Dooil Jeoung

Publications (55)158.21 Total impact

• Article: Anti-CD40 Ab- or 8-oxo-dG-enhanced Treg cells reduce development of experimental autoimmune encephalomyelitis via down-regulating migration and activation of mast cells.

  Gwan Ui Hong, Nam Goo Kim, Dooil Jeoung, Jai Youl Ro
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  ABSTRACT: This study investigated whether anti-CD40 Ab and 8-oxo-dG attenuate mast cell migration and EAE development. Anti-CD40 Ab and 8-oxo-dG reduced EAE scores, mast cell numbers, expression of adhesion molecules, OX40L and Act1, levels of TNF-α, LTs, expression of cytokines, and co-localization of Treg cells and mast cells, all of which are increased in EAE-brain tissues. Each treatment enhanced Treg cells, expression of OX40, and cytokines related to suppressive function of Treg cells in EAE brain tissues. Act-BMMCs with Treg cells reduced expression of OX40L and CCL2/CCR2, VCAM-1, PECAM-1, [Ca(2+)]i levels, release of mediators, various signaling molecules, Act1 related to IL-17a signals versus those in act-BMMCs without Treg cells. The data suggest that IL-10- and IL-35-producing Foxp3(+)-Treg cells, enhanced by anti-CD40 Ab or 8-oxo-dG, suppress migration of mast cells through down-regulating the expression of adhesion molecules, and suppress mast cell activation through cell-to-cell cross-talk via OX40/OX40L in EAE development.
  Journal of neuroimmunology 04/2013; · 2.84 Impact Factor
• Article: Aqueous extract of unripe Rubus coreanus fruit attenuates atherosclerosis by improving blood lipid profile and inhibiting NF-κB activation via phase II gene expression.

  Sookon Kim, Chun-Ki Kim, Kwang-Soon Lee, Ji-Hee Kim, Haejun Hwang, Dooil Jeoung, Jongseon Choe, Moo-Ho Won, Hansoo Lee, Kwon-Soo Ha, Young-Geun Kwon, Young-Myeong Kim
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  ABSTRACT: ETHNOPHARMACOLOGICAL RELEVANCE: The fruit of Rubus coreanus has been used as a traditional herbal medicine for alleviation of inflammatory and vascular diseases in Asian countries. AIM OF THE STUDY: The anti-atherogenic effect of unripe Rubus coreanus fruit extract (URFE) and its underlying mechanism were analyzed in mice fed a high-fat diet (HFD) and in cell culture system. MATERIALS AND METHODS: Mouse were freely given HFD alone or supplemented with URFE for 14 weeks, followed by analysis of atherosclerotic lesions and serum lipid levels. For in vitro assay, macrophages were pretreated with URFE, followed by stimulation with lipopolysaccharide (LPS). Expression levels of inflammatory genes (TNF-α, IL-1β, and iNOS) and phase II genes (heme oxygenase-1, glutamate cysteine lygase, and peroxiredoxine-1) as well as intracellular reactive oxygen species (ROS) level and NF-κB activation pathway were analyzed in cultured macrophages as well as mouse sera and aortic tissues. RESULTS: URFE supplementation reduced HFD-induced atherosclerotic lesion formation which was correlated with decreased levels of lipids, lipid peroxides, and inflammatory mediators (TNF-α, IL-1β, and nitric oxide) in sera as well as suppression of inflammatory gene in aortic tissues. In addition, pre-treatment of macrophages with URFE also suppressed LPS-induced NF-κB activation, ROS production, and inflammatory and phase II gene expressions. Inhibition of phase II enzyme and protein activities attenuated the suppressive effects URFE on ROS production, NF-κB activation, and inflammatory gene expression. CONCLUSION: These results suggest that URFE attenuates atherosclerosis by improving blood lipid profile and inhibiting NF-κB activation via phase II antioxidant gene expression.
  Journal of ethnopharmacology 01/2013; · 2.32 Impact Factor
• Article: Effects of Transient Cerebral Ischemia on the Expression of DNA Methyltransferase 1 in the Gerbil Hippocampal CA1 Region.

