CD8 T-cell dysfunction is linked with CAR T-cell failure and can be mitigated by a non-alpha IL-2 agonist, pegenzileukin

  1. Patrick K Reville
  2. Irtiza N Sheikh
  3. Ahyun Choi
  4. Enyu Dai
  5. Jared Henderson
  6. Xubin Li
  7. Estela Rojas
  8. Cuong Le
  9. Chizitara Okwuchi
  10. Mikielia Devonish
  11. Roberto Carrio
  12. Nathan Pate
  13. Katie Malley
  14. Dinesh Bangari
  15. Julie-Ann Givigan
  16. Chaomei Shi
  17. Bing Liu
  18. Tony Byers
  19. Jason Westin
  20. Sairah Ahmed
  21. Nathan Fowler
  22. Luis Fayad
  23. Hun Ju Lee
  24. Loretta Nastoupil
  25. Ingrid Sassoon
  26. Margot Cucchetti
  27. Rui Wang
  28. Maria Agarwal
  29. Giovanni Abbadessa
  30. Robin Meng
  31. Elamaran Meibalan
  32. Laura Powers
  33. James Cao
  34. Xiaoyou Ying
  35. Kelly Balko
  36. Qunyan Yu
  37. Jing Jiao
  38. Virna Cortez-Retamozo
  39. Sukhvinder Sidhu
  40. Donald Shaffer
  41. Sattva Neelapu
  42. Linghua Wang
  43. Xiangming Li
  44. Michael Green
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Abstract

Chimeric antigen receptor (CAR) T-cell therapy has been a breakthrough for relapsed or refractory large B-cell lymphoma (rrLBCL). However, suboptimal CAR T-cell activity can lead to therapeutic failure and dismal outcome. Using single cell RNA-sequencing of rrLBCL tumors, we identify a prominent population of clonally expanded dysfunctional CAR+ CD8 T-cells indicative of ongoing tumor cell engagement, proliferation, and dysfunction at the time of progression from CAR T-cell therapy. Furthermore, we show that rrLBCL patient-derived CAR T-cells are more prone to dysfunction and loss of cytotoxicity compared to healthy donor-derived CAR T-cells. Using both antigen-driven and CAR-driven models of T-cell dysfunction, we show that pegenzileukin, a non-alpha IL2 agonist, can prevent T-cell dysfunction. In both in vitro and in vivo CAR T-cell models, pegenzileukin improved T-cell expansion and tumor control. This provides pre-clinical rational for use of pegenzileukin in combatting T-cell dysfunction, a central mechanism of CAR T-cell failure.

HIGHLIGHTS

  • Tumor-infiltrating CD8 CAR T-cells show clonal expansion and dysfunction at the time of progression.

  • rrLBCL patient-derived CAR T-cells are more prone to dysfunction compared to healthy-donor-derived CAR T-cells.

  • Pegenzileukin, a non-alpha IL2 agonist, rescues antigen– and CAR-driven CD8 T-cell dysfunction and improves CAR T-cell responses in vivo.

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  1. Version published to 10.1101/2023.08.28.555127v1 on bioRxiv