Nature Communications (Dec 2023)

Leukemia-intrinsic determinants of CAR-T response revealed by iterative in vivo genome-wide CRISPR screening

  • Azucena Ramos,
  • Catherine E. Koch,
  • Yunpeng Liu-Lupo,
  • Riley D. Hellinger,
  • Taeyoon Kyung,
  • Keene L. Abbott,
  • Julia Fröse,
  • Daniel Goulet,
  • Khloe S. Gordon,
  • Keith P. Eidell,
  • Paul Leclerc,
  • Charles A. Whittaker,
  • Rebecca C. Larson,
  • Audrey J. Muscato,
  • Kathleen B. Yates,
  • Juan Dubrot,
  • John G. Doench,
  • Aviv Regev,
  • Matthew G. Vander Heiden,
  • Marcela V. Maus,
  • Robert T. Manguso,
  • Michael E. Birnbaum,
  • Michael T. Hemann

DOI
https://doi.org/10.1038/s41467-023-43790-2
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 21

Abstract

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Abstract CAR-T therapy is a promising, novel treatment modality for B-cell malignancies and yet many patients relapse through a variety of means, including loss of CAR-T cells and antigen escape. To investigate leukemia-intrinsic CAR-T resistance mechanisms, we performed genome-wide CRISPR-Cas9 loss-of-function screens in an immunocompetent murine model of B-cell acute lymphoblastic leukemia (B-ALL) utilizing a modular guide RNA library. We identified IFNγR/JAK/STAT signaling and components of antigen processing and presentation pathway as key mediators of resistance to CAR-T therapy in vivo; intriguingly, loss of this pathway yielded the opposite effect in vitro (sensitized leukemia to CAR-T cells). Transcriptional characterization of this model demonstrated upregulation of these pathways in tumors relapsed after CAR-T treatment, and functional studies showed a surprising role for natural killer (NK) cells in engaging this resistance program. Finally, examination of data from B-ALL patients treated with CAR-T revealed an association between poor outcomes and increased expression of JAK/STAT and MHC-I in leukemia cells. Overall, our data identify an unexpected mechanism of resistance to CAR-T therapy in which tumor cell interaction with the in vivo tumor microenvironment, including NK cells, induces expression of an adaptive, therapy-induced, T-cell resistance program in tumor cells.