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12 results on '"Jang, Hyunduk"'

1. Plant callus-derived shikimic acid regenerates human skin through converting human dermal fibroblasts into multipotent skin-derived precursor cells.

Author

Kwon, Yoo-Wook, Lee, Shin-Hyae, Kim, Ah-Reum, Kim, Beom Joon, Park, Won-Seok, Hur, Jin, Jang, Hyunduk, Yang, Han-Mo, Cho, Hyun-Jai, and Kim, Hyo-Soo

Subjects
*SHIKIMIC acid, *ARTIFICIAL skin, *NERVE tissue proteins, *FIBROBLASTS, *REGENERATION (Biology), *PLANT cells & tissues, *SKIN aging, *FIBRONECTINS
Abstract

Background: The human skin-derived precursors (SKPs) are a good cell source for regeneration. However, the isolation of SKP from human skin is limited. To overcome this drawback, we hypothesized that the component of plant stem cells could convert human fibroblasts to SKPs. Methods: Human dermal fibroblasts were treated with shikimic acid, a major component of Sequoiadendron giganteum callus extract. The characteristics of these reprogrammed cells were analyzed by qPCR, western blot, colony-forming assay, and immunofluorescence staining. Artificial human skin was used for CO2 laser-induced wound experiments. Human tissues were analyzed by immunohistochemistry. Results: The reprogrammed cells expressed nestin (a neural precursor-specific protein), fibronectin, and vimentin and could differentiate into the ectodermal and mesodermal lineage. Nestin expression was induced by shikimic acid through the mannose receptor and subsequent MYD88 activation, leading to P38 phosphorylation and then CREB binding to the nestin gene promoter. Finally, we confirmed that shikimic acid facilitated the healing of cut injury and enhanced dermal reconstruction in a human artificial skin model. Moreover, in a clinical study with healthy volunteers, plant callus extracts increased the expression of stem cell markers in the basal layer of the epidermis and collagen deposit in the dermis. Conclusions: These results indicate that shikimic acid is an effective agent for tissue regeneration. [ABSTRACT FROM AUTHOR]

Published
2021
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3. Anti-inflammatory effects of fimasartan via Akt, ERK, and NFκB pathways on astrocytes stimulated by hemolysate.

Author

Yang, Xiu-Li, Kim, Chi, Kim, Tae, Sun, Jing, Rim, Doeun, Kim, Young-Ju, Ko, Sang-Bae, Jang, Hyunduk, and Yoon, Byung-Woo

Subjects
*ASTROCYTES, *ANGIOTENSIN receptors, *INFLAMMATION, *CELL communication, *GENE expression
Abstract

Objective: The aim of this study was to investigate whether fimasartan, a novel angiotensin II receptor blocker, modulates hemolysate-induced inflammation in astrocytes. Methods: We stimulated astrocytes with hemolysate to induce hemorrhagic inflammation in vitro. Astrocytes were pretreated with fimasartan and then incubated with hemolysate at different durations. Anti-inflammatory cell signaling molecules including Akt, extracellular signal regulated kinase (ERK), NFκB and cyclooxygenase-2 (COX-2) were assessed by western blotting. Pro-inflammatory mediators were evaluated by real-time RT-PCR and ELISA. Results: The stimulation by hemolysate generated a robust activation of inflammatory signaling pathways in astrocytes. Hemolysate increased the phosphorylation of Akt at 1 h, and ERK1/2 at 20 min compared with the control group and promoted the degradation of IκBα. Pretreated fimasartan significantly decreased hemolysate-induced phosphorylation of Akt and ERK1/2. In addition, fimasartan also suppressed NFκB-related inflammatory pathways induced by hemolysate, including reduction of the gene expression of NFκB, and decreased nuclear translocation of NFκB and degradation of IκB. This reduction of inflammatory upstream pathways decreased the expression of inflammatory end-products: COX-2 and interleukin-1 (IL-1β). Furthermore, the expression of COX-2 was attenuated by both Akt inhibitor (LY294002) and ERK inhibitor (U0126), and IκBα degradation was suppressed by LY294002. Conclusions: These results demonstrate that pretreatment with fimasartan to astrocytes suppresses the inflammatory responses induced by hemolysate. Akt, ERK and NFκB were associated with hemolysate-induced COX-2 and IL-1β expression. Based on these mechanisms, fimasartan could be a candidate anti-inflammatory regulator for the treatment of intracerebral hemorrhage. [ABSTRACT FROM AUTHOR]

Published
2016
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4. Effect of Long-Term Treatment with Fimasartan on Transient Focal Ischemia in Rat Brain.

