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Chitosan–Ellagic Acid Nanohybrid for Mitigating Rotenone-induced Oxidative Stress

Jyoti Ahlawat, Rabin Neupane, Eva Deemer, Sreeprasad T. Sreenivasan, Mahesh Narayan

2020ACS Applied Materials & Interfaces38 citationsDOI

Abstract

Antioxidants derived from nature, such as ellagic acid (EA), demonstrated high potency to mitigate neuronal oxidative stress and related pathologies, including Parkinson's disease. However, the application of EA is limited due to its toxicity at moderate doses and poor solubility, cellular permeability, and bioavailability. Here, we introduce a sustainably resourced, green nanoencasement strategy to overcome the limitations of EA and derive synergistic effects to prevent oxidative stress in neuronal cells. Chitosan, with its high biocompatibility, potential antioxidant properties, and flexible surface chemistry, was chosen as the primary component of the nanoencasement in which EA is immobilized. Using a rotenone model to mimic intracellular oxidative stress, we examined the effectiveness of EA and chitosan to limit cell death. Our studies indicate a synergistic effect between EA and chitosan in mitigating rotenone-induced reactive oxygen species death. Our analysis suggests that chitosan encapsulation of EA reduces the inherent cytotoxicity of the polyphenol (a known anticancer molecule). Furthermore, its encapsulation permits its delivery via a rapid burst phase and a relatively slow phase making the nanohybrid suitable for drug release over extended time periods.

Topics & Concepts

RotenoneOxidative stressChitosanReactive oxygen speciesAntioxidantBioavailabilityCytotoxicityBiocompatibilityEllagic acidMaterials scienceChemistryBiophysicsPharmacologyPolyphenolBiochemistryBiologyOrganic chemistryIn vitroMitochondrionPomegranate: compositions and health benefitsNanocomposite Films for Food PackagingAntioxidant Activity and Oxidative Stress
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