Abstract
Docetaxel (DTX) is among the most frequently prescribed chemotherapy drugs and has recently been shown to extend survival in advanced prostate cancer patients. However, the poor water solubility of DTX prevents full exploitation of this potent anticancer drug. The current marketed formulation, Taxotere®, contains a toxic co-solvent that induces adverse reactions following intravenous injection. Nano-sized polymeric micelles have been proposed to create safer, water-soluble carriers for DTX, but many have failed to reach the clinic due to poor carrier stability in vivo. In this study, we aimed to improve micelle stability by synthesizing an ester prodrug of DTX, oligo(lactic acid)8-docetaxel (o(LA)8-DTX), for augmented compatibility with the core of poly(ethylene glycol)-b-poly(lactic acid) (PEG-b-PLA) micelles. Due to the enhancement of drug-carrier compatibility, we were able to load 50% (w/w) prodrug within the micelle, solubilize 20 mg/mL o(LA)8-DTX (~12 mg/mL DTX-equivalent) in aqueous media, and delay payload release. While the micelle core prohibited premature degradation, o(LA)8-DTX was rapidly converted to parent drug DTX through intramolecular backbiting (t1/2 = 6.3 h) or esterase-mediated degradation (t1/2 = 2.5 h) following release. Most importantly, o(LA)8-DTX micelles proved to be as efficacious but less toxic than Taxotere® in a preclinical mouse model of prostate cancer.
Highlights
Cancer remains a challenging disease to treat, with an estimated 19 million new cases throughout the world in 2020 [1]
Much progress has been made in developing alternative treatment options, chemotherapy continues to be an effective tool in the fight against cancer
The taxanes in particular represent an important class of anticancer drugs that are frequently prescribed to treat a wide variety of solid tumors [2]
Summary
Cancer remains a challenging disease to treat, with an estimated 19 million new cases throughout the world in 2020 [1]. Much progress has been made in developing alternative treatment options, chemotherapy continues to be an effective tool in the fight against cancer. The taxanes in particular represent an important class of anticancer drugs that are frequently prescribed to treat a wide variety of solid tumors [2]. Is a potent taxane that binds to microtubules with high affinity to promote cell cycle arrest and subsequent apoptosis and is approved to treat cancers including breast cancer, non-small cell lung cancer, and castration-resistant prostate cancer [3,4]. It is poorly water-soluble, requiring a mixture of Tween 80 and ethanol to effectively solubilize the drug for intravenous (IV) injection [5]. Tween 80 present in the marketed formulation Taxotere® , has been known to induce serious side effects and off-target toxicities, most notably causing hypersensitivity reactions and vesicular degeneration [6,7]
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