Abstract
Tumor cell targeting is a promising strategy for enhancing the therapeutic potential of chemotherapy agents. Polyethylene glycol (PEG)-coated (sterically stabilized) liposomes show enhanced accumulation on the surface of tumors, but steric hindrance by PEGylation reduces the association of the liposome-bound ligand with its receptor. To increase folate receptor (FR) targeting, we optimized the concentration and PEG spacer length of folate-PEG-lipid in liposomes. Three types of folate-linked liposomal doxorubicin were designed and prepared by optimizing the concentration and PEG spacer length of folate-PEG-lipid in PEGylated or non-PEGylated liposomes and by masking folate-linked liposomes where the folate ligand is "masked" by adjacent PEG spacers. The liposome targeting efficacy was evaluated in vitro and in vivo. In human oral carcinoma KB cells, which overexpress FR, modification with sufficiently long PEG spacer and a high concentration of folate ligand to non-PEGylated liposomes increased the FR-mediated association and cytotoxicity more than with PEGylated and masked folate-linked liposomes. On the contrary, in mice bearing murine lung carcinoma M109, modification with the folate ligand in PEGylated and masked folate-linked liposomes showed significantly higher antitumor effect than with non-PEGylated liposomes irrespective of the length of time in the circulation after intravenous injection. The results of this study will be beneficial for the design and preparation of ligand-targeting carriers for cancer treatment.
Highlights
Tumor cell targeting is a promising strategy for enhancing the therapeutic potential of chemotherapy agents
We have reported on the optimal folate concentration and Polyethylene glycol (PEG) spacer length with nanoemulsions and polymer micelles [20, 21]
We evaluated folate-mediated association of liposomal doxorubicin with human oral carcinoma KB cells and murine lung carcinoma M109 cells, which both overexpresses folate receptor (FR), in terms of the effect of PEG spacer length and the ratio of modification of the folate ligand of liposomes with or without PEG-coating and of the degree of masking of folate ligands on liposomes by adjacent PEG
Summary
Tumor cell targeting is a promising strategy for enhancing the therapeutic potential of chemotherapy agents. M109 cells were used to evaluate the accumulation of folate-linked liposomes in tumor tissue and therapeutic effect. Effect of F-PEG-DSPE in folate-linked liposomal doxorubicin on cellular uptake and drug release.
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