Combination of T cell-redirecting strategies with a bispecific antibody blocking TGF-β and PD-L1 enhances antitumor responses.
Antonio Tapia-GalisteoIñigo Sánchez RodríguezJavier NarbonaPatricia Iglesias-HernándezSaray Aragón-GarcíaAnaïs Jiménez-ReinosoMarta CompteShaukat KhanTakeshi TsudaPatrick ChamesJavier LacadenaLuis Alvarez-VallinaLaura SanzPublished in: Oncoimmunology (2024)
T cell-based immunotherapies for solid tumors have not achieved the clinical success observed in hematological malignancies, partially due to the immunosuppressive effect promoted by the tumor microenvironment, where PD-L1 and TGF-β play a pivotal role. However, durable responses to immune checkpoint inhibitors remain limited to a minority of patients, while TGF-β inhibitors have not reached the market yet. Here, we describe a bispecific antibody for dual blockade of PD-L1 and TFG-β, termed AxF (scFv) 2 , under the premise that combination with T cell redirecting strategies would improve clinical benefit. The AxF (scFv) 2 antibody was well expressed in mammalian and yeast cells, bound both targets and inhibited dose-dependently the corresponding signaling pathways in luminescence-based cellular reporter systems. Moreover, combined treatment with trispecific T-cell engagers (TriTE) or CAR-T cells significantly boosted T cell activation status and cytotoxic response in breast, lung and colorectal (CRC) cancer models. Importantly, the combination of an EpCAMxCD3×EGFR TriTE with the AxF (scFv) 2 delayed CRC tumor growth in vivo and significantly enhanced survival compared to monotherapy with the trispecific antibody. In summary, we demonstrated the feasibility of concomitant blockade of PD-L1 and TGF-β by a single molecule, as well as its therapeutic potential in combination with different T cell redirecting agents to overcome tumor microenvironment-mediated immunosuppression.
Keyphrases
- single molecule
- transforming growth factor
- induced apoptosis
- small cell lung cancer
- end stage renal disease
- newly diagnosed
- signaling pathway
- epithelial mesenchymal transition
- combination therapy
- tyrosine kinase
- atomic force microscopy
- squamous cell carcinoma
- epidermal growth factor receptor
- cell cycle arrest
- peritoneal dialysis
- randomized controlled trial
- living cells
- open label
- quantum dots
- saccharomyces cerevisiae
- squamous cell
- anti inflammatory