Checkpoint Nano-PROTACs for Activatable Cancer Photo-immunotherapy.

Checkpoint immunotherapy holds great potential to treat malignancies via blocking the immunosuppressive signaling pathways, which however suffers from inefficiency and off-target adverse effects. We herein report checkpoint nano-proteolysis targeting chimeras (nano-PROTACs) in combination with photodynamic tumor regression and immunosuppressive protein degradation to block checkpoint signaling pathways for activatable cancer photo-immunotherapy. These nano-PROTACs are composed of a photosensitizer (protoporphyrin IX, PpIX) and an Src homology 2 domain-containing phosphatase 2 (SHP2)-targeting PROTAC peptide (aPRO) via a caspase 3-cleavable segment. aPRO is activated by the increased expression of caspase 3 in tumor cells after phototherapeutic treatment and induces targeted degradation of SHP2 via the ubiquitin-proteasome system. The persistent depletion of SHP2 blocks the immunosuppressive checkpoint signaling pathways (CD47/SIRPα and PD-1/PD-L1), thus reinvigorating antitumor macrophages and T cells. Such a checkpoint PROTAC strategy synergizes immunogenic phototherapy to boost antitumor immune response. Thus, this study represents a generalized PROTAC platform to modulate immune-related signaling pathways for improved anticancer therapy. This article is protected by copyright. All rights reserved.