  Jae-Chul Lee, Joon Ha Park, Bing Chun Yan, In Hye Kim, Geum-Sil Cho, Dooil Jeoung, Young-Geun Kwon, Young-Myeong Kim, Yun Lyul Lee, Hyung-Cheul Shin, Moo-Ho Won
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  ABSTRACT: DNA methylation is a key epigenetic modification of DNA that is catalyzed by DNA methyltransferases (Dnmt). Increasing evidences suggest that DNA methylation in neurons regulates synaptic plasticity as well as neuronal network activity. In the present study, we investigated the changes in DNA methyltransferases 1 (Dnmt1) immunoreactivity and its protein levels in the gerbil hippocampal CA1 region after 5 min of transient global cerebral ischemia. CA1 pyramidal neurons were well stained with NeuN (a neuron-specific soluble nuclear antigen) antibody in the sham-group, Four days after ischemia-reperfusion (I-R), NeuN-positive ((+)) cells were significantly decreased in the stratum pyramidale (SP) of the CA1 region, and many Fluro-Jade B (a marker for neuronal degeneration)(+) cells were observed in the SP. Dnmt1 immunoreactivity was well detected in all the layers of the sham-group. Dnmt1 immunoreactivity was hardly detected only in the stratum pyramidale of the CA1 region from 4 days post-ischemia; however, at these times, Dnmt1 immunoreactivity was newly expressed in GABAergic interneurons or astrocytes in the ischemic CA1 region. In addition, the level of Dnmt1 was lowest at 4 days post-ischemia. In brief, both the Dnmt1 immunoreactivity and protein levels were distinctively decreased in the ischemic CA1 region 4 days after transient cerebral ischemia. These results indicate that the decrease of Dnmt1 expression at 4 days post-ischemia may be related to ischemia-induced delayed neuronal death.
  Neurochemical Research 09/2012; · 2.24 Impact Factor
• Article: DNA methyl transferase I acts as a negative regulator of allergic skin inflammation.

  Youngmi Kim, Kyungjong Kim, Deokbum Park, Eunmi Lee, Hansoo Lee, Yun-Sil Lee, Jongseon Choe, Young-Myeong Kim, Dooil Jeoung
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  ABSTRACT: The role of DNA methyl transferase I (DNMT1) in allergic inflammation was investigated. Antigen stimulation decreased expression of DNMT1 in rat basophilic leukemia cells (RBL2H3). The down regulation of DNMT1 induced expression of histone deacetylase 3 (HDAC3). HDAC3 was necessary for allergic skin inflammation, such as such as triphasic cutaneous reaction and passive cutaneous anaphylaxis. The down regulation of DNMT1 resulted from activation of PKC and rac1 which were necessary for proteasome-dependent ubiquitination of DNMT1 by antigen stimulation. N-acetyl-L-cysteine, an inhibitor of reactive oxygen species production, exerted negative effects on allergic skin inflammation. Antigen stimulation led to increased expression of Tip60, a histone acetyl transferase. Wild type, but not mutant form, Tip60 decreased expression of DNMT1 while increasing expression of HDAC3, suggesting role for acetylation in ubiquitin-dependent proteasomal degradation of DNMT1. In vivo down regulation of DNMT1 increased ear thickness, typical of allergic skin inflammation, induced vascular leakage and promoted angiogenesis in BALB/c mouse. The down regulation of DNMT1 enhanced angiogenic potential of rat aortic endothelial cells (RAEC) accompanied by activation of VEGR-2 and induced interaction between VEGR-2 and syk in RAEC. The enhanced angiogenic potential of RAEC was associated with the induction of VEGF by down regulation of DNMT1 in RBL2H3 cells. The down regulation of DNMT1 induced leukocytes-endothelial cell interaction and expression of various adhesion molecules. Aspirin exerted a negative effect on allergic skin inflammation by indirect regulation on DNMT1 via Tip60. Taken together, these results suggest novel role for DNMT1 in allergic skin inflammation.
  Molecular Immunology 07/2012; 53(1-2):1-14. · 2.90 Impact Factor
• Article: Histone deacetylase 3 mediates allergic skin inflammation by regulating expression of MCP1 protein.

  Youngmi Kim, Kyungjong Kim, Deokbum Park, Eunmi Lee, Hansoo Lee, Yun-Sil Lee, Jongseon Choe, Dooil Jeoung
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  ABSTRACT: We have shown the induction of histone deacetylase 3 (HDAC3) in antigen-stimulated rat basophilic leukemia cells via NF-κB. We investigated the role of HDAC3 in allergic skin inflammation. We used a BALB/c mouse model of triphasic cutaneous anaphylaxis (triphasic cutaneous reaction; TpCR) and passive cutaneous anaphylaxis (PCA) to examine the role of HDAC3 in allergic skin inflammation. Triphasic cutaneous reaction involved induction of HDAC3 and was mediated by HDAC3. HDAC3 showed an interaction with FcεRIβ. Trichostatin A (TSA), an inhibitor of HDAC(s), disrupted this interaction. Cytokine array analysis showed that the down-regulation of HDAC3 led to the decreased secretion of monocyte chemoattractant protein 1 (MCP1). FcεRI was necessary for induction of HDAC3 and MCP1. ChIP assays showed that HDAC3, in association with Sp1 and c-Jun, was responsible for induction of MCP1 expression. TSA exerted a negative effect on induction of MCP1. HDAC3 exerted a negative regulation on expression of HDAC2 via interaction with Rac1. The down-regulation of HDAC3 or inactivation of Rac1 induced binding of HDAC2 to MCP1 promoter sequences. TSA exerted a negative effect on HDAC3-mediated TpCR. The BALB/c mouse model of PCA involved induction of HDAC3 and MCP1. HDAC3 and MCP1 were necessary for PCA that involved ear swelling, enhanced vascular permeability, and angiogenesis. Recombinant MCP1 enhanced β-hexosaminidase activity and histamine release and also showed angiogenic potential. TSA exerted a negative effect on PCA. Our data show HDAC3 as a valuable target for the development of allergic skin inflammation therapeutics.
  Journal of Biological Chemistry 06/2012; 287(31):25844-59. · 4.77 Impact Factor
• Article: Histone deacetylase 3 mediates allergic skin inflammation by regulating expression of MCP1

