Chemotherapy, as the main treatment for breast cancer, inevitably damages normal tissues due to the lack of targeting. Various nano targeting drug delivery systems (TDDS) have the potential to be developed as anticancer therapeutics. Although mono-ligand-directed liposomes have been used with some success, dual-ligand-directed liposomes exhibit promising advantages. In current work, we synthesized a Y-shaped ligand covalently linking fructose and biotin (Fru-Bio-Chol) to prepare a dual-targeting liposome Fru-Bio-Lip for breast cancer. The targeting ability was evaluated by comparing the Fru-Bio-Lip with the non-modified liposome (Lip), fructose or biotin mono modified liposomes (Fru-Lip and Bio-Lip), and another dual-targeting liposome (Fru + Bio-Lip) physically mixing fructose and biotin mono modified ligands (Fru-Chol and Bio-Chol). The cellular uptake of Fru-Bio-Lip is 3.27-, 1.81-, 2.19-, 1.15-times that of Lip, Fru-Lip, Bio-Lip and Fru + Bio-Lip on 4T1 cells, and 3.11-, 1.80-, 1.89-, 1.15-times on MCF-7 cells. Additionally, the uptake mechanism indicates the uptake of Fru-Bio-Lip is energy-dependently achieved through multiple endocytosis pathway with a dual recognition of fructose and biotin by GLUT and SMVT. The cytotoxicity and apoptosis assay show PTX-Fru-Bio-Lip among liposomes have the strongest proliferation inhibitory effect on breast cancer cells, and the apoptosis rate is 1.7-times that of PTX-Lip. images indicate Fru-Bio-Lip have the strongest tumour enrichment ability, which is 2.76-, 1.60-, 1.96-, 1.40-times that of Lip, Fru-Lip, Bio-Lip and Fru + Bio-Lip, respectively. Overall, the fructose and biotin covalently modified liposomes improved breast cancer targeting ability, demonstrating great potential as a drug delivery system for breast cancer.
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| http://dx.doi.org/10.1080/08982104.2021.1894171 | DOI Listing |
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