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CRISPR activation screen identifies BCL-2 proteins and B3GNT2 as drivers of cancer resistance to T cell-mediated cytotoxicity

Author

Listed:
  • Julia Joung

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Paul C. Kirchgatterer

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Ankita Singh

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Jang H. Cho

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Suchita P. Nety

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Rebecca C. Larson

    (Massachusetts General Hospital and Harvard Medical School
    Cancer Center, Massachusetts General Hospital and Harvard Medical School)

  • Rhiannon K. Macrae

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

  • Rebecca Deasy

    (Broad Institute of MIT and Harvard)

  • Yuen-Yi Tseng

    (Broad Institute of MIT and Harvard)

  • Marcela V. Maus

    (Massachusetts General Hospital and Harvard Medical School
    Cancer Center, Massachusetts General Hospital and Harvard Medical School)

  • Feng Zhang

    (MIT
    Broad Institute of MIT and Harvard
    MIT
    McGovern Institute for Brain Research at MIT)

Abstract

The cellular processes that govern tumor resistance to immunotherapy remain poorly understood. To gain insight into these processes, here we perform a genome-scale CRISPR activation screen for genes that enable human melanoma cells to evade cytotoxic T cell killing. Overexpression of four top candidate genes (CD274 (PD-L1), MCL1, JUNB, and B3GNT2) conferred resistance in diverse cancer cell types and mouse xenografts. By investigating the resistance mechanisms, we find that MCL1 and JUNB modulate the mitochondrial apoptosis pathway. JUNB encodes a transcription factor that downregulates FasL and TRAIL receptors, upregulates the MCL1 relative BCL2A1, and activates the NF-κB pathway. B3GNT2 encodes a poly-N-acetyllactosamine synthase that targets >10 ligands and receptors to disrupt interactions between tumor and T cells and reduce T cell activation. Inhibition of candidate genes sensitized tumor models to T cell cytotoxicity. Our results demonstrate that systematic gain-of-function screening can elucidate resistance pathways and identify potential targets for cancer immunotherapy.

Suggested Citation

  • Julia Joung & Paul C. Kirchgatterer & Ankita Singh & Jang H. Cho & Suchita P. Nety & Rebecca C. Larson & Rhiannon K. Macrae & Rebecca Deasy & Yuen-Yi Tseng & Marcela V. Maus & Feng Zhang, 2022. "CRISPR activation screen identifies BCL-2 proteins and B3GNT2 as drivers of cancer resistance to T cell-mediated cytotoxicity," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-29205-8
    DOI: 10.1038/s41467-022-29205-8
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