  Youngmi Kim, Kyungjong Kim, Deokbum Park, Eunmi Lee, Hansoo Lee, Yun-Sil Lee, Jongseon Choe, Dooil Jeoung
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  ABSTRACT: The first two authors contributed equally. Background: The role of HDAC3 in allergic skin inflammation remains unknown.
  Journal of Biological Chemistry 06/2012; · 4.77 Impact Factor
• Article: Hyaluronic acid promotes angiogenesis by inducing RHAMM-TGFβ receptor interaction via CD44-PKCδ.

  Deokbum Park, Youngmi Kim, Hyunah Kim, Kyungjong Kim, Yun-Sil Lee, Jongseon Choe, Jang-Hee Hahn, Hansoo Lee, Jongwook Jeon, Chulhee Choi, Young-Myeong Kim, Dooil Jeoung
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  ABSTRACT: Hyaluronic acid (HA) has been shown to promote angiogenesis. However, the mechanism behind this effect remains largely unknown. Therefore, in this study, the mechanism of HA-induced angiogenesis was examined. CD44 and PKCδ were shown to be necessary for induction of the receptor for HA-mediated cell motility (RHAMM), a HA-binding protein. RHAMM was necessary for HA-promoted cellular invasion and endothelial cell tube formation. Cytokine arrays showed that HA induced the expression of plasminogen activator-inhibitor-1 (PAI), a downstream target of TGFβ receptor signaling. The induction of PAI-1 was dependent on CD44 and PKCδ. HA also induced an interaction between RHAMM and TGFβ receptor I, and induction of PAI-1 was dependent on RHAMM and TGFβ receptor I. Histone deacetylase 3 (HDAC3), which is decreased by HA via rac1, reduced induction of plasminogen activator inhibitor-1 (PAI-1) by HA. ERK, which interacts with RHAMM, was necessary for induction of PAI-1 by HA. Snail, a downstream target of TGFβ signaling, was also necessary for induction of PAI-1. The down regulation of PAI-1 prevented HA from enhancing endothelial cell tube formation and from inducing expression of angiogenic factors, such as ICAM-1, VCAM-1 and MMP-2. HDAC3 also exerted reduced expression of MMP-2. In this study, we provide a novel mechanism of HA-promoted angiogenesis, which involved RHAMM-TGFβRI signaling necessary for induction of PAI-1.
  Molecules and Cells 05/2012; 33(6):563-74. · 2.18 Impact Factor
• Article: Functional dissection of Nrf2-dependent phase II genes in vascular inflammation and endotoxic injury using Keap1 siRNA.

  Ji-Hee Kim, Yoon Kyung Choi, Kwang-Soon Lee, Dong-Hui Cho, Yi-Yong Baek, Dong-Keon Lee, Kwon-Soo Ha, Jongseon Choe, Moo-Ho Won, Dooil Jeoung, Hansoo Lee, Young-Guen Kwon, Young-Myeong Kim
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  ABSTRACT: Keap1 is a cytoplasmic repressor of the transcription factor Nrf2, and its degradation induces Nrf2 activation, leading to upregulation of antioxidant phase II genes. We investigated the roles of phase II genes in vascular inflammation and septic injury using Keap1 siRNA and elucidated its underlying mechanism. Selective knockdown of Keap1 with siRNA promoted Nrf2-dependent expression of phase II genes in endothelial cells, such as heme oxygenase-1 (HO-1), glutamate-cysteine ligase (GCL), and peroxiredoxin-1 (Prx1), resulting in the elevation of cellular glutathione levels and suppression of tumor necrosis factor (TNF)-α-induced intracellular H(2)O(2) accumulation. Keap1 knockdown inhibited TNF-α-induced expression of intracellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1) by suppressing NF-κB activation via inhibition of its upstream modulators, Akt, NIK, and IKK, resulting in the elevation of monocyte adhesion to endothelial cells. Importantly, these events were reversed by HO-1 and GCL inhibitors and Prx1-specific siRNA. Keap1 knockdown also inhibited endotoxin-induced expression of inducible nitric oxide synthase (iNOS) and TNF-α by upregulating HO-1, GCL, and Prx1 expression in macrophages. Moreover, in vivo Keap1 knockdown increased the expression of phase II genes and suppressed the expression of ICAM-1, VCAM-1, iNOS, and TNF-α in an endotoxemic mouse model, resulting in significant protection against liver and lung injuries and lethality. Our results indicate that Keap1 knockdown prevents NF-κB-mediated vascular inflammation and endotoxic shock by suppressing NF-κB-mediated inflammatory gene expression via upregulation of Nrf2-mediated antioxidant genes. Thus, siRNA targeting Keap1 may provide a new therapeutic approach for inflammation-associated vascular diseases and sepsis.
  Free radical biology & medicine 04/2012; 53(3):629-40. · 5.42 Impact Factor
• Article: CAGE, a cancer/testis antigen, induces c-FLIPL and Snail to enhance cell motility and increase resistance to an anti-cancer drug

