IKAROS facilitates antigen escape in the face of CD19- and CD22-targeted therapies for B-cell acute lymphoblastic leukemia

  1. Pablo Domizi
  2. Jolanda Sarno
  3. Astraea Jager
  4. Milton Merchant
  5. Kaithlen Zen B Pacheco
  6. Sean A. Yamada-Hunter
  7. Maria Caterina Rotiroti
  8. Yuxuan Liu
  9. Reema Baskar
  10. Warren D. Reynolds
  11. Brian J. Sworder
  12. Bita Sahaf
  13. Sean C. Bendall
  14. Charles G. Mullighan
  15. Ash A. Alizadeh
  16. Allison B. Leahy
  17. Regina M. Myers
  18. Bonnie Yates
  19. Hao-Wei Wang
  20. Nirali N. Shah
  21. Robbie G. Majzner
  22. Crystal L. Mackall
  23. Stephan A. Grupp
  24. David M. Barrett
  25. Elena Sotillo
  26. Kara L. Davis
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Abstract

Relapse due to antigen escape is a major cause of treatment failure for patients with B-cell malignancies following targeted immunotherapies, including CD19- and CD22-directed chimeric antigen receptor T (CAR T) cells. To identify tumor intrinsic factors associated with antigen loss, we performed single-cell analyses on 61 primary patient samples or patient-derived xenografts from patients with B-cell acute lymphoblastic leukemia (B-ALL) treated with CAR T cells. We identified that low levels of the transcription factor IKAROS in pro-B-like B-ALL cells before CAR T treatment are associated with antigen escape. We demonstrate that IKAROS low B-ALL cells lose features of B cell identity and resemble progenitor cells based on their epigenetic and transcriptional state, resulting in the downregulation of B-cell immunotherapy antigens, including surface expression of CD19 and CD22. We find that modulation of CD19 and CD22 protein expression is IKAROS dose-dependent and reversible. Further, we demonstrate that IKAROS low cells are resistant to CD19- and CD22-targeted therapies. Together, we describe a novel role for IKAROS in the regulation of B-cell immunotherapy targets and the risk of antigen escape relapse, identifying it as a potential prognostic target.

Highlights

  • IKAROS low pro-B-like B-ALL cells are associated with CD19 neg relapse

  • IKAROS low B-ALL cells resemble progenitor cells and have lower B-cell commitment

  • IKAROS modulates CD19 and CD22 surface expression in a dose-dependent and reversible manner

  • IKAROS low B-ALL cells are more resistant to CD19- and CD22-targeted therapies

Before immunotherapy, IKAROS low pro-B-like B-ALL cells possess chromatin and gene expression states poised for loss of B-cell identity while maintaining expression of CD19 and CD22. Under immune pressure, IKAROS high cells maintain their antigen expression, making them more susceptible to T cell-mediated killing. Conversely, IKAROS low cells are more likely to downregulate their antigen expression, giving them a relative advantage to escape immunotherapies, resulting in antigen escape relapse.

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  1. Version published to 10.1101/2024.11.01.621347v1 on bioRxiv