Abstract

Sunitinib is a first-line treatment for renal cell carcinoma (RCC), but suffers from drug resistance, causing therapy failure. Therefore, nano-scale delivery systems should be introduced for targeted delivery. Metal-organic frameworks (MOFs) are attractive drug carriers that not only enable multidrug combination therapies but also exert photodynamic effects by incorporating photosensitizers as components. Here, a Zr-based porphyrinic nanoscale MOF, PCN224, was prepared as the carrier for the co-delivery of sunitinib and the siRNA against vascular endothelial growth factor receptor-2 (VEGFR-2). Drug-loaded PCN-224 is coated with hyaluronic acid (HA) to prevent drug molecular leakage and to exert tumor-targeting effects (CD44 in tumor cells). Photodynamic therapy was conducted under 660 nm laser (50 mW·cm−2, 10 min) irradiation. Compared with St/siVEGFR-2@PCN-224@HA without the HA coating, St/siVEGFR-2@PCN-224@HA significantly suppressed cell viability and promoted cell apoptosis. Laser irradiation further increased the anti-cancer effect of St/siVEGFR-2@PCN-224@HA by generating cytotoxic ROS. H&E staining of major organs revealed no signs of damage, indicating the biosafety of St/siVEGFR-2@PCN-224@HA. The prepared St/siVEGFR-2@PCN-224@HA system enables triple inhibition of tumor growth via a combination of targeted therapy and genetic and photodynamic therapy to enhance the therapeutic effects on RCC.

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