Professor Dong-Hoon Hyun is a faculty of Department of Life Science, College of Natural Sciences and an expert in research on reactive oxygen species. Prof. Hyun obtained a PhD degree at King’s College London, UK and finished post-doctoral fellowship at the National Institute on Aging. He became a faculty at Ewha Womans Univeristy in 2007 and is doing research on aging intervention and therapy for neurodegenerative diseases (e.g. Alzheimer’s and Parkinson’s diseases) over 15 years. He has got more than 30 research and review articles published in top-grade journals (PNAS, Ageing Res. Rev., J. Neurochem.). His research fields are (1) Regulation of reduction/oxidation by the mitochondria and redox enzymes in the plasma membrane, (2) Aging intervention, and (3) Prevention and therapy of Alzheimer’s disease using phytochemicals.
4-Hydroxycinnamic acid attenuates neuronal cell death by inducing expression of plasma membrane redox enzymes and improving mitochondrial functionsFood Science and Human Wellness, 2023, v.12 no.4, 1287-1299
A New Insight into an Alternative Therapeutic Approach to Restore Redox Homeostasis and Functional Mitochondria in Neurodegenerative DiseasesANTIOXIDANTS, 2022, v.11 no.1, 7
Inhibition of Notch1 induces population and suppressive activity of regulatory T cell in inflammatory arthritisTHERANOSTICS, 2018, v.8 no.17, 4795-4804
Cytotoxicity of lipid-soluble ginseng extracts is attenuated by plasma membrane redox enzyme NQO1 through maintaining redox homeostasis and delaying apoptosis in human neuroblastoma cellsArchives of Pharmacal Research, 2016, v.39 no.10, 1339
Cytotoxicity of lipid-soluble ginseng extracts is attenuated by plasma membrane redox enzyme NQO1 through maintaining redox homeostasis and delaying apoptosis in human neuroblastoma cellsARCHIVES OF PHARMACAL RESEARCH, 2016, v.39 no.10, 1339-1348
Cytochrome b5 reductase, a plasma membrane redox enzyme, protects neuronal cells against metabolic and oxidative stress through maintaining redox state and bioenergeticsAge, 2015, v.37 no.6, 1-14
[학술지논문] 4-Hydroxycinnamic acid attenuates neuronal cell death by inducing expression of plasma membrane redox enzymes and improving mitochondrial functions
Food Science and Human Wellness, 2023, v.12
no.4
, 1287-1299
SCIE
[학술지논문] Insights into the New Cancer Therapy through Redox Homeostasis and Metabolic Shifts
CANCERS, 2020, v.12
no.7
, 1822-1822
SCIE
[학술지논문] The Ethnographic Study on Jeju Haenyeo and the Transfer of Their Muljil Skills in the Community Culture
한국융합인문학, 2020, v.8
no.2
, 49-75
KCI
[학술지논문] Plasma membrane redox enzymes: new therapeutic targets for neurodegenerative diseases
ARCHIVES OF PHARMACAL RESEARCH, 2019, v.42
no.5
, 436-445