CRISPR engineering of armored CAR T cells enables tumor restricted payload delivery with enhanced efficacy and safety

  1. Amanda Chen
  2. Kah Min Yap
  3. Joelle Kim
  4. Kevin Sek
  5. Yu-Kuan Huang
  6. Phoebe Dunbar
  7. Volker Wiebking
  8. Jesse Armitage
  9. Isabelle Munoz
  10. Kirsten Todd
  11. Emily Derrick
  12. Dat Nguyen
  13. Junming Tong
  14. Cheok Weng Chan
  15. Joel Lee
  16. Thang Hoang
  17. Thomas Cole
  18. Jasmine Li
  19. Maria N. de Menezes
  20. Christina Scheffler
  21. Jason Waithman
  22. Jane Oliaro
  23. Simon Harrison
  24. Ian Parish
  25. Junyun Lai
  26. Matthew Porteus
  27. Imran House
  28. Phillip Darcy
  29. Paul Beavis
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Abstract

The efficacy of chimeric antig en receptor (CAR) T cell therapy in solid tumors is limited by immunosuppression and antigen heterogeneity. To overcome these barriers, “armored” CAR T cells, which secrete proinflammatory cytokines, have been developed. However, their clinical application has been limited due to toxicities related to peripheral expression of the armoring transgene. Here, we developed a novel CRISPR knock-in strategy that uses endogenous gene regulatory mechanisms to drive transgene expression in a tumor-localized manner. By screening endogenous genes with tumor-restricted expression, the NR4A2 and RGS16 promoters were identified to support the delivery of cytokines such as IL-12 and IL-2 directly to the tumor site, leading to enhanced anti-tumor efficacy and long-term survival of mice in both syngeneic and xenogeneic models. This was concomitant with improved CAR T cell polyfunctionality, activation of endogenous anti-tumor immunity, a favorable safety profile, and was applicable using CAR T cells from patients.

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