1. Double-receptor-targeting multifunctional iron oxide nanoparticles drug delivery system for the treatment and imaging of prostate cancer
- Author
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Mohamed O. Abdalla, Clayton Yates, Kyle R. Willian, Shakir Uddin Ahmed, Jesse M. Jaynes, Timothy Turner, and Ahmad Bin Salam
- Subjects
0301 basic medicine ,Male ,Pharmaceutical Science ,02 engineering and technology ,Ferric Compounds ,targeted drug delivery ,chemistry.chemical_compound ,Prostate cancer ,Drug Delivery Systems ,International Journal of Nanomedicine ,Drug Discovery ,Internalization ,Receptor ,media_common ,Original Research ,Cell Death ,Chemistry ,iron oxide nanoparticles ,General Medicine ,Hydrogen-Ion Concentration ,021001 nanoscience & nanotechnology ,prostate cancer ,Magnetic Resonance Imaging ,Endocytosis ,3. Good health ,Drug delivery ,0210 nano-technology ,Iron oxide nanoparticles ,hormones, hormone substitutes, and hormone antagonists ,endocrine system ,Paclitaxel ,Cell Survival ,Surface Properties ,media_common.quotation_subject ,Iron ,Biophysics ,Bioengineering ,Biomaterials ,03 medical and health sciences ,Cell Line, Tumor ,medicine ,Animals ,Humans ,Computer Simulation ,Viability assay ,Particle Size ,LHRH-R ,Organic Chemistry ,Prostatic Neoplasms ,medicine.disease ,Urokinase receptor ,Drug Liberation ,030104 developmental biology ,Targeted drug delivery ,Cancer research ,Hydrodynamics ,Nanoparticles ,Peptides ,uPAR - Abstract
Md Shakir Uddin Ahmed,1 Ahmad Bin Salam,1 Clayton Yates,1 Kyle Willian,2 Jesse Jaynes,3 Timothy Turner,4 Mohamed O Abdalla5 1Department of Biology, Tuskegee University, Tuskegee, 2Department of Chemistry and Biochemistry, Auburn University, Auburn, 3Department of Environmental Sciences, Tuskegee University, Tuskegee, AL, 4Department of Biology, Jackson State University, Jackson, MS, 5Department of Chemistry, Tuskegee University, Tuskegee, AL, USA Abstract: As an alternative therapeutic treatment to reduce or eliminate the current side effects associated with advanced prostate cancer (PCa) chemotherapy, a multifunctional double-receptor-targeting iron oxide nanoparticles (IONPs) (luteinizing hormone-releasing hormone receptor [LHRH-R] peptide- and urokinase-type plasminogen activator receptor [uPAR] peptide-targeted iron oxide nanoparticles, LHRH-AE105-IONPs) drug delivery system was developed. Two tumor-targeting peptides guided this double-receptor-targeting nanoscale drug delivery system. These peptides targeted the LHRH-R and the uPAR on PCa cells. Dynamic light scattering showed an increase in the hydrodynamic size of the LHRH-AE105-IONPs in comparison to the non-targeted iron oxide nanoparticles (NT-IONPs). Surface analysis showed that there was a decrease in the zeta potential values for drug-loaded LHRH-AE105-IONPs compared to the NT-IONPs. Prussian blue staining demonstrated that the LHRH-AE105-IONPs were internalized efficiently by the human PCa cell line, PC-3. In vitro, magnetic resonance imaging (MRI) results confirmed the preferential binding and accumulation of LHRH-AE105-IONPs in PC-3 cells compared to normal prostate epithelial cells (RC77N/E). The results also showed that LHRH-AE105-IONPs significantly maintained T2 MRI contrast effects and reduced T2 values upon internalization by PC-3 cells. These paclitaxel-loaded double-receptor-targeting IONPs also showed an approximately twofold reduction in PC-3 cell viability compared to NT-IONPs. Keywords: LHRH-R, uPAR, prostate cancer, iron oxide nanoparticles, targeted drug delivery
- Published
- 2017