Litcius/Paper detail

Activating Innate Immunity by a STING Signal Amplifier for Local and Systemic Immunotherapy

Wen Song, Shujun Song, Jing Kuang, Hang Yang, Tao Yu, Fan Yang, Tao Wan, Yi Xu, Sitian Wei, Mu-Xuan Li, Yuan Xiong, Ying Zhou, Wen‐Xiu Qiu

2022ACS Nano76 citationsDOI

Abstract

The number of patients who benefit from acquired immunotherapy is limited. Stimulator of interferon genes (STING) signal activation is a significant component to enhance innate immunity, which has been used to realize broad-spectrum immunotherapy. Here, M@P@HA nanoparticles, as a STING signal amplifier, are constructed to enhance innate immunotherapy. Briefly, when M@P@HA was targeted into tumor cells, the nanoparticles decomposed with Mn2+ and activated the release of protoporphyrin (PpIX). Under light irradiation, the generated reactive oxygen species disrupt the cellular redox homeostasis to lead cytoplasm leakage of damaged mitochondrial double-stranded (ds) DNA, which is the initiator of the STING signal. Simultaneously, Mn2+ as the immunoregulator could significantly increase the activity of related protein of a STING signal, such as cyclic GMP-AMP synthase (cGAS) and STING, to further amplify the STING signal of tumor cells. Subsequently, the STING signal of tumor-associated macrophages (TAM) is also activated by capturing dsDNA and Mn2+ that escaped from tumor cells, so as to enhance innate immunity. It is found that, by amplifying the STING signal of tumor tissue, M@P@HA could not only activate innate immunity but also cascade to activate CD8+ T cell infiltration even in a tumor with low immunogenicity.

Topics & Concepts

StingInnate immune systemStimulator of interferon genesImmunotherapyImmunityCancer researchBiologyImmunologyMedicineImmune systemEngineeringAerospace engineeringinterferon and immune responsesNanoplatforms for cancer theranosticsImmune cells in cancer