e14508 Background: Despite significant advancements in cancer immunotherapy through the use of immune checkpoint inhibitors, there remains a need for more robust strategies to enhance anti-tumor immune responses. This study introduces and characterizes OriA631-B, an innovative CD39/PD-L1 bispecific antibody. By simultaneously targeting the metabolic checkpoint CD39 and the immune checkpoint PD-L1, this novel antibody has the potential to significantly augment anti-tumor efficacy, particularly in cold tumors characterized by a scarcity of infiltrating immune cells. The development of OriA631-B marks a breakthrough in concurrently addressing two crucial immunosuppressive pathways. Methods: The creation of OriA631-B involved cutting-edge antibody engineering methodologies to guarantee optimal binding affinity and specificity for its target antigens, CD39 and PD-L1. With meticulous design and refinement, OriA631-B was developed to exhibit robust binding capabilities to both CD39 and PD-L1, enabling simultaneous and precise recognition. Leveraging advanced antibody engineering techniques was instrumental in crafting OriA631-B as a potent tool with heightened binding properties, broadening its potential applications across diverse therapeutic contexts. Results: In vitro investigations revealed the efficacy of OriA631-B, derived from the foundation of a clinically validated in-house generated PD-L1 antibody (YN035). This innovative antibody effectively thwarted CD39-mediated adenosine production, resulting in heightened effector T cell function and proliferation. In vivo efficacy assessments conducted on syngeneic hot tumor models MC38 and Hepa1-6 underscored the remarkable effectiveness of OriA631, the CD39 monoclonal antibody (mAb), in controlling tumor growth. Notably, OriA631-B, the CD39/PD-L1 bispecific antibody, exhibited even more profound impacts, significantly restraining tumor growth beyond the effects observed with single-target treatments in the hot tumor model or combination therapies in both the hot tumor model MC38 and the cold tumor model CT26. These findings underscore the potent therapeutic potential of OriA631-B and its capacity to exert robust anti-tumor activity by concurrently targeting CD39 and PD-L1. Additionally, safety profiling revealed an acceptable toxicity profile for OriA631-B, with no significant adverse events observed during the study. Conclusions: In summary, OriA631-B demonstrates potential as an innovative immunotherapeutic strategy for cancer treatment by concurrently targeting CD39-mediated immune suppression and PD-L1-mediated T cell exhaustion. Further exploration, including clinical trials, is imperative to fully uncover the therapeutic capabilities of this groundbreaking bispecific antibody in cancer immunotherapy.
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