T-cell avidity is a major determinant of Adoptive T cell therapy (ACT) efficacy for cancer treatment. However, high-avidity tumor-specific T cells can rarely be isolated from cancer patients, highlighting the need for strategies to enhance the cytotoxic capacity of low-avidity cells. Here, we rescue the anti-tumor functions of low-avidity T cells against pancreatic ductal adenocarcinoma (PDAC) by knocking-out TIGIT, a key inhibitory molecule expressed on exhausted CD8+ T cells infiltrating gastrointestinal tumors. We uncover that TIGIT disruption by base editing boosts the intracellular signal transduction derived from a weak T cell receptor (TCR) engagement enforcing cytoskeletal rearrangements, thus increasing T cell avidity and stabilizing the immunological synapse. Accordingly, TIGIT disruption enables low-avidity T cells to exert robust degranulation, comparable to that of high-avidity T cells, and potent and durable anti-tumor capacity in vivo in male mice. These results highlight TIGIT knockout as a potential strategy to enhance low-avidity T cell function and broaden the repertoire of TCR engineered T cells in the treatment of pancreatic cancer and other solid malignancies.
TIGIT disruption rescues the antitumor activity of low avidity TCR-engineered T cells by increasing TCR signal strength / Spiga, M., Potenza, A., Magnani, Z., Beretta, S., Camisa, B., Conte, L., Airaghi, A., Mohammadi, N., Perani, L., Doglioni, C., Ponzoni, M., Sanvito, F., Balestrieri, C., Sergi Sergi, L., Botrugno, O.A., Giovannoni, G., Tonon, G., Abbati, D., Iozzi, C., Reichert, M., et al.. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 17:1(2026). [10.1038/s41467-025-67263-w]
TIGIT disruption rescues the antitumor activity of low avidity TCR-engineered T cells by increasing TCR signal strength
Spiga M.Primo
;Potenza A.Secondo
;Beretta S.;Doglioni C.;Ponzoni M.;Giovannoni G.;Tonon G.;Fiumara M.;Ferrari S.;Ugolini A.;Belfiori G.;Ostuni R.;Reni M.;Crippa S.;Falconi M.;Naldini L.;Bonini C.
Ultimo
2026-01-01
Abstract
T-cell avidity is a major determinant of Adoptive T cell therapy (ACT) efficacy for cancer treatment. However, high-avidity tumor-specific T cells can rarely be isolated from cancer patients, highlighting the need for strategies to enhance the cytotoxic capacity of low-avidity cells. Here, we rescue the anti-tumor functions of low-avidity T cells against pancreatic ductal adenocarcinoma (PDAC) by knocking-out TIGIT, a key inhibitory molecule expressed on exhausted CD8+ T cells infiltrating gastrointestinal tumors. We uncover that TIGIT disruption by base editing boosts the intracellular signal transduction derived from a weak T cell receptor (TCR) engagement enforcing cytoskeletal rearrangements, thus increasing T cell avidity and stabilizing the immunological synapse. Accordingly, TIGIT disruption enables low-avidity T cells to exert robust degranulation, comparable to that of high-avidity T cells, and potent and durable anti-tumor capacity in vivo in male mice. These results highlight TIGIT knockout as a potential strategy to enhance low-avidity T cell function and broaden the repertoire of TCR engineered T cells in the treatment of pancreatic cancer and other solid malignancies.| File | Dimensione | Formato | |
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