  Youngmi Kim, Hyunmi Park, Dooil Jeoung
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  ABSTRACT: Cancer associated gene (CAGE) regulates expression of epithelial-mesenchymal transition (EMT)-related proteins through extracellular regulated kinase (ERK), Akt and nuclear factor κB (NF-kB) in mouse B16F10 melanoma cells. Snail, a EMT-related protein, mediates the effect of CAGE on the induction of matrix metalloproteinase-2 (MMP-2) and cancer cell motility. C-Flice inhibitory protein mediates the effect of CAGE on the induction of MMP-2 and cell motility by the induction of Snail. CAGE was shown to protect cells against celastrol, an anti-cancer agent. Celastrol-resistant B16F10 melanoma cells had a higher expression level of c-FLIPL and Snail as compared with a sensitive cell line.
  Biotechnology Letters 04/2012; 31(7):945-952. · 1.68 Impact Factor
• Article: The activation of CD99 inhibits cell-extracellular matrix adhesion by suppressing β1 integrin affinity.

  Kyoung-Jin Lee, Sun-Hee Lee, Birendra Kumar Yadav, Hyun-Mi Ju, Min-Seo Kim, Jeong Hyun Park, Dooil Jeoung, Hansoo Lee, Jang-Hee Hahn
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  ABSTRACT: CD99 is known to be involved in the regulation of cell-cell adhesion. However, it remains unclear whether CD99 controls cell-extracellular matrix adhesion. In this study, the effects of CD99 activation on cell-extracellular matrix adhesion were investigated. It was found that engagement of CD99 with the stimulating antibody YG32 downregulated the adhesion of MCF-7 cells to fibronectin, laminin and collagen IV in a dose-dependent manner. The CD99 effect on cell-ECM adhesion was inhibited by overexpression of the dominant negative form of CD99 or CD99 siRNA transfection. Treatment of cells with Mn(2+) or by β(1) integrin-stimulating antibody restored the inhibitory effect of CD99 on cell-ECM adhesion. Cross-linking CD99 inactivated β(1) integrin through conformational change. CD99 activation caused dephosphorylation at Tyr-397 in FAK, which was restored by the β(1) stimulating antibody. Taken together, these results provide the first evidence that CD99 inhibits cell-extracellular matrix adhesion by suppressing β(1) integrin affinity. [BMB reports 2012; 45(3): 159-164].
  BMB reports 03/2012; 45(3):159-64. · 1.72 Impact Factor
• Article: Differential effects of substrate-analogue inhibitors on nitric oxide synthase dimerization.

  Kyu-Sun Lee, Dong-Keon Lee, Dooil Jeoung, Hansoo Lee, Jongseon Choe, Kwon-Soo Ha, Moo-Ho Won, Young-Geun Kwon, Young-Myeong Kim
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  ABSTRACT: Nitric oxide synthase (NOS) isoforms are hemoenzymes that are only active as homodimers. We have examined the effect of the substrate-analogue inhibitors, N(G)-monomethyl-L-arginine (L-NMA), N(G)-nitro-L-arginine (L-NNA), N(G)-nitro-L-arginine methyl ester (L-NAME), N(5)-(1-iminoethyl)-L-ornithine (L-NIO), and N(6)-(1-iminoethyl)-L-lysine (L-NIL), the guanidine-containing inhibitor aminoguanidine (AG), and the amidine moiety-containing iNOS-specific inhibitor 1400W, on the formation of NOS dimer. Of these inhibitors, L-NMA effectively not only inhibited iNOS dimerization, but also destabilized its dimeric form in RAW264.7 cells stimulated with lipopolysaccharide plus interferon-γ, but not eNOS dimerization in endothelial cells. Importantly, this inhibition was highly correlated with NO production. These inhibitory effects were significantly reversed by addition of L-arginine. However, L-NNA, L-NAME, and AG in part or significantly increased dimerization of iNOS and eNOS in intact cells, and the other inhibitors assessed did not alter dimerization of iNOS and eNOS. These data taken together suggest that substituted groups of an arginine guanidino moiety play an important role in NOS dimerization as well as its catalytic activity. Our results indicate that l-NMA can inhibit iNOS-dependent NO production by preventing iNOS dimerization and destabilizing its dimeric form.
  Biochemical and Biophysical Research Communications 02/2012; 418(1):49-55. · 2.48 Impact Factor
• Source

  Available from: PubMed Central

  Article: Syringaresinol causes vasorelaxation by elevating nitric oxide production through the phosphorylation and dimerization of endothelial nitric oxide synthase.

