Yoo-Jung Lee scite author profile

Alcohol-induced liver disease progresses due to increased reactive oxygen species (ROS) and cellular lipid peroxidation. Quercetin is a flavonoid with strong antioxidant and hepatoprotective effects. We investigated whether 3'--methyl quercetin (3'MQ) and quercetin-3--glucuronide (Q3GA), two metabolites of quercetin, have protective effects against ethanol-induced hepatotoxicity. Cell viability was increased by quercetin, 3'MQ, and Q3GA in HepG2 hepatocarcinoma cells exposed to ethanol. Our results show that this effect was mediated by diminished ROS generation, decreased lipid peroxidation and up-regulation of antioxidant capacity, including glutathione, superoxide dismutase and catalase. Moreover, down-regulated heme oxygenase-1 (HO-1) expression by ethanol was restored by quercetin, 3'MQ, and Q3GA through the activation of nuclear factor E2-related factor 2 and activator protein-1, but not nuclear factor-kappa B. Overall results suggest that 3'MQ, Q3GA, and quercetin attenuate oxidative stress in hepatocytes exposed to ethanol by up-regulating HO-1 expression and can be used as therapeutic agents for ameliorating alcohol-induced liver disease.

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Chrysin-piperazine conjugates as antioxidant and anticancer agents

Patel

Mistry

Syed

et al. 2016

European Journal of Pharmaceutical Sciences

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Extremely low frequency electromagnetic fields enhance neuronal differentiation of human mesenchymal stem cells on graphene-based substrates

Lee

Jang

et al. 2015

Current Applied Physics

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Surface functionalization of halloysite nanotubes with supermagnetic iron oxide, chitosan and 2-D calcium-phosphate nanoflakes for synergistic osteoconduction enhancement of human adipose tissue-derived mesenchymal stem cells

Lee

Jee

et al. 2019

Colloids and Surfaces B: Biointerfaces

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Neuronal differentiation of human mesenchymal stem cells in response to the domain size of graphene substrates

Lee

Seo

Lee

et al. 2017

J Biomedical Materials Res

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Graphene is a noncytotoxic monolayer platform with unique physical, chemical, and biological properties. It has been demonstrated that graphene substrate may provide a promising biocompatible scaffold for stem cell therapy. Because chemical vapor deposited graphene has a two dimensional polycrystalline structure, it is important to control the individual domain size to obtain desirable properties for nano-material. However, the biological effects mediated by differences in domain size of graphene have not yet been reported. On the basis of the control of graphene domain achieved by one-step growth (1step-G, small domain) and two-step growth (2step-G, large domain) process, we found that the neuronal differentiation of bone marrow-derived human mesenchymal stem cells (hMSCs) highly depended on the graphene domain size. The defects at the domain boundaries in 1step-G graphene was higher (38.5) and had a relatively low (13% lower) contact angle of water droplet than 2step-G graphene, leading to enhanced cellsubstrate adhesion and upregulated neuronal differentiation of hMSCs. We confirmed that the strong interactions between cells and defects at the domain boundaries in 1step-G graphene can be obtained due to their relatively high surface energy, which is stronger than interactions between cells and graphene surfaces. Our results may provide valuable information on the development of graphene-based scaffold by understanding which properties of graphene domain influence cell adhesion efficacy and stem cell differentiation.

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Yoo-Jung Lee

Quercetin and its metabolites protect hepatocytes against ethanol-induced oxidative stress by activation of Nrf2 and AP-1

Chrysin-piperazine conjugates as antioxidant and anticancer agents

Extremely low frequency electromagnetic fields enhance neuronal differentiation of human mesenchymal stem cells on graphene-based substrates

Surface functionalization of halloysite nanotubes with supermagnetic iron oxide, chitosan and 2-D calcium-phosphate nanoflakes for synergistic osteoconduction enhancement of human adipose tissue-derived mesenchymal stem cells

Neuronal differentiation of human mesenchymal stem cells in response to the domain size of graphene substrates

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