Abstract
The urokinase system is overexpressed in epithelial ovarian cancer cells and is expressed at low levels in normal cells. To develop a platform for intracellular and targeted delivery of therapeutics in ovarian cancer, we conjugated urokinase plasminogen activator (uPA) antibodies to liposomal nanobins. The arsenic trioxide-loaded nanobins had favorable physicochemical properties and the ability to bind specifically to uPA. Confocal microscopy showed that the uPA-targeted nanobins were internalized by ovarian cancer cells, whereas both inductively coupled plasma optical mass spectrometry (ICP-MS) and fluorescence-activated cell sorting (FACS) analyses confirmed more than four-fold higher uptake of targeted nanobins when compared with untargeted nanobins. In a coculture assay, the targeted nanobins showed efficient uptake in ovarian cancer cells but not in the normal primary omental mesothelial cells. Moreover, this uptake could be blocked by either downregulating uPA receptor expression in the ovarian cancer cells using short-hairpin RNA (shRNA) or by competition with free uPA or uPA antibody. In proof-of-concept experiments, mice bearing orthotopic ovarian tumors showed a greater reduction in tumor burden when treated with targeted nanobins than with untargeted nanobins (47% vs. 27%; P < 0.001). The targeted nanobins more effectively inhibited tumor cell growth both in vitro and in vivo compared with untargeted nanobins, inducing caspase-mediated apoptosis and impairing stem cell marker, aldehyde dehydrogenase-1A1 (ALDH1A1), expression. Ex vivo fluorescence imaging of tumors and organs corroborated these results, showing preferential localization of the targeted nanobins to the tumor. These findings suggest that uPA-targeted nanobins capable of specifically and efficiently delivering payloads to cancer cells could serve as the foundation for a new targeted cancer therapy using protease receptors.
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