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Synergistic Provoking of Pyroptosis and STING Pathway by Multifunctional Manganese‐Polydopamine Nano‐Immunomodulator for Enhanced Renal Cell Carcinoma Immunotherapy

Yufei Du, Yiyin Mai, Zhiwen Liu, Guanghui Lin, Siweier Luo, Chipeng Guo, Ge Qiao, Le Wang, Shuang Zhu, Yiming Zhou, Yue Pan

2025Advanced Healthcare Materials12 citationsDOIOpen Access PDF

Abstract

Manganese ions are known to enhance anti-tumor immunity by activating the cGAS-STING signaling pathway. However, precise modulation of the tumor microenvironment using manganese ions remains a challenge. Dopamine, with its controlled release properties within the tumor microenvironment, offers significant potential for precision drug delivery systems. Metastatic renal cell carcinoma (RCC), being refractory to conventional treatments, necessitates innovative therapeutic approaches. In this study, a multifunctional manganese-polydopamine nano-immunomodulator coated with hyaluronic acid (PDA-Mn-HA NPs) is developed. These nanoparticles selectively bind to CD44 molecules, which are highly expressed in tumor-associated macrophages and RCC cells, and release manganese ions in a tumor microenvironment-responsive manner. Treatment with PDA-Mn-HA NPs effectively induces macrophage M1 polarization, triggers the production of pro-inflammatory cytokines and chemokines. Transcriptomic analysis reveals that PDA-Mn-HA NPs polarize and activate macrophages through the reactive oxygen species(ROS)-STING-p38/MAPK signaling pathway. Additionally, PDA-Mn-HA NPs induce ROS-caspase-3/GSDME-dependent pyroptosis in RCC cells via a Fenton-like reaction. In RCC mouse models, PDA-Mn-HA NPs remodel the macrophage-mediated immune microenvironment, enhance immune cell infiltration, and significantly suppress tumor growth. In conclusion, multifunctional PDA-Mn-HA NPs demonstrate translational potential by addressing the limitations of precision manganese delivery and achieving synergistic targeting of macrophages and tumor cells, offering a promising therapeutic strategy for RCC.

Topics & Concepts

Tumor microenvironmentPyroptosisCancer researchImmune systemMacrophage polarizationChemistryImmunotherapyMacrophageApoptosisBiologyProgrammed cell deathBiochemistryImmunologyTumor cellsIn vitroImmune cells in cancerFerroptosis and cancer prognosisExtracellular vesicles in disease