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Synergistic rheumatoid arthritis therapy by interrupting the detrimental feedback loop to orchestrate hypoxia M1 macrophage polarization using an enzyme-catalyzed nanoplatform

Dong Guo, Hui Liu, Sheng Zhao, Xinya Lu, Haoyu Wan, Yitao Zhao, Xinzhi Liang, Anbiao Zhang, Mengyuan Wu, Zhisheng Xiao, Ning Hu, Zhonghui Li, Denghui Xie

2024Bioactive Materials22 citationsDOIOpen Access PDF

Abstract

A detrimental feedback loop between hypoxia and oxidative stress consistently drives macrophage polarization toward a pro-inflammatory M1 phenotype, thus persistently aggravating rheumatoid arthritis (RA) progression. Herein, an enzyme-catalyzed nanoplatform with synergistic hypoxia-relieving and reactive oxygen species (ROS)-scavenging properties was developed using bovine serum albumin-bilirubin-platinum nanoparticles (BSA-BR-Pt NPs). Bilirubin was employed to eliminate ROS, while platinum exhibited a synergistic effect in scavenging ROS and simultaneously generated oxygen. In mice RA model, BSA-BR-Pt NPs treatment exhibited superior effects, resulting in significant improvements in joint inflammation, cartilage damage, and bone erosion, compared to methotrexate, the most widely used antirheumatic drug. Mechanistically, RNA-sequencing data and experimental results elucidated that BSA-BR-Pt NPs induced a re-polarization of hypoxic M1 macrophages to M2 macrophages via switching glycolysis to oxidative phosphorylation through the inhibition of HIF-1α pathway. Collectively, this research for the first time elaborated the underlying mechanism of enzyme-catalyzed nanoplatform in orchestrating macrophage polarization, and identified a novel therapeutic strategy for RA and other inflammatory disorders.

Topics & Concepts

Macrophage polarizationChemistryReactive oxygen speciesRheumatoid arthritisHypoxia (environmental)InflammationOxidative stressPharmacologyCancer researchBiochemistryMacrophageImmunologyMedicineOxygenIn vitroOrganic chemistryAutophagy in Disease and TherapyImmune cells in cancerExtracellular vesicles in disease