Immunogenic cell death (ICD) has been widely employed to potentiate cancer immunotherapy due to its capability to activate the anticancer immune response. Although various ICD inducers have been described, the development of synthetic materials with intrinsic ICD-inducing competency has rarely been reported. Herein, we identify a derivative of the fourth generation polyamidoamine (PAMAM) modified with multiple seven-membered heterocyclic rings, G4P-C7A, as a robust ICD inducer. G4P-C7A evokes characteristic release of damage-associated molecular patterns in tumor cells and induces efficient dendritic cell maturation. Mechanistic studies suggest that G4P-C7A can selectively accumulate in the endoplasmic reticulum and mitochondria to generate reactive oxygen species. G4P-C7A-treated tumor cells can work as potent vaccines to protect against secondary tumor implantation. Either local or systemic injection of G4P-C7A alone can effectively inhibit tumor growth by eliciting robust antitumor immune response. The combination of G4P-C7A with immunotherapeutic antibodies such as anti-PD1 (aPD-1) and anti-CD47 (aCD47) further potentiates the antitumor effect in either CT26 or 4T1 tumor model. This study offers a simple but effective strategy to induce ICD to boost cancer immunotherapy.
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