Young Chul Bae scite author profile

Flavonoids are naturally occurring polyphenolic compounds that have many biological properties, including antioxidative, anti-inflammatory and neuroprotective effects. Here, we report that amentoflavone significantly reduced cell death induced by staurosporine, etoposide and sodium nitroprusside in neuroblastoma SH-SY5Y cells. In post-natal day 7 rats, hypoxicischemic (H-I) brain damage induced by unilateral carotid ligation and hypoxia resulted in distinct features of neuronal cell death including apoptosis and necrosis. In this model, a systemic administration of amentoflavone (30 mg/kg) markedly reduced the H-I-induced brain tissue loss with a wide therapeutic time window up to 6 h after the onset of hypoxia. Amentoflavone blocked the activation of caspase 3, characteristic of apoptosis, and the proteolytic cleavage of its substrates following H-I injury. Amentoflavone also reduced the excitotoxic/necrotic cell death after H-I injury in vivo and after oxygen/glucose deprivation in mouse mixed cultures in vitro. Treatment of mouse microglial cells with amentoflavone resulted in a significant decrease in the lipopolysaccharide-induced production of nitric oxide and induction of inducible nitric oxide synthase and cyclo-oxygenase-2. Furthermore, amentoflavone decreased the inflammatory activation of microglia after H-I injury when assessed by the microglial-specific marker OX-42. These data demonstrate for the first time that amentoflavone strongly protects the neonatal brain from H-I injury by blocking multiple cellular events leading to brain damage.

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Mesenchymal stem cells attenuate adriamycin‐induced nephropathy by diminishing oxidative stress and inflammation via downregulation of the NF‐kB

Song

Jung

Lee

et al. 2018

Nephrology

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Peripheral G protein‐coupled inwardly rectifying potassium channels are involved in δ‐opioid receptor‐mediated anti‐hyperalgesia in rat masseter muscle

Chung

Cho

Bae

et al. 2013

European Journal of Pain

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Background Although the efficacy of peripherally administered opioid has been demonstrated in preclinical and clinical studies, the underlying mechanisms of its anti-hyperalgesic effects are poorly understood. G protein-coupled inwardly rectifying potassium (GIRK) channels are linked to opioid receptors in the brain. However, the role of peripheral GIRK channels in analgesia induced by peripherally administered opioid, especially in trigeminal system, is not clear. Methods Expression of GIRK subunits in rat trigeminal ganglia (TG) was examined with RT-PCR, western blot and immunohistochemistry. Chemical profiles of GIRK expressing neurons in TG were further characterized. Behavioral and Fos experiments were performed to examine the functional involvement of GIRK channels in delta opioid receptor (DOR)-mediated anti-hyperalgesia under an acute myositis condition. Results TG expressed mRNA and proteins for GIRK1 and GIRK2 subunits. Majority of GIRK1- and GIRK2-expressing neurons were non-peptidergic afferents. Inhibition of peripheral GIRK using Tertiapin-Q (TPQ) attenuated anti-nociceptive effects of peripherally administered DOR agonist, DPDPE, on mechanical hypersensitivity in masseter muscle. Furthermore, TPQ attenuated the suppressive effects of peripheral DPDPE on neuronal activation in the subnucleus caudalis of the trigeminal nucleus (Vc) following masseteric injection of capsaicin. Conclusions Our data indicate that peripheral DOR agonist-induced suppression of mechanical hypersensitivity in the masseter muscle involves the activity of peripheral GIRK channels. These results could provide a rationale for developing a novel therapeutic approach using peripheral GIRK channel openers to mimic or supplement the effects of peripheral opioid agonist.

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Differential Cell Death and Bcl-2 Expression in Mouse Retina after Glutathione Decrease by Systemic D,L-Buthionine Sulphoximine Administration

Park

Kim

Moon

et al. 2013

Molecules and Cells

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Glutathione (GSH) plays a critical role in cellular defense against unregulated oxidative stress in mammalian cells including neurons. We previously demonstrated that GSH decrease using [D, L]-buthionine sulphoximine (BSO) induces retinal cell death, but the underlying mechanisms of this are still unclear. Here, we demonstrated that retinal GSH level is closely related to retinal cell death as well as expression of an anti-apoptotic molecule, Bcl-2, in the retina. We induced differential expression of retinal GSH by single and multiple administrations of BSO, and examined retinal GSH levels and retinal cell death in vivo. Single BSO administration showed a transient decrease in the retinal GSH level, whereas multiple BSO administration showed a persistent decrease in the retinal GSH level. Retinal cell death also showed similar patterns: transient increase of retinal cell death was observed after single BSO administration, whereas persistent increase of retinal cell death was observed after multiple BSO administration. Changes in the retinal GSH level affected Bcl-2 expression in the retina. Immunoblot and immunohistochemical analyses showed that single and multiple administration of BSO induced differential expressions of Bcl-2 in the retina. Taken together, the results of our study suggest that the retinal GSH is important for the survival of retinal cells, and retinal GSH appears to be deeply related to Bcl-2 expression in the retina. Thus, alteration of Bcl-2 expression may provide a therapeutic tool for retinal degenerative diseases caused by retinal oxidative stress such as glaucoma or retinopathy.

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Hybrid Energy Harvesting System Based on Microfluidics With Interface Circuitry

Bramhanand

Bae

Kim³

2012

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We present a fluidic-based energy harvesting device that incorporates microfluidic structures, which can hydraulically disperse and accommodate large input force into a micro structure; and power handling circuitry, which converts varying energy to support a commercial wireless link, into a single layer of a shoe insole. The microfluidic structures utilize hydraulic amplification of deflection and de-amplification of force to enhance power generation through electromagnetic induction while preventing potential mechanical fracture of the micro structures. The power regulation circuitry converts AC power into DC at each fluidic channel and then adds them into high voltage output. The fabricated energy harvesting system generated a raw power rms output of 7.28mW under 647.5kPa pressure and power density of 1mW/cm 3 from a device volume of 7.2cm 3 . The integrated power regulating circuitry demonstrated power conversion efficiency of 62.8%.

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Young Chul Bae

Polyphenol amentoflavone affords neuroprotection against neonatal hypoxic‐ischemic brain damage via multiple mechanisms

Mesenchymal stem cells attenuate adriamycin‐induced nephropathy by diminishing oxidative stress and inflammation via downregulation of the NF‐kB

Peripheral G protein‐coupled inwardly rectifying potassium channels are involved in δ‐opioid receptor‐mediated anti‐hyperalgesia in rat masseter muscle

Differential Cell Death and Bcl-2 Expression in Mouse Retina after Glutathione Decrease by Systemic D,L-Buthionine Sulphoximine Administration

Hybrid Energy Harvesting System Based on Microfluidics With Interface Circuitry

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