Oncolytic viruses expressing MATEs facilitate target-independent T-cell activation in tumors

Peter, Malin; Mundt, Bettina; Menze, Arne; Woller, Norman; Volk, Valery; Ernst, Amanda M; Öhler, Leon A; Talbot, Steven R; Wedemeyer, Heiner; Falk, Christine; Feuerhake, Friedrich; Wirth, Thomas C; Kühnel, Florian

doi:10.1038/s44321-024-00187-y

Article / Essay Wed Feb 12 2025 CC BY 4.0

published

Oncolytic viruses expressing MATEs facilitate target-independent T-cell activation in tumors

Peter, Malin ; Mundt, Bettina ; Menze, Arne ; Woller, Norman ; Volk, Valery ; Ernst, Amanda M ; Öhler, Leon A ; Talbot, Steven R ; Wedemeyer, Heiner ; Falk, Christine ; Feuerhake, Friedrich ; Wirth, Thomas C ; Kühnel, Florian

Abstract Oncolytic viruses (OV) expressing bispecific T-cell engagers (BiTEs) are promising tools for tumor immunotherapy but the range of target tumors is limited. To facilitate effective T-cell stimulation with broad-range applicability, we established membrane-associated T-cell engagers (MATEs) harboring the protein transduction domain of the HIV-Tat protein to achieve non-selective binding to target cells. In vitro, MATEs effectively activated murine T cells and improved killing of MC38 colon carcinoma cells. Similarly, humanized MATEs activated T cells in PBMCs from human donors. In MC38-tumors in mice, MATE-expression by the oncolytic adenovirus Ad5/11 facilitated intratumoral T-cell activation, reduced tumor growth and prolonged survival accompanied by infiltration of tumor-directed CD8 + T cells and improved CD8/CD4 T-cell ratio. Absence of early T-cell activation in tumor draining lymph nodes suggests the safe applicability of this strategy. Furthermore, MATE-expression by Ad5/11 was capable of breaking resistance to αPD-1 checkpoint therapy thereby promoting T-cell/tumor cell proximity and clustering of CD8 + and CD4 + T cells. In summary, we demonstrated that MATE expressing OVs are powerful T-cell activating tools suitable for local immunotherapy of a broad range of tumors.

Synopsis Oncolytic adenoviruses were designed to reach potent intratumoral T-cell activation via expression of bifunctional-T-cell engagers (MATEs). MATEs consist of a CD3 binding domain to bind T cells and a protein transduction domain (Tat-PTD) to enable target-independent attachment to the cell surface. In vitro, MATEs promote potent activation of murine and human T cells, induce their proliferation and trigger T cell-mediated bystander toxicity. MATEs can be expressed by an oncolytic adenovirus and are secreted by cells upon virus infection. Tumor infection with MATE-expressing oncolytic adenoviruses leads to T cell activation and tumor immunoactivation in murine tumor models, and results in a CD8-dependent therapeutic benefit. Intratumoral T cell activation by MATE-expressing oncolytic adenovirus does not result in systemic toxicity or a cytokine release syndrome. Intratumoral T cell activation by MATE-expressing oncolytic viruses sensitizes tumors to PD-1 checkpoint inhibitor therapy.

Oncolytic adenoviruses were designed to reach potent intratumoral T-cell activation via expression of bifunctional-T-cell engagers (MATEs). MATEs consist of a CD3 binding domain to bind T cells and a protein transduction domain (Tat-PTD) to enable target-independent attachment to the cell surface.