Author

Kim, Chi Kyung, Yang, Xiu-Li, Kim, Young-Ju, Choi, In-Young, Jeong, Han-Gil, Park, Hong-Kyun, Kim, Dohoung, Kim, Tae Jung, Jang, Hyunduk, Ko, Sang-Bae, and Yoon, Byung-Woo

Subjects
*ANGIOTENSIN-receptor blockers, *ISCHEMIA, *BRAIN, *LABORATORY rats, *MYOCARDIAL infarction, *ATHEROSCLEROSIS, *PHOSPHATES, *INFLAMMATION treatment
Abstract

Fimasartan is a newly developed angiotensin receptor blocker, which may have protective effects during myocardial infarction or atherosclerosis. In this context, we investigated the effects of long-term treatment with low-dose fimasartan on focal ischemia in rat brain. We induced focal ischemia in brain by transient intraluminal occlusion of middle cerebral artery (MCA) and administered low-dose (0.5 mg/kg) or regular doses (1 or 3 mg/kg) of fimasartan via intravenous routes. After the administration of low-dose (0.5 mg/kg) fimasartan, blood pressure did not decrease compared to the phosphate-buffered saline- (PBS-) control with MCA occlusion (MCAO) group. The infarct volume and ischemic cell death were reduced in the low-dose fimasartan-treated group (46 ± 41 mm(3) for 0.5 mg/kg and 153 ± 47 mm(3) for PBS-control with MCAO; P < 0.01) but not in the regular-dose groups. Low-dose fimasartan treatment improved functional recovery after ischemia and significantly decreased mortality. In our study, fimasartan reduced the degradation of IκB and the formation of an inflammatory end-product, COX-2. As a result, the recruitment of inflammatory cells in the peri-infarct area decreased in fimasartan-treated group. We have demonstrated that long-term, low-dose fimasartan treatment improved outcomes after focal ischemia in the brain via a reduction of inflammation. [ABSTRACT FROM AUTHOR]

Published
2015
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5. Detrimental effects of leptin on intracerebral hemorrhage via the STAT3 signal pathway.

Author

Kim, Chi Kyung, Ryu, Wi-Sun, Choi, In-Young, Kim, Young-Ju, Rim, Doeun, Kim, Beom Joon, Jang, Hyunduk, Yoon, Byung-Woo, and Lee, Seung-Hoon

Subjects
*PHYSIOLOGICAL effects of leptin, *CEREBRAL hemorrhage, *STAT proteins, *CELLULAR signal transduction, *ADIPOKINES, *NATURAL immunity, *INFLAMMATION
Abstract

Leptin, one of the most important adipokines, is not only an energy regulator but also a regulator of innate immunity. Inflammation plays a key role in the tissue damage after intracerebral hemorrhage (ICH), and we sought to investigate whether leptin has a detrimental effect on ICH. After the injection of a high replacement dose (0.04 mg/kg) and two pharmacologic doses (4 and 8 mg/kg) of leptin, brain water contents increased significantly compared with that of control mice (P<0.05), which was confirmed when comparing the results with leptin-deficient ob/ob and wild-type (WT) mice (78.8%±0.6% versus 79.7%±0.6%, P<0.05). The number of Ox6-positive microglia/macrophages was increased in the leptin-injected group and decreased in ob/ob compared with WT mice. Among the candidate signal transducers, an increase in signal transduction and activator of transcription 3 (STAT3) levels was found after leptin injection. When we administered NSC74859, a specific inhibitor of phosphorylated STAT3 (pSTAT3), the water content became normalized. Activity of pSTAT3 was found mainly in Ox6-positive microglia/macrophages, but not in either neurons or astrocytes. We demonstrate that leptin plays a critical role in the secondary brain injury around a hematoma and is a novel mediator of the inflammation. This detrimental effect of leptin on ICH is mediated by the STAT3 signaling pathway in inflammatory cells. [ABSTRACT FROM AUTHOR]

Published
2013
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6. Decrease of GSK3β phosphorylation in the rat nucleus accumbens core enhances cocaine-induced hyper-locomotor activity.