  Byung-Hee Chung, Sookon Kim, Jong-Dai Kim, Jung Joon Lee, Yi-Yong Baek, Dooil Jeoung, Hansoo Lee, Jongseon Choe, Kwon-Soo Ha, Moo-Ho Won, Young-Guen Kwon, Young-Myeong Kim
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  ABSTRACT: Nitric oxide (NO) produced by endothelial NO synthase (eNOS) plays an important role in vascular functions, including vasorelaxation. We here investigated the pharmacological effect of the natural product syringaresinol on vascular relaxation and eNOS-mediated NO production as well as its underlying biochemical mechanism in endothelial cells. Treatment of aortic rings from wild type, but not eNOS(-/-) mice, with syringaresinol induced endothelium-dependent relaxation, which was abolished by addition of the NOS inhibitor N(G)-monomethyl-L-arginine. Treatment of human endothelial cells and mouse aortic rings with syringaresinol increased NO production, which was correlated with eNOS phosphorylation via the activation of Akt and AMP kinase (AMPK) as well as elevation of intracellular Ca(2+) levels. A phospholipase C (PLC) inhibitor blocked the increases in intracellular Ca(2+) levels, AMPK-dependent eNOS phosphorylation, and NO production, but not Akt activation, in syringaresinol- treated endothelial cells. Syringaresinol-induced AMPK activation was inhibited by co-treatment with PLC inhibitor, Ca(2+) chelator, calmodulin antagonist, and CaMKKβ siRNA. This compound also increased eNOS dimerization, which was inhibited by a PLC inhibitor and a Ca(2+)-chelator. The chemicals that inhibit eNOS phosphorylation and dimerization attenuated vasorelaxation and cGMP production. These results suggest that syringaresinol induces vasorelaxation by enhancing NO production in endothelial cells via two distinct mechanisms, phosphatidylinositol 3-kinase/Akt- and PLC/Ca(2+)/CaMKKβ-dependent eNOS phosphorylation and Ca(2+)-dependent eNOS dimerization.
  Experimental and Molecular Medicine 12/2011; 44(3):191-201. · 2.48 Impact Factor
• Article: Extracellular taurine induces angiogenesis by activating ERK-, Akt-, and FAK-dependent signal pathways.

  Yi-Yong Baek, Dong Hui Cho, Jongseon Choe, Hansoo Lee, Dooil Jeoung, Kwon-Soo Ha, Moo-Ho Won, Young-Guen Kwon, Young-Myeong Kim
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  ABSTRACT: Taurine, a non essential sulfur-containing amino acid, plays a critical role in cardiovascular functions. We here examined the effect of taurine on angiogenesis and its underlying signal pathway. Taurine treatment increased angiogenesis in vitro and in vivo, which was followed by activation of the phosphatidylinositol 3-kinase (PI3K)/Akt, MEK/ERK, and Src/FAK signaling pathways. Further, taurine promoted endothelial cell cycle progression to the S and G2/M phases by up-regulating the positive cell cycle proteins, particularly cyclins D1 and B, as well as down-regulating the negative cell cycle proteins, p53 and p21(WAF1/CIP1), resulting in Rb phosphorylation. This angiogenic event was inhibited by inhibitors of PI3K and MEK. In addition, a PI3K inhibitor blocked the activation of Akt and ERK, while Akt knockdown did not affect taurine-induced ERK activation, indicating that PI3K is an upstream mediator of both MEK and Akt. Taurine-induced endothelial cell migration was suppressed by Src inhibitor, but not by other inhibitors, suggesting that the increase in cell migration is regulated by Src-dependent pathway. Moreover, inhibition of cellular taurine uptake by β-alanine and taurine transporter knockdown promoted taurine-induced cell proliferation, ERK and Akt activation, and in vivo angiogenesis, suggesting that extracellular taurine induces angiogenesis. However, taurine did not induce vascular inflammation and permeability in vitro and in vivo. These data demonstrate that extracellular taurine promotes angiogenesis by Akt- and ERK-dependent cell cycle progression and Src/FAK-mediated cell migration without inducing vascular inflammation, indicating that it is potential use for the treatment of vascular dysfunction-associated human diseases.
  European journal of pharmacology 11/2011; 674(2-3):188-99. · 2.59 Impact Factor
• Source

  Available from: kangwon.ac.kr

  Article: Integrin α(5) interacts with EGFR, is necessary for FcɛRI signaling and is necessary for allergic inflammation in relation with angiogenesis.

