When organic polymer-based drug nanocarriers become concentrated in macrophages, their influence on macrophage polarization has been rarely reported. This study prepared chitosan-based nanoparticles (CNs, 181.5 nm, +14.83 mV) and detected their impacts on macrophage reprogram. RT-PCR results showed in M1-like RAW264.7 cells (Mφ1), CNs decreased CD86 and iNOS expressions by 53.8% and 57.1%, and increased Arg-1 and IL-10 by 642.9% and 102.1%; in M2-like cells (Mφ2), CNs reduced Arg-1 and MR expressions by 70.7% and 93.0%, but increased CD86, iNOS and TNF-α by 290.4%, 86.2% and 728.6%; these results, consistent with cytokine secretions and surface CD86/CD206 expressions, showed CNs polarized Mφ1 and Mφ2 toward opposite type so as to improve the macrophage polarization homeostasis. In CCl4-induced mouse liver injury model, CNs reduced the hepatic Mφ1/Mφ2 ratio from 1.1 (model group) to 0.3, and then reduced the serum AST and ALT level by 42.3% and 39.0%; in mouse model of hepatocellular carcinoma, CNs decreased the number of CD163-positive cells and increased CD86-positive ones in tumor, and subsequently inhibited the tumor growth and metastasis. This study suggests CNs can improve the phenotype homeostasis of macrophages and subsequently promote the treatment of certain diseases such as liver injury and tumor.
Keywords: Chitosan nanoparticle; Liver injury; Macrophage; Phenotype homeostasis; Tumor.
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