In this study, prostate-specific membrane antigen (PSMA)-targeted and core-crosslinked micelles were developed based on prostate cancer-binding peptide (PCP) modified glycol chitosan-lipoic acid (PGC-LA) conjugate. The degree of substitution was 5.2 PCP groups and 10.7 lipoic acid groups per 100 sugar residues of glycol chitosan in PGC-LA copolymer. Docetaxel (DTX) was chosen as a model anti-tumor drug. The DTX-loaded micelles were prepared by an o/w method, and core-crosslinked micelles were further constructed by using a catalytic amount of dithiothreitol. The mean diameter of DTX-loaded core-crosslinked PGC-LA (DTX-PGC-LA/cc) micelles was 397 nm determined by dynamic light scattering (DLS). In vitro DTX released from core-crosslinked micelles was slower than that from non-crosslinked counterpart. Blank micelles exhibited good biocompatibility. Additionally, cellular uptake and cytotoxcity of PCP-modified micelles were higher than those of micelles without PCP in PSMA-positive LNCaP cells. Importantly, DTX-PGC-LA/cc demonstrated the stronger anti-tumor efficacy against LNCaP tumor xenograft models than DTX injection and other DTX-loaded micelles. Taken together, this study provides a potential way in developing actively targeted and core-crosslinked micelles for hydrophobic drug delivery in cancer therapy.
Keywords: Core-crosslink; Docetaxel; Glycol chitosan; Prostate-specific membrane antigen; Targeted micelles.
Copyright © 2018. Published by Elsevier B.V.