Recurrence after tumor resection is mainly caused by post-operative inflammation and residual cancer cells, which is a serious obstacle to breast cancer treatment. Traditional nanoparticles rely primarily on the enhanced permeability and retention (EPR) effect in well-vascularized tumors. In this study, a macrophage-based carrier is designed to enhance the efficiency of targeting to recurrent tumors through a "dual-guide" strategy. After tumor resection, a burst of inflammatory factors occurs in the resection wound, which can recruit monocytes/macrophages rapidly. Combined with the tropism of monocyte chemoattractant protein, a large number of macrophage-mediated carriers will be recruited to surgical recurrence sites. Octaarginine (RRRRRRRR, R8)-modified liposomes in macrophages contain two agents with different pharmacological mechanisms, paclitaxel (PTX) and resveratrol (Res), which have enhanced therapeutic effects. In vitro study demonstrated that macrophage-mediated carriers approach 4 T1 cells through an inflammatory gradient and reach recurrence tumors through a "dual-guide" strategy. Then, membrane fusion and inflammation-triggered release deliver the drug into the recurrent tumor cells. In vivo experiments show that macrophage-based carriers exhibit effective tumor-targeting ability, especially in post-operation situations. More importantly, macrophage-mediated liposomes encapsulated with PTX and Res inhibit tumor recurrence in both ectopic and orthotopic 4 T1 post-operative recurrence models.
Keywords: Bioinspired drug delivery; Breast cancer resection; Inflammatory tropism; Macrophage-based carrier; Post-operative recurrence.
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