Type: Article

The antitoxic effects of quercetin and quercetin-conjugated iron oxide nanoparticles (QNPs) against H2O2-induced toxicity in PC12 cells

Journal: International Journal Of Nanomedicine (11782013)Year: 2019Volume: 14Issue: Pages: 6813 - 6830

Yarjanli Z. Ghaedi K.Esmaeili A.^a Zarrabi A.Rahgozar S.^a

a :University of Isfahan - IRAN(IR) - Isfahan

Gold • GreenDOI:10.2147/IJN.S212582Language: English

Abstract

Background: We recently showed that quercetin-conjugated iron oxide nanoparticles (QNPs) promoted the bioavailability of quercetin (Qu) in the brain of rats and improved the learning and memory of diabetic rats. In this study, we characterized the modifications in the antitoxic effects of Qu after conjugation. Materials and methods: We conjugated Qu to dextran-coated iron oxide nanoparticles (DNPs) and characterized DNPs and QNPs using FTIR, XRD, DLS, Fe-SEM, and EDX analyzes. The antiradical properties of Qu, DNPs, and QNPs were compared by 2, 2-diphenyl- 1-picrylhydrazyl (DPPH) scavenging activity assay. Catalase-like activities of DNPs and QNPs were estimated using catalase activity assay kit, and the antitoxic effects of Qu and QNPs were evaluated with spectrophotometry, MTT assay, flow cytometry, and real-time q-PCR. Results: Qu had a stronger anti-radical activity than DNPs and its activity decreased after being conjugated to DNPs. The catalase-like activity of DNPs remained intact after conjugation. DNPs had less toxicity on PC12 cells viabilities as compared to free Qu, and the conjugation of Qu with DNPs attenuated its cytotoxicity. Furthermore, MTT assay results indicated 24 h pretreatment with Qu had more protective effects than QNPs against H2O2- induced cytotoxicity, while Qu and QNPs had the same effects for 48 and 72 h incubation. Although the total antioxidant capacity of Qu was attenuated after conjugation, the results of flow cytometry and real-time q-PCR confirmed that 24 h pretreatment with the low concentrations of Qu and QNPs had the similar antioxidant, anti-inflammatory, and antiapoptotic effects against the cytotoxicity of H2O2. Conclusion: Qu and QNPs showed the similar protective activities against H2O2-induced toxicity in PC12 cells. Given the fact that QNPs have magnetic properties, they may serve as suitable carriers to be used in neural research and treatment. © 2019 Yarjanli et al.

Author Keywords

Antitoxic effectIron oxide nanoparticlesPC12 cellsQuercetin

Other Keywords

AnimalsAntioxidantsCatalaseDextransDrug LiberationFerric CompoundsFree Radical ScavengersHydrogen PeroxideMetal NanoparticlesPC12 CellsQuercetinRatsSpectroscopy, Fourier Transform InfraredX-Ray Diffraction1,1 diphenyl 2 picrylhydrazyldextranultrasmall superparamagnetic iron oxideantioxidantferric ionferric oxidemetal nanoparticlescavengeranimal cellantiapoptotic activityantiinflammatory activityantioxidant activityantiradical activityantitoxic effectArticlecell protectioncell viabilityconcentration responsecontrolled studyDPPH radical scavenging assaydrug activitydrug coatingdrug conjugationdrug cytotoxicitydrug dosage form comparisondrug structureenergy dispersive X ray spectroscopyenzyme activityenzyme assayfield emission scanning electron microscopyflow cytometryFourier transform infrared spectroscopyincubation timeMTT assaynonhumanPC12 cell line (pheochromocytoma)pheochromocytomaphoton correlation spectroscopyratreal time polymerase chain reactionspectrophotometrytotal antioxidant capacityX ray diffractionanimalchemistrydrug releaseinfrared spectroscopyPC12 cell line