CRISPR screens decode cancer cell pathways that trigger γδ T cell detection
Publication date
2023-09-07
Authors
Mamedov, Murad R
Vedova, Shane
Freimer, Jacob W
Sahu, Avinash Das
Ramesh, Amrita
Arce, Maya M
Meringa, Angelo
Ota, Mineto
Chen, Peixin Amy
Hanspers, Kristina
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Advisors
Supervisors
Document Type
Article
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taverne
Abstract
γδ T cells are potent anticancer effectors with the potential to target tumours broadly, independent of patient-specific neoantigens or human leukocyte antigen background 1-5. γδ T cells can sense conserved cell stress signals prevalent in transformed cells 2,3, although the mechanisms behind the targeting of stressed target cells remain poorly characterized. Vγ9Vδ2 T cells-the most abundant subset of human γδ T cells 4-recognize a protein complex containing butyrophilin 2A1 (BTN2A1) and BTN3A1 (refs. 6-8), a widely expressed cell surface protein that is activated by phosphoantigens abundantly produced by tumour cells. Here we combined genome-wide CRISPR screens in target cancer cells to identify pathways that regulate γδ T cell killing and BTN3A cell surface expression. The screens showed previously unappreciated multilayered regulation of BTN3A abundance on the cell surface and triggering of γδ T cells through transcription, post-translational modifications and membrane trafficking. In addition, diverse genetic perturbations and inhibitors disrupting metabolic pathways in the cancer cells, particularly ATP-producing processes, were found to alter BTN3A levels. This induction of both BTN3A and BTN2A1 during metabolic crises is dependent on AMP-activated protein kinase (AMPK). Finally, small-molecule activation of AMPK in a cell line model and in patient-derived tumour organoids led to increased expression of the BTN2A1-BTN3A complex and increased Vγ9Vδ2 T cell receptor-mediated killing. This AMPK-dependent mechanism of metabolic stress-induced ligand upregulation deepens our understanding of γδ T cell stress surveillance and suggests new avenues available to enhance γδ T cell anticancer activity.
Keywords
Taverne, General, Journal Article
Citation
Mamedov, M R, Vedova, S, Freimer, J W, Sahu, A D, Ramesh, A, Arce, M M, Meringa, A D, Ota, M, Chen, P A, Hanspers, K, Nguyen, V Q, Takeshima, K A, Rios, A C, Pritchard, J K, Kuball, J, Sebestyen, Z, Adams, E J & Marson, A 2023, 'CRISPR screens decode cancer cell pathways that trigger γδ T cell detection', Nature, vol. 621, no. 7977, pp. 188-195. https://doi.org/10.1038/s41586-023-06482-x