Nature Communications (Aug 2023)

Antigen-dependent IL-12 signaling in CAR T cells promotes regional to systemic disease targeting

  • Eric Hee Jun Lee,
  • John P. Murad,
  • Lea Christian,
  • Jackson Gibson,
  • Yukiko Yamaguchi,
  • Cody Cullen,
  • Diana Gumber,
  • Anthony K. Park,
  • Cari Young,
  • Isabel Monroy,
  • Jason Yang,
  • Lawrence A. Stern,
  • Lauren N. Adkins,
  • Gaurav Dhapola,
  • Brenna Gittins,
  • Wen-Chung Chang,
  • Catalina Martinez,
  • Yanghee Woo,
  • Mihaela Cristea,
  • Lorna Rodriguez-Rodriguez,
  • Jun Ishihara,
  • John K. Lee,
  • Stephen J. Forman,
  • Leo D. Wang,
  • Saul J. Priceman

DOI
https://doi.org/10.1038/s41467-023-40115-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract Chimeric antigen receptor (CAR) T cell therapeutic responses are hampered by limited T cell trafficking, persistence, and durable anti-tumor activity in solid tumors. However, these challenges can be largely overcome by relatively unconstrained synthetic engineering strategies. Here, we describe CAR T cells targeting tumor-associated glycoprotein-72 (TAG72), utilizing the CD28 transmembrane domain upstream of the 4-1BB co-stimulatory domain as a driver of potent anti-tumor activity and IFNγ secretion. CAR T cell-mediated IFNγ production facilitated by IL-12 signaling is required for tumor cell killing, which is recapitulated by engineering an optimized membrane-bound IL-12 (mbIL12) molecule in CAR T cells. These T cells show improved antigen-dependent T cell proliferation and recursive tumor cell killing in vitro, with robust in vivo efficacy in human ovarian cancer xenograft models. Locoregional administration of mbIL12-engineered CAR T cells promotes durable anti-tumor responses against both regional and systemic disease in mice. Safety and efficacy of mbIL12-engineered CAR T cells is demonstrated using an immunocompetent mouse model, with beneficial effects on the immunosuppressive tumor microenvironment. Collectively, our study features a clinically-applicable strategy to improve the efficacy of locoregionally-delivered CAR T cells engineered with antigen-dependent immune-modulating cytokines in targeting regional and systemic disease.