Medigene to Present Favorable Safety Profile of TCR-T Cells upon Addition of Costimulatory Switch Protein with a Poster Presentation at AACR 2024 Annual Meeting - Seite 2
This presentation will available on Medigene’s website on March 7, 2024: https://medigene.com/science/abstracts/
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About Medigene AG
Medigene AG (FSE: MDG1) is an immuno-oncology platform company dedicated to developing differentiated T cell therapies for treatment of solid tumors. Its End-to-End Platform is built on multiple proprietary and exclusive technologies that enable the Company to generate optimal T cell receptors against both cancer testis antigens and neoantigens, armor and enhance these T cell receptor engineered (TCR) -T cells to create best-in-class, differentiated TCR-T therapies, and optimize the drug product composition for safety, efficacy and durability. The End-to-End Platform provides product candidates for both its own therapeutics pipeline and partnering. Medigene’s lead TCR-T program MDG1015 is expected to receive IND/CTA approval in the second half of 2024. For more information, please visit https://medigene.com/
About Medigene’s End-to-End Platform
Medigene’s immunotherapies help activate the patient’s own defense mechanisms by harnessing T cells in the battle against cancer. Medigene’s End-to-End Platform combines multiple exclusive and proprietary technologies to create best-in-class, differentiated TCR-T therapies. The platform includes multiple TCR generation and optimization technologies (e.g., Allogeneic-HLA (Allo-HLA) TCR Priming), as well as product enhancement technologies (e.g., PD1-41BB and CD40L-CD28 Costimulatory Switch Proteins, Precision Pairing) to address challenges in developing effective, durable and safe TCR-T therapies. Partnerships with multiple companies including BioNTech and 2seventy bio, continue to validate the platform’s assets and technologies.
About Medigene’s PD1-41BB Costimulatory Switch Protein
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Checkpoint inhibition via PD-1/PD-L1 pathway:
Cells of solid tumors are sensitive to killing by activated T cells but can escape this killing activity by producing inhibitory molecules known as ‘checkpoint proteins’, such as the Programmed Death Ligand 1 (PD-L1), on their surface. When this occurs, activated T cells which express PD-1, the natural receptor for PD-L1, are inactivated. The expression of PD-L1 is an adaptive immune resistance mechanism for tumors that can help them survive and grow.