Abstract

Amphiphilic drug conjugates can self-assemble into nanovehicles for cancer drug delivery, but the key is to design stable yet intracellular labile drug linkers for drug retention during blood circulation but fast intracellular drug release. The conjugation of paclitaxel (PTX) is generally via the ester of its 2′-hydroxyl group, but the ester is either too stable to release PTX in the cytosol or so labile that hydrolyzes during circulation. Herein, we report a p-(boronic ester)benzyl-based tumor-specifically cleavable linker for preparing PTX-conjugate with polyethylene glycol (PEG, Mw = 5000 Da) (PEG-B-PTX). The amphiphilic PEG-B-PTX self-assembled into micelle with an average size of ~50 nm and a PTX loading content of 13.3 wt%. The PEG-B-PTX micelles were very stable at the normal physiological environment and thus circulated long in the blood compartment, but fast dissociated and released PTX in response to the elevated reactive‑oxygen species (ROS) level in tumors. The conjugate micelles showed significantly improved antitumor efficiency in vitro and in vivo against human glioma and breast cancer cells, and reduced toxicity compared to the clinically used Taxol. Thus, the PTX-conjugate micelles were characteristic of well-characterized chemical structure and nanostructure, precise and reproducible drug loading efficiency (i.e., 100%) and fixed loading content, high PTX loading content due to PTX itself as part of the carrier, no burst drug release, and easy and reproducible fabrication of the micelles, which are all essential for clinical translation.

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