez-Benitez & A, 2018. "In vivo reprogramming of wound-resident cells generates skin epithelial tissue," Nature, Nature, vol. 561(7722), pages 243-247, September.
    2. N. N. Parayath & S. B. Stephan & A. L. Koehne & P. S. Nelson & M. T. Stephan, 2020. "In vitro-transcribed antigen receptor mRNA nanocarriers for transient expression in circulating T cells in vivo," Nature Communications, Nature, vol. 11(1), pages 1-17, December.
    3. Christina Twyman-Saint Victor & Andrew J. Rech & Amit Maity & Ramesh Rengan & Kristen E. Pauken & Erietta Stelekati & Joseph L. Benci & Bihui Xu & Hannah Dada & Pamela M. Odorizzi & Ramin S. Herati & , 2015. "Radiation and dual checkpoint blockade activate non-redundant immune mechanisms in cancer," Nature, Nature, vol. 520(7547), pages 373-377, April.
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