Papain grafted into the silica coated iron-based magnetic nanoparticles 'IONPs@SiO2-PPN' as a new delivery vehicle to the HeLa cells

(2020) Papain grafted into the silica coated iron-based magnetic nanoparticles 'IONPs@SiO2-PPN' as a new delivery vehicle to the HeLa cells. Nanotechnology. ISSN 0957-4484

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Abstract

The present study aims at engineering, fabrication, characterization, and qualifications of papain (PPN) conjugated SiO2-coated iron oxide nanoparticles 'IONPs@SiO2-PPN'. Initially fabricated iron oxide nanoparticles (IONPs) were coated with silica (SiO2) using sol-gel method to hinder the aggregation and to enhance biocompatibility. Next, PPN was loaded as an anticancer agent into the silica coated IONPs (IONPs@SiO2) for the delivery of papain to the HeLa cancer cells. This fabricated silica-coated based magnetic nanoparticle is introduced as a new physiologically-compatible and stable drug delivery vehicle for delivering of PPN to the HeLa cancer cell line. The IONPs@SiO2-PPN were characterized using FT-IR, AAS, FESEM, XRD, DLS, and VSM equipment. Silica was amended on the surface of iron oxide nanoparticles (IONPs, gamma-Fe2O3) to modify its biocompatibility and stability. The solvent evaporation method was used to activate PPN vectorization. The following tests were performed to highlight the compatibility of our proposed delivery vehicle: in vitro toxicity assay, in vivo acute systemic toxicity test, and the histology examination. The results demonstrated that IONPs@SiO2-PPN successfully reduced the IC50 values compared with the native PPN. Also, the structural alternations of HeLa cells exposed to IONPs@SiO2-PPN exhibited higher typical hallmarks of apoptosis compared to the cells treated with the native PPN. The in vivo acute toxicity test indicated no clinical signs of distress/discomfort or weight loss in Balb/C mice a week after the intravenous injection of IONPs@SiO2 (10 mg kg(-1)). Besides, the tissues architectures were not affected and the pathological inflammatory alternations detection failed. In conclusion, IONPs@SiO2-PPN can be chosen as a potent candidate for further medical applications in the future, for instance as a drug delivery vehicle or hyperthermia agent.

Item Type: Article
Keywords: iron-based magnetic nanoparticles papain silica drug delivery IN-VITRO EVALUATION DRUG-DELIVERY SUPERPARAMAGNETIC NANOPARTICLES ENHANCED PERMEABILITY SURFACE MODIFICATION SIZE FUNCTIONALIZATION BIODISTRIBUTION NANOMEDICINE HYPERTHERMIA
Subjects: QV Pharmacology
Divisions: Isfahan Clinical Toxicology Research Center
Journal or Publication Title: Nanotechnology
Journal Index: ISI
Volume: 31
Number: 19
Identification Number: https://doi.org/10.1088/1361-6528/ab6fd4
ISSN: 0957-4484
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/13329

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