In situ formed reactive oxygen species–responsive scaffold with gemcitabine and checkpoint inhibitor for combination therapy

Chao Wang(University of North Carolina at Chapel Hill), Jinqiang Wang(University of North Carolina at Chapel Hill), Xudong Zhang(University of North Carolina at Chapel Hill), Shuangjiang Yu(University of North Carolina at Chapel Hill), Di Wen(University of North Carolina at Chapel Hill), Quanyin Hu(University of North Carolina at Chapel Hill), Yanqi Ye(University of North Carolina at Chapel Hill), Hunter N. Bomba(University of North Carolina at Chapel Hill), Xiuli Hu(University of North Carolina at Chapel Hill), Zhuang Liu(Soochow University), Gianpietro Dotti(University of North Carolina at Chapel Hill), Zhen Gu(University of North Carolina at Chapel Hill)
Science Translational Medicine
February 21, 2018
10.1126/scitranslmed.aan3682
Cited by 577

Abstract

Patients with low-immunogenic tumors respond poorly to immune checkpoint blockade (ICB) targeting the programmed death-1 (PD-1)/programmed death-ligand 1 (PD-L1) pathway. Conversely, patients responding to ICB can experience various side effects. We have thus engineered a therapeutic scaffold that, when formed in situ, allows the local release of gemcitabine (GEM) and an anti-PD-L1 blocking antibody (aPDL1) with distinct release kinetics. The scaffold consists of reactive oxygen species (ROS)-degradable hydrogel that releases therapeutics in a programmed manner within the tumor microenvironment (TME), which contains abundant ROS. We found that the aPDL1-GEM scaffold elicits an immunogenic tumor phenotype and promotes an immune-mediated tumor regression in the tumor-bearing mice, with prevention of tumor recurrence after primary resection.

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