Journal for ImmunoTherapy of Cancer (May 2024)

Developing a membrane-proximal CD33-targeting CAR T cell

  • Jaap Jan Boelens,
  • Renier J Brentjens,
  • Young Park,
  • Ruby Freeman,
  • Sanam Shahid,
  • Abdul G Khan,
  • Serena C Mathew,
  • Sydney Souness,
  • Erin R Burns,
  • Jasmine S Um,
  • Kento Tanaka,
  • Winson Cai,
  • Sarah Yoo,
  • Andrew Dunbar,
  • Devin McAvoy,
  • Kinga K Hosszu,
  • Ross L Levine,
  • Ivo C Lorenz,
  • Anthony F Daniyan

DOI
https://doi.org/10.1136/jitc-2024-009013
Journal volume & issue
Vol. 12, no. 5

Abstract

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Background CD33 is a tractable target in acute myeloid leukemia (AML) for chimeric antigen receptor (CAR) T cell therapy, but clinical success is lacking.Methods We developed 3P14HLh28Z, a novel CD33-directed CD28/CD3Z-based CAR T cell derived from a high-affinity binder obtained through membrane-proximal fragment immunization in humanized mice.Results We found that immunization exclusively with the membrane-proximal domain of CD33 is necessary for identification of membrane-proximal binders in humanized mice. Compared with clinically validated lintuzumab-based CAR T cells targeting distal CD33 epitopes, 3P14HLh28Z showed enhanced in vitro functionality as well as superior tumor control and increased overall survival in both low antigen density and clinically relevant patient-derived xenograft models. Increased activation and enhanced polyfunctionality led to enhanced efficacy.Conclusions Showing for the first time that a membrane-proximal CAR is superior to a membrane-distal one in the setting of CD33 targeting, our results demonstrate the rationale for targeting membrane-proximal epitopes with high-affinity binders. We also demonstrate the importance of optimizing CAR T cells for functionality in settings of both low antigen density and clinically relevant patient-derived models.