  Youngmi Kim, Kyungjong Kim, Deokbum Park, Sangkyung Eom, Hyunmi Park, Hansoo Lee, Yun-Sil Lee, Jongseon Choe, Jang-Hee Hahn, Young-Myeong Kim, Jai Youl Ro, Dooil Jeoung
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  ABSTRACT: Recent reports have suggested role for epidermal growth factor receptor (EGFR) in asthma and skin inflammation. Integrin(s) are known to be necessary for the transactivation of EGFR. The roles of EGFR and integrin(s) in allergic inflammation were investigated. Antigen stimulation induced activation of EGFR and interaction between EGFR and integrin α(5) in Rat Basophilic Leukemia (RBL2H3) cells and bone marrow-derived mouse mast cells (BMMCs). Flow cytometry revealed increased phosphorylation of EGFR on cell surfaces. Antigen stimulation induced interaction between EGFR and FcɛRI in both RBL2H3 cells and BMMCs. Blocking of EGFR or integrin α exerted negative effects on rac1 activity and secretion of β-hexosaminidase in both RBL2H3 cells and BMMCs. EGFR and integrin α(5) were found to be necessary for IgE-dependent cutaneous anaphylaxis. FAK (focal adhesion kinase), interacted with EGFR and with FcɛRI upon antigen stimulation, and it was necessary for the increased secretion of β-hexosaminidase in both RBL2H3 cells and BMMCs. EGFR and integrin α(5) were necessary for interactions between activated RBL2H3 cells, BMMCs and rat aortic endothelial cells (RAECs). Conditioned medium of antigen-stimulated RBL2H3 cells promoted RAECs tube formation, rat aortic ring formation and blood vessel formation. Conditioned medium of antigen-stimulated BMMCs also had the same effects on RAECs. This enhanced angiogenic potential of RAECs was dependent on EGFR and integrin α(5). In conclusion, EGFR, via interaction with FcɛRI and integrin α(5), is necessary for allergic inflammation associated with cellular interaction.
  Molecular Immunology 02/2011; 48(8):1035-45. · 2.90 Impact Factor
• Article: Metastasis suppressor KAI1/CD82 attenuates the matrix adhesion of human prostate cancer cells by suppressing fibronectin expression and β1 integrin activation.

  Hyun-Ah Lee, Iha Park, Hee-Jung Byun, Dooil Jeoung, Young-Myeong Kim, Hansoo Lee
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  ABSTRACT: KAI1/CD82, a tetraspanin membrane protein functions as a metastasis suppressor in many types of human cancers and has been shown to regulate cell adhesion properties. In the present study, we investigated the underlying mechanism of KAI1/CD82-mediated changes in cell adhesion to the extracellular matrix using human prostate cancer cells. We found that high KAI1/CD82 expression attenuated short-term cell adhesion to uncoated- or fibronectin-coated plates. Moreover, high KAI1/CD82 expression generated an extracellular environment unfavorable for cell adhesion as compared to low KAI1/CD82 expression, suggesting KAI1/CD82-dependent regulation of extracellular matrix (ECM) molecule(s) expression and/or secretion. Among ECM components examined, fibronectin exhibited decreased expression and secretion in high KAI1/CD82-expressing cells. Furthermore, high KAI1/CD82 expression interfered with the activation of β (1) integrin at the cell surface while total β (1) integrin levels remained unchanged, concomitant with reduced formation of focal adhesion complex and decreased bundling of actin filaments. Finally, high KAI1/CD82 expression significantly retarded cell motility in a scratch wound assay. Taken together, our results strongly suggest that KAI1/CD82 attenuates the activation of β (1) integrin, and thereby down-regulates outside-in signaling of β (1) integrin, leading to the reduction of focal adhesion formation and fibronectin expression/secretion, which subsequently interferes with cell adhesion properties and motility.
  Cellular Physiology and Biochemistry 01/2011; 27(5):575-86. · 2.86 Impact Factor
• Article: Carbon monoxide promotes VEGF expression by increasing HIF-1alpha protein level via two distinct mechanisms, translational activation and stabilization of HIF-1alpha protein.

