Abstract
Fenbendazole (FEN), a broad-spectrum benzimidazole anthelmintic, suppresses cancer cell growth through various mechanisms but has low solubility and achieves low blood concentrations, which leads to low bioavailability. Solubilizing agents are required to prepare poorly soluble drugs for injections; however, these are toxic. To overcome this problem, we designed and fabricated low-toxicity Soluplus® polymeric micelles encapsulating FEN and conducted toxicity assays in vitro and in vivo. FEN-loaded Soluplus® micelles had an average particle size of 68.3 ± 0.6 nm, a zeta potential of −2.3 ± 0.2 mV, a drug loading of 0.8 ± 0.03%, and an encapsulation efficiency of 85.3 ± 2.9%. MTT and clonogenic assays were performed on A549 cells treated with free FEN and FEN-loaded Soluplus® micelles. The in vitro drug release profile showed that the micelles released FEN more gradually than the solution. Pharmacokinetic studies revealed lower total clearance and volume of distribution and higher area under the curve and plasma concentration at time zero of FEN-loaded Soluplus® micelles than of the FEN solution. The in vivo toxicity assay revealed that FEN-loaded Soluplus® micelle induced no severe toxicity. Therefore, we propose that preclinical and clinical safety and efficacy trials on FEN-loaded Soluplus® micelles would be worthwhile.
Highlights
Certain cancers have high mortality rates in humans
dynamic light scattering (DLS) analysis revealed that the average particle size of the FEN-loaded Soluplus® micelles was 68.3 nm
The other polymeric micelles prepared with mPEG-b-PLA, Pluronic® F127, and mPEO-b-PCL were much larger (Figure 2)
Summary
Certain cancers have high mortality rates in humans. the development of safe anticancer drugs with few side effects is an important research objective in pharmaceutical science. Fenbendazole (FEN) is a broad-spectrum benzimidazole anthelmintic It has been widely used in veterinary medicine and induces no significant side effects. FEN suppresses cancer cell growth through various mechanisms It inhibits proteasomal activity and induces endoplasmic reticulum stress and reactive oxygen species-dependent apoptosis [6]. Cremophor EL may induce peripheral neurotoxicity, neutropenia, and hypersensitivity reactions [13,14,15] Another solubilizing agent, polysorbate 80 (Tween 80®), which exerts acute toxicity in an in vivo zebrafish model, is used in Taxotere®, an anticancer drug containing docetaxel [16]. The mPEG-b-PLA micelle can hold and carry multiple drugs [26] This polymer can remain in circulation for a long time and has low toxicity [27]. Intracellular ATP depletion and lowered mitochondrial potential are assumed to be involved in the modulation of MDR [30]
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