Cancers (Sep 2021)

Titratable Pharmacological Regulation of CAR T Cells Using Zinc Finger-Based Transcription Factors

  • Bettina Kotter,
  • Fabian Engert,
  • Winfried Krueger,
  • Andre Roy,
  • Wael Al Rawashdeh,
  • Nicole Cordes,
  • Britta Drees,
  • Brian Webster,
  • Niels Werchau,
  • Dominik Lock,
  • Sandra Dapa,
  • Dina Schneider,
  • Stephan Ludwig,
  • Claudia Rossig,
  • Mario Assenmacher,
  • Joerg Mittelstaet,
  • Andrew D. Kaiser

DOI
https://doi.org/10.3390/cancers13194741
Journal volume & issue
Vol. 13, no. 19
p. 4741

Abstract

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Chimeric antigen receptor (CAR) T cell therapy has emerged as an attractive strategy for cancer immunotherapy. Despite remarkable success for hematological malignancies, excessive activity and poor control of CAR T cells can result in severe adverse events requiring control strategies to improve safety. This work illustrates the feasibility of a zinc finger-based inducible switch system for transcriptional regulation of an anti-CD20 CAR in primary T cells providing small molecule-inducible control over therapeutic functions. We demonstrate time- and dose-dependent induction of anti-CD20 CAR expression and function with metabolites of the clinically-approved drug tamoxifen, and the absence of background CAR activity in the non-induced state. Inducible CAR T cells executed fine-tuned cytolytic activity against target cells both in vitro and in vivo, whereas CAR-related functions were lost upon drug discontinuation. This zinc finger-based transcriptional control system can be extended to other therapeutically important CARs, thus paving the way for safer cellular therapies.

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