The self-assembling camptothecin-tocopherol prodrug: An effective approach for formulating camptothecin

Camptothecin (CPT) is a potent antitumor agent and functions via inhibiting the activity of topoisomerase I during DNA replication. However, the clinical application of CPT has been greatly hindered by its extremely poor solubility, the instability of its active lactone ring in blood stream, as well as the nonspecific toxicity to normal tissues. In addition, most of the formulations developed so far are not applicable for formulating CPT. In this study, two novel CPT prodrugs were developed by conjugating CPT to alpha-tocopherol via a carbonate ester bond (CPT-VE) or disulfide linkage (CPT-S-S-VE). Both CPT prodrugs were able to self-assemble into nanofibers with the facilitation of a PEG(5K)-Fmoc-VE2-based nanomicellar carrier. Both prodrug nanoassemblies exhibited excellent stability. Fluorescence quenching, UV absorbance, and FT-IR studies demonstrated strong interactions between carrier and prodrugs, including hydrophobic interaction, pi-pi stacking, as well as hydrogen bonding. NMR studies suggested, that prodrugs were successfully incorporated into PEG(5K)-Fmoc-VE2 during self-assembly process. In vitro, PEG(5K)-Fmoc-VE2/CPT-S-S-VE presented significantly higher level of cytotoxicity on tumor cells compared to PEG(5K)-Fmoc-VE2/CPT-VE. Biodistribution study showed that CPT-S-S-VE formulated in PEG(5K)-Fmoc-VE2 micelles was effectively converted to parent CPT following delivery to tumor tissues. Finally, PEG(5K)-Fmoc-VE2/CPT-S-S-VE nanofibers showed superior tumor growth inhibition in an aggressive murine breast cancer model (4T1.2). (c) 2015 Elsevier Ltd. All rights reserved.