Cationic liposome is a potential nanocarrier to deliver drugs to solid tumor with proven efficiency in targeting tumor tissues. However, the major limitation is their charge-related instability and blood toxicity via intravenous injection. In order to overcome these problems and to maintain tumor targeting potency, we modified the cationic liposomes with low molecular weight heparin (LMWH) to obtain series of liposomes with different surface charges. Both in vitro and in vivo studies including serum stability, blood hemolysis, cellular uptake, cytotoxicity and in vivo biodistribution were evaluated. The results indicated the cationic liposome with surface charge of 5 mV (denoted as LLip-C) had the similar stability in serum and mild hemocytolysis compared with that of anionic liposome (LLip-D), but better cellular uptake owing to electrostatic interaction between cationic liposomes and cell membranes. Furthermore, we prepared curcumin-loaded liposomes to investigate the therapy efficiency. The intracellular distribution of curcumin-loaded LLip-C (Curcumin-LLip-C) was inclined to locate in cytoplasm and nuclei than curcumin-loaded LLip-D (Curcumin-LLip-D). In vitro cytotoxicity of Curcumin-LLip-C also exhibited higher inhibition of tumor cells than that of Curcumin-LLip-D. These results certified that a slightly positive surface charge of nanocarriers could achieve the balance between well antitumor efficiency and mild adverse effects.
Tumor metastasis contributes to high cancer mortality. Tumor cells in lymph nodes (LNs) are difficult to eliminate but underlie uncontrollable systemic metastasis. The CC chemokine receptor 7 (CCR7) is overexpressed in tumor cells and interacts with CC chemokine ligand 21 (CCL21) secreted from LNs, potentiating their lymphatic migration. Here, a site-specific polyplex is developed to block the CCR7-CCL21 signal and kill tumor cells toward LNs, greatly limiting their lymphatic infiltration. A CCR7-targeting small interfering RNA (siCCR7) is condensed by mPEG-poly-(lysine) with chlorin e6 (Ce6) modification (PPLC) to form PPLC/siCCR7. The knockdown of CCR7 by siCCR7 in tumor cells significantly reduced their response on CCL21 and LN tropism. Additionally, photodynamic therapy-mediated immune activation precisely targets and kills tumor cells released from the primary foci before they reaches the LNs, reducing the number of tumor cells entering the LNs. Consequently, the PPLC/siCCR7 polyplexes inhibited up to 92% of lung metastasis in 4T1 tumor bearing mice and reduced tumor cell migration to LNs by up to 80%. This site-specific strategy optimized anti-metastasis efficacy and promotes the clinical translational development of anti-metastatic therapy.
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