Dual-targeting tumor cells and tumor associated macrophages with lipid coated calcium zoledronate for enhanced lung cancer chemoimmunotherapy

Lung cancer is the leading cause of cancer death among both men and women, and non-small cell lung cancer (NSCLC) accounts for almost 80% of such death. Tumor associated macrophage (TAMs) are abundant components in NSCLC. TAMs play critical roles in angiogenesis, immune escape and chemoresistance. Here we developed a dual-targeting drug delivery system (CaZOL@BMNPs) of zoledronate, which could bind to both tumor cells with overexpressed biotin receptors and macrophage mannose receptor (MMR) positive TAMs. The biotin- and mannose-modified lipid coated calcium zoledronate nanoparticles were preferentially internalized in both tumor cells and TAMs, and thereby inhibited their survivals. Our studies demonstrated that CaZOl@BMNPs treatment obviously reduced angiogenesis, reprogrammed immunosuppressive tumor microenvironment and eventually restrained tumor progression with negligible systemic toxicity. Collectively, CaZOL@BMNPs could be a promising approach by dual-targeting tumor cells and TAMs for NSCLS chemoimmunotherapy.