  Yoon Kyung Choi, Chun-Ki Kim, Hansoo Lee, Dooil Jeoung, Kwon-Soo Ha, Young-Guen Kwon, Kyu-Won Kim, Young-Myeong Kim
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  ABSTRACT: Carbon monoxide (CO) plays a significant role in vascular functions. We here examined the molecular mechanism by which CO regulates HIF-1 (hypoxia-inducible transcription factor-1)-dependent expression of vascular endothelial growth factor (VEGF), which is an important angiogenic factor. We found that astrocytes stimulated with CORM-2 (CO-releasing molecule) promoted angiogenesis by increasing VEGF expression and secretion. CORM-2 also induced HO-1 (hemeoxygenase-1) expression and increased nuclear HIF-1α protein level, without altering its promoter activity and mRNA level. VEGF expression was inhibited by treatment with HIF-1α siRNA and a hemeoxygenase inhibitor, indicating that CO stimulates VEGF expression via up-regulation of HIF-1α protein level, which is partially associated with HO-1 induction. CORM-2 activated the translational regulatory proteins p70(S6k) and eIF-4E as well as phosphorylating their upstream signal mediators Akt and ERK. These translational signal events and HIF-1α protein level were suppressed by inhibitors of phosphatidylinositol 3-kinase (PI3K), MEK, and mTOR, suggesting that the PI3K/Akt/mTOR and MEK/ERK pathways are involved in a translational increase in HIF-1α. In addition, CORM-2 also increased stability of the HIF-1α protein by suppressing its ubiquitination, without altering the proline hydroxylase-dependent HIF-1α degradation pathway. CORM-2 increased HIF-1α/HSP90α interaction, which is responsible for HIF-1α stabilization, and HSP90-specific inhibitors decreased this interaction, HIF-1α protein level, and VEGF expression. Furthermore, HSP90α knockdown suppressed CORM-2-induced increases in HIF-1α and VEGF protein levels. These results suggest that CO stimulates VEGF production by increasing HIF-1α protein level via two distinct mechanisms, translational stimulation and protein stabilization of HIF-1α.
  Journal of Biological Chemistry 10/2010; 285(42):32116-25. · 4.77 Impact Factor
• Article: Cancer/testis antigen CAGE exerts negative regulation on p53 expression through HDAC2 and confers resistance to anti-cancer drugs.

  Youngmi Kim, Hyunmi Park, Deokbum Park, Yun-Sil Lee, Jongseon Choe, Jang-Hee Hahn, Hansoo Lee, Young-Myeong Kim, Dooil Jeoung
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  ABSTRACT: The role of the cancer/testis antigen CAGE in drug resistance was investigated. The drug-resistant human melanoma Malme3M (Malme3M(R)) and the human hepatic cancer cell line SNU387 (SNU387(R)) showed in vivo drug resistance and CAGE induction. Induction of CAGE resulted from decreased expression and thereby displacement of DNA methyltransferase 1(DNMT1) from CAGE promoter sequences. Various drugs induce expression of CAGE by decreasing expression of DNMT1, and hypomethylation of CAGE was correlated with the increased expression of CAGE. Down-regulation of CAGE in these cell lines decreased invasion and enhanced drug sensitivity resulting from increased apoptosis. Down-regulation of CAGE also led to decreased anchorage-independent growth. Down-regulation of CAGE led to increased expression of p53, suggesting that CAGE may act as a negative regulator of p53. Down-regulation of p53 enhanced resistance to drugs and prevented drugs from exerting apoptotic effects. In SNU387(R) cells, CAGE induced the interaction between histone deacetylase 2 (HDAC2) and Snail, which exerted a negative effect on p53 expression. Chromatin immunoprecipitation assay showed that CAGE, through interaction with HDAC2, exerted a negative effect on p53 expression in Malme3M(R) cells. These results suggest that CAGE confers drug resistance by regulating expression of p53 through HDAC2. Taken together, these results show the potential value of CAGE as a target for the development of cancer therapeutics.
  Journal of Biological Chemistry 08/2010; 285(34):25957-68. · 4.77 Impact Factor
• Article: Cancer/Testis Antigen CAGE Exerts Negative Regulation on p53 Expression through HDAC2 and Confers Resistance to Anti-cancer Drugs

  Youngmi Kim, Hyunmi Park, Deokbum Park, Yun-Sil Lee, Jongseon Choe, Jang-Hee Hahn, Hansoo Lee, Young-Myeong Kim, Dooil Jeoung
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  ABSTRACT: The role of the cancer/testis antigen CAGE in drug resistance was investigated. The drug-resistant human melanoma Malme3M (Malme3MR) and the human hepatic cancer cell line SNU387 (SNU387R) showed in vivo drug resistance and CAGE induction. Induction of CAGE resulted from decreased expression and thereby displacement of DNA methyltransferase 1(DNMT1) from CAGE promoter sequences. Various drugs induce expression of CAGE by decreasing expression of DNMT1, and hypomethylation of CAGE was correlated with the increased expression of CAGE. Down-regulation of CAGE in these cell lines decreased invasion and enhanced drug sensitivity resulting from increased apoptosis. Down-regulation of CAGE also led to decreased anchorage-independent growth. Down-regulation of CAGE led to increased expression of p53, suggesting that CAGE may act as a negative regulator of p53. Down-regulation of p53 enhanced resistance to drugs and prevented drugs from exerting apoptotic effects. In SNU387R cells, CAGE induced the interaction between histone deacetylase 2 (HDAC2) and Snail, which exerted a negative effect on p53 expression. Chromatin immunoprecipitation assay showed that CAGE, through interaction with HDAC2, exerted a negative effect on p53 expression in Malme3MR cells. These results suggest that CAGE confers drug resistance by regulating expression of p53 through HDAC2. Taken together, these results show the potential value of CAGE as a target for the development of cancer therapeutics.
  Journal of Biological Chemistry 08/2010; 285(34):25957-25968. · 4.77 Impact Factor
• Article: Signaling pathways in the activation of mast cells cocultured with astrocytes and colocalization of both cells in experimental allergic encephalomyelitis.

