Using phage-assisted continuous evolution (PACE) to evolve human PD1.

PD1/PDL1 pathway plays a critical role in cancer immune responses. The immune checkpoint inhibitors of PD1/PDL1 have been well explored and developed for immunotherapies of solid tumors. Recently, various monoclonal antibodies targeting the PD1/PDL1 pathway have emerged and achieved remarkable success in clinical trials. However, challenges with these monoclonal antibodies have appeared during cancer therapies, including predictors of response, patient selection, and innate resistance. Thus, a competitive antagonist of native PD1/PDL1, with smaller size and lower side-effect, is required for future cancer therapies. In this study, we utilized a protein evolution system of phage-assisted continuous evolution (PACE) to evolve PD1 continuously. Our results indicated that the newly evolved PD1 bound to PDL1 with higher affinity. The interactome analysis further suggested that these evolved PD1s exhibited higher specificity with PDL1. Therefore, these evolved PD1s may be applied as a new tool for tumor immunotherapy.