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  • Synthesis and characterization of biodegradable and thermosensitive polymeric micelles with covalently bound doxorubicin-glucuronide prodrug via click chemistry.

Synthesis and characterization of biodegradable and thermosensitive polymeric micelles with covalently bound doxorubicin-glucuronide prodrug via click chemistry.

Bioconjugate chemistry (2011-10-25)
M Talelli, K Morita, C J F Rijcken, R W M Aben, T Lammers, H W Scheeren, C F van Nostrum, G Storm, W E Hennink
ABSTRACT

Doxorubicin is an anthracycline anticancer agent that is commonly used in the treatment of a variety of cancers, but its application is associated with severe side effects. Biodegradable and thermosensitive polymeric micelles based on poly(ethylene glycol)-b-poly[N-(2-hydroxypropyl) methacrylamide-lactate] (mPEG-b-p(HPMAmLac(n))) have been studied as drug delivery systems for therapeutic and imaging agents and have shown promising in vitro and in vivo results. The purpose of this study was to investigate the covalent coupling of a doxorubicin-glucuronide prodrug (DOX-propGA3) to the core of mPEG-b-p(HPMAmLac(2)) micelles. This prodrug is specifically activated by human β-glucuronidase, an enzyme that is overexpressed in necrotic tumor areas. To this end, an azide modified block copolymer (mPEG(5000)-b-p(HPMAmLac(2)-r-AzEMA)) was synthesized and characterized, and DOX-propGA3 was coupled to the polymer via click chemistry with a high (95%) coupling efficiency. Micelles formed by this DOX containing polymer were small (50 nm) and monodisperse and released 40% of the drug payload after 5 days incubation at 37 °C in the presence of β-glucuronidase, but less than 5% in the absence of the enzyme. In vitro cytotoxicity experiments demonstrated that DOX micelles incubated with 14C cells showed the same cytotoxicity as free DOX only in the presence of β-glucuronidase, indicating full conversion of the polymer-bound DOX into the parent drug. Overall, this novel system is very promising for enzymatically responsive anticancer therapy.