Litcius/Paper detail

Reduction Sensitive Polymers Delivering Cationic Platinum Drugs as STING Agonists for Enhanced Chemo‐Immunotherapy

Lingpu Zhang, Kun Shang, Xiaomin Li, Meifang Shen, Sheng Lü, Dongsheng Tang, Hongbin Han, Yingjie Yu

2022Advanced Functional Materials63 citationsDOI

Abstract

Abstract STING agonists have made great progress in tumor immunotherapy. However, the inherent instability and low bioavailability have limited their wide applications. Herein, a reduction sensitive polymer with pair‐wised carboxyl groups that further encapsulate a cationic phenanthriplatin drug (PhenPt) as STING agonists into nanoparticles (PhenPt NPs) via electrostatic interactions is designed. PhenPt NP can release PhenPt in cancer cells, which then induce DNA damage, activate the STING signaling pathway, stimulate innate and adaptive immune responses, and improve the chemo‐immunotherapy efficacy. In vitro, for the first time it is found that PhenPt NP can activate cGAS‐STING pathway. Further genome‐wide RNA‐sequencing reveals that DNA replication, mismatch repair, homologous recombination, and other gene repair‐related pathways are involved. In vivo, PhenPt NP are found to completely inhibit the tumor growth, thereby shifting the tumor microenvironment from immunosuppressive to immunostimulatory phenotype, and boosting antitumor immune responses for long‐term immunity. In addition, PhenPt NP combined with checkpoint blockade therapy (a‐PD‐L1) can elicit long‐term immune response on both primary and distant tumors by activating the cGAS‐STING pathway. Overall, this nano‐delivery system with cationic chemotherapeutic drugs can greatly enhance DNA damage and activate immunity, hence providing a promising strategy for enhanced chemo‐immunotherapy.

Topics & Concepts

Stimulator of interferon genesImmunotherapyStingCancer immunotherapyImmune systemTumor microenvironmentImmune checkpointCancer researchInnate immune systemDNA repairBiologyDNAImmunologyBiochemistryEngineeringAerospace engineeringinterferon and immune responsesUbiquitin and proteasome pathwaysRNA modifications and cancer