Targeted anticancer prodrug therapy using dextran mediated enzyme–antibody conjugate and β-cyclodextrin-curcumin inclusion complex

Abstract

A targeted and controlled drug delivery system based on β-cyclodextrin (β-CD) for encapsulation and controlled release of hydrophobic drugs in the presence of maltogenic amylase (MAase), as a cyclodextrin-hydrolyzing enzyme, and trastuzumab antibody has been developed. In this study, the inclusion complex of curcumin (CUR), as a model anticancer compound, with β-CD was prepared and we constructed an antibody-enzyme bioconjugate (dextran mediated MAase–Trastuzumab bioconjugate) for controlled and targeted release of CUR at HER2 positive cancer cells (including SKBR3 and BT474). Immunocytochemistry analysis indicated that the MAase–Trastuzumab bioconjugate had significant binding affinities to HER2 positive cancer cells and demonstrated high enzyme activity to degrade β-CD in order to rapid release of CUR on targeted cell surface. Fluorescence microscopy images and cytotoxicity studies represent significantly greater cellular uptake and anti-proliferative effects of CUR by β-CD-CUR/MAase-Trastuzumab bioconjugate compared to free CUR and β-CD-CUR in presence and absence of MAase in HER2 positive cells. The results from flow cytometric assay suggest that the β-CD-CUR/MAase-Trastuzumab conjugate exhibited higher cytotoxic and apoptotic effects on cancer cells compared to other formulation. We demonstrate that this formulation has a potential application for targeted and controlled release of drugs in cancer therapy with increased therapeutic efficiency.