  Dae Yong Kim, Dooil Jeoung, Jai Youl Ro
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  ABSTRACT: Mast cells in the CNS participate in the pathophysiology of chronic neurodegenerative inflammatory diseases. This study aimed to investigate the signaling pathway of mast cells activated in an environment cocultured with astrocytes and to explore the role of their colocalization in brain of experimental allergic encephalomyelitis. Human mast cell line-1 cells and human U87 glioblastoma cell lines (U87) or mouse bone marrow-derived mast cells and mouse cerebral cortices-derived astrocytes were cocultured. Intracellular Ca(2+) was measured by confocal microscopy; histamine by fluorometric analyzer; leukotrienes by ELISA; small GTPases, protein kinase Cs, MAPK, c-kit, CD40, and CD40L by Western blot; NF-kappaB and AP-1 by EMSA; cytokines by RT-PCR; and colocalization of mast cells and astrocytes in brain by immunohistochemistry. Mast cells cocultured with astrocytes showed time-dependent increases in intracellular Ca(2+) levels, release of histamine and leukotrienes, and cytokine production. Mast cells or astrocytes showed enhanced surface expression of CD40L and CD40, respectively, during coculture. Mast cells cocultured with astrocytes induced small GTPases (Rac1/2, cdc42), protein kinase Cs, MAPK, NF-kappaB, and AP-1 activities. These changes were blocked by anti-CD40 Ab pretreatment or CD40 small interfering RNA. Mast cells increased in the thalamus of experimental allergic encephalomyelitis model, particularly colocalized with astrocytes in the thalamic border region of the habenula. In conclusion, the data suggest that activation of mast cells cocultured with astrocytes induces release of mediators by small GTPases/Ca(2+) influx through CD40-CD40L interactions to participate in the pathophysiology of chronic neurodegenerative inflammatory diseases, such as multiple sclerosis.
  The Journal of Immunology 07/2010; 185(1):273-83. · 5.79 Impact Factor
• Article: Transglutaminase II interacts with rac1, regulates production of reactive oxygen species, expression of snail, secretion of Th2 cytokines and mediates in vitro and in vivo allergic inflammation.

  Youngmi Kim, Sangkyung Eom, Kyungjong Kim, Yun-Sil Lee, Jongseon Choe, Jang Hee Hahn, Hansoo Lee, Young-Myeong Kim, Kwon Soo Ha, Jai Youl Ro, Dooil Jeoung
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  ABSTRACT: Transglutaminase II (TGase II) is a protein cross-linking enzyme with diverse biological functions. Here we report the role of TGase II in allergic inflammation. Antigen stimulation induced expression and activity of TGase II by activation of NF-kappaB in rat basophilic leukemia (RBL2H3) cells. This induction of TGase II was dependent on FcepsilonRI and EGFR. Interaction between TGase II and rac1 was induced following antigen stimulation. TGase II was responsible for the increased production of reactive oxygen species, expression of prostaglandin E2 synthase (PGE2 synthase) and was responsible for increased secretion of prostaglandin E2. ChIP assay showed that TGase II, through interaction with NF-kappaB, was responsible for the induction of histone deacetylase-3 (HDAC3) and snail by direct binding to promoter sequences. HDAC3 and snail induced by TGase II, exerted transcriptional repression on E-cadherin. Snail exerted negative effect on expression of MMP-2, and secretion of Th2 cytokines. Inhibition of matrix metalloproteinase-2 (MMP-2) inhibited secretion of Th2 cytokines. In vivo induction of TGase II was observed in Balb/c mouse model of IgE antibody-induced passive cutaneous anaphylaxis. Chemical inhibition of TGase II exerted negative effect on IgE-dependent passive cutaneous anaphylaxis. Chemical inhibition of TGase II by cystamine exerted negative effect on Balb/c mouse model of phorbol myristate acetate (PMA)-induced atopic dermatitis. These results suggest novel role of TGase II in allergic inflammation and TGase II can be developed as target for the development of allergy therapeutics.
  Molecular Immunology 12/2009; 47(5):1010-22. · 2.90 Impact Factor