Author

Kim, Wha Y., Jang, Ju K., Lee, Jung W., Jang, Hyunduk, and Kim, Jeong ‐ Hoon

Subjects
*PHOSPHORYLATION, *NUCLEUS accumbens, *COCAINE, *TARGETED drug delivery, *NEURAL stimulation, *LABORATORY rats, TREATMENT of musculoskeletal system diseases
Abstract

Glycogen synthase kinase 3β ( GSK3β), which is abundantly present in the brain, is known to contribute to psychomotor stimulant-induced locomotor behaviors. However, most studies have been focused in showing that GSK3β is able to attenuate psychomotor stimulants-induced hyperactivity by increasing its phosphorylation levels in the nucleus accumbens ( NAcc). So, here we examined in the opposite direction about the effects of decreased phosphorylation of GSK3β in the NAcc core on both basal and cocaine-induced locomotor activity by a bilateral microinjection into this site of an artificially synthesized peptide, S9 (0.5 or 5.0 μg/μL), which contains sequences around N-terminal serine 9 residue of GSK3β. We found that decreased levels of GSK3β phosphorylation in the NAcc core enhance cocaine-induced hyper-locomotor activity, while leaving basal locomotor activity unchanged. This is the first demonstration, to our knowledge, that the selective decrease of GSK3β phosphorylation levels in the NAcc core may contribute positively to cocaine-induced locomotor activity, while this is not sufficient for the generation of locomotor behavior by itself without cocaine. Taken together, these findings importantly suggest that GSK3β may need other molecular targets which are co-activated (or deactivated) by psychomotor stimulants like cocaine to contribute to generation of locomotor behaviors. [ABSTRACT FROM AUTHOR]

Published
2013
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9. Proinflammatory Stimuli Induce IKKα-Mediated Phosphorylation of PIAS1 to Restrict Inflammation and Immunity

Author

Liu, Bin, Yang, Yonghui, Chernishof, Vasili, Loo, Rachel R. Ogorzalek, Jang, Hyunduk, Tahk, Samuel, Yang, Randy, Mink, Sheldon, Shultz, David, Bellone, Clifford J., Loo, Joseph A., and Shuai, Ke

Subjects
*PHOSPHORYLATION, *IMMUNE response, *INFLAMMATION, *PATHOLOGY
Abstract

Summary: How inflammatory stimuli signal to the nucleus to restrict inflammation is poorly understood. Protein inhibitor of activated STAT1 (PIAS1), a transcriptional regulator that possesses small ubiquitin-related modifier (SUMO) E3 ligase activity, inhibits immune responses by selectively blocking the binding of NF-κB and STAT1 to gene promoters. We report here that PIAS1 becomes rapidly phosphorylated on Ser90 residue in response to various inflammatory stimuli. Mutational studies indicate that Ser90 phosphorylation is required for PIAS1 to repress transcription. Upon TNF treatment, wild-type PIAS1, but not the Ser90A mutant, becomes rapidly associated with the promoters of NF-κB target genes. Furthermore, IKKα, but not IKKβ, interacts with PIAS1 in vivo and mediates PIAS1 Ser90 phosphorylation, a process that requires the SUMO ligase activity of PIAS1. Our results identify a signaling pathway in which proinflammatory stimuli activate the IKKα-mediated sumoylation-dependent phosphorylation of PIAS1 for the immediate repression of inflammatory gene activation. [Copyright &y& Elsevier]

Published
2007
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10. TNF-related weak inducer of apoptosis receptor, a TNF receptor superfamily member, activates NF-κB through TNF receptor-associated factors

Author

Han, Songyi, Yoon, Kwiyeom, Lee, Kyunghye, Kim, Kyunghee, Jang, Hyunduk, Lee, Na Kyung, Hwang, Kichul, and Young Lee, Soo

Subjects
*TUMOR necrosis factors, *APOPTOSIS
Abstract

TNF-related weak inducer of apoptosis (TWEAK) is a member of the TNF ligand family that induces angiogenesis in vivo. The TWEAK receptor (TweakR) is a recently identified member of the TNF receptor (TNFR) superfamily and is expressed on smooth muscle cells (SMCs) and endothelial cells (ECs). In this report we identify the TNF receptor-associated factor (TRAF) family of signal transducers as important components of TweakR-mediated NF-κB activation. Coimmunoprecipitation experiments suggested potential interactions between the cytoplasmic tail of TweakR with TRAFs 1, 2, 3, and 5. Dominant negative forms of TRAF2 and TRAF5 substantially inhibited TweakR-mediated NF-κB activation, suggesting a role of TRAFs in regulating smooth muscle and endothelial cell function. Using alanine-scanning analysis, we defined a TRAF-binding motif, PIEET, in TweakR that mediates TRAF binding and NF-κB activation. Furthermore, TweakR mutations within the TRAF-binding motif abolished TweakR-stimulated SMC migration, revealing a role for TRAFs in TweakR-induced activation events. [Copyright &y& Elsevier]

Published
2003
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