Cells (Mar 2022)

Molecular and Functional Signatures Associated with CAR T Cell Exhaustion and Impaired Clinical Response in Patients with B Cell Malignancies

  • Katia Beider,
  • Orit Itzhaki,
  • Jacob Schachter,
  • Ania Hava Grushchenko-Polaq,
  • Valeria Voevoda-Dimenshtein,
  • Evgenia Rosenberg,
  • Olga Ostrovsky,
  • Olivia Devillers,
  • Ronnie Shapira Frommer,
  • Li-at Zeltzer,
  • Amos Toren,
  • Elad Jacoby,
  • Avichai Shimoni,
  • Abraham Avigdor,
  • Arnon Nagler,
  • Michal J. Besser

DOI
https://doi.org/10.3390/cells11071140
Journal volume & issue
Vol. 11, no. 7
p. 1140

Abstract

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Despite the high rates of complete remission following chimeric antigen receptor (CAR) T cell therapy, its full capacity is currently limited by the generation of dysfunctional CAR T cells. Senescent or exhausted CAR T cells possess poor targeting and effector functions, as well as impaired cell proliferation and persistence in vivo. Strategies to detect, prevent or reverse T cell exhaustion are therefore required in order to enhance the effectiveness of CAR T immunotherapy. Here we report that CD19 CAR T cells from non-responding patients with B cell malignancies show enrichment of CD8+ cells with exhausted/senescent phenotype and display a distinct transcriptional signature with dysregulation of genes associated with terminal exhaustion. Furthermore, CAR T cells from non-responding patients exhibit reduced proliferative capacity and decreased IL-2 production in vitro, indicating functional impairment. Overall, our work reveals potential mediators of resistance, paving the way to studies that will enhance the efficacy and durability of CAR T therapy in B cell malignancies.

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