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Histone marks identify novel transcription factors that parse CAR-T subset-of-origin, clinical potential and expansion

Author

Listed:
  • S. Fiorenza

    (The University of Sydney)

  • Y. Zheng

    (Fred Hutchinson Cancer Center
    MD Anderson Cancer Center)

  • J. Purushe

    (Fred Hutchinson Cancer Cente)

  • T. J. Bock

    (The University of Sydney)

  • J. Sarthy

    (Fred Hutchinson Cancer Cente)

  • D. H. Janssens

    (Fred Hutchinson Cancer Center
    Van Andel Institute)

  • A. S. Sheih

    (Fred Hutchinson Cancer Cente)

  • E. L. Kimble

    (Fred Hutchinson Cancer Cente)

  • D. Kirchmeier

    (Fred Hutchinson Cancer Cente)

  • T. D. Phi

    (Fred Hutchinson Cancer Cente)

  • J. Gauthier

    (Fred Hutchinson Cancer Cente)

  • A. V. Hirayama

    (Fred Hutchinson Cancer Cente)

  • S. R. Riddell

    (Fred Hutchinson Cancer Cente)

  • Q. Wu

    (Fred Hutchinson Cancer Cente)

  • R. Gottardo

    (Lausanne University Hospital)

  • D. G. Maloney

    (Fred Hutchinson Cancer Cente)

  • J. Y. H. Yang

    (The University of Sydney)

  • S. Henikoff

    (Fred Hutchinson Cancer Center)

  • C. J. Turtle

    (The University of Sydney
    Royal North Shore Hospital)

Abstract

Chimeric antigen receptor-modified T cell (CAR-T) immunotherapy has revolutionised blood cancer treatment. Parsing the genetic underpinnings of T cell quality and CAR-T efficacy is challenging. Transcriptomics inform CAR-T state, but the nature of dynamic transcription during activation hinders identification of transiently or minimally expressed genes, such as transcription factors, and over-emphasises effector and metabolism genes. Here we explore whether analyses of transcriptionally repressive and permissive histone methylation marks describe CAR-T cell functional states and therapeutic potential beyond transcriptomic analyses. Histone mark analyses improve identification of differences between naïve, central memory, and effector memory CD8 + T cell subsets of human origin, and CAR-T derived from these subsets. We find important differences between CAR-T manufactured from central memory cells of healthy donors and of patients. By examining CAR-T products from a clinical trial in lymphoma (NCT01865617), we find a novel association between the activity of the transcription factor KLF7 with in vivo CAR-T accumulation in patients and demonstrate that over-expression of KLF7 increases in vitro CAR-T proliferation and IL-2 production. In conclusion, histone marks provide a rich dataset for identification of functionally relevant genes not apparent by transcriptomics.

Suggested Citation

  • S. Fiorenza & Y. Zheng & J. Purushe & T. J. Bock & J. Sarthy & D. H. Janssens & A. S. Sheih & E. L. Kimble & D. Kirchmeier & T. D. Phi & J. Gauthier & A. V. Hirayama & S. R. Riddell & Q. Wu & R. Gotta, 2024. "Histone marks identify novel transcription factors that parse CAR-T subset-of-origin, clinical potential and expansion," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52503-2
    DOI: 10.1038/s41467-024-52503-2
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    References listed on IDEAS

    as
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