Zee-Yong Park

Transcriptional regulation of IL‐8 by iron chelator in human epithelial cells is independent from NF‐κB but involves ERK1/2‐ and p38 kinase‐dependent activation of AP‐1

We have shown that the bacterial iron chelator, deferoxamine (DFO), triggers inflammatory signals including the production of CXC chemokine IL‐8, in human intestinal epithelial cells (IECs) by activating the ERK1/2 and p38 kinase pathways. In this study we investigated the mechanisms involved in IL‐8 generation by DFO, focusing on the transcription factors involved and the roles of both mitogen‐activated protein kinases (MAPKs) in the transcription factor activation. Treatment of human epithelial HT‐29 cells with DFO markedly up‐regulated the expression of the essential components of the transcription factor AP‐1 at a transcriptional level, while it minimally affected the expression of the NF‐κB subunits. DFO also induced AP‐1‐dependent transcriptional activity in HT‐29 cells, and this activity was further augmented by the wild‐type c‐Jun transfection. In contrast, the AP‐1 activity by DFO was markedly decreased by the dominant‐negative c‐Jun transfection. Electrophoretic mobility shift assays revealed that DFO increases the specific binding of AP‐1 but not of NF‐κB. Such AP‐1 binding and transcriptional activities were blocked by the inhibitors of the ERK1/2 and p38 kinase pathways, suggesting that both mitogen‐activated protein kinases (MAPKs) lie upstream of AP‐1. Besides its action on AP‐1, DFO also induced the specific binding of other transcription factors such as CREB and Egr‐1. In summary, our results indicate that iron chelator‐induced IL‐8 generation in IECs involves activation of ERK1/2 and p38 kinase and downstream activation of AP‐1. A possible link between iron status and two additional transcription factors, that is, CREB and Egr‐1, rather than NF‐κB, was also suggested. J. Cell. Biochem. 102: 1442–1457, 2007.

TAGLN2 regulates T cell activation by stabilizing the actin cytoskeleton at the immunological synapse.

TAGLN2 stabilizes cortical F-actin and thereby maintains F-actin contents at the immunological synapse, which allows T cell activation following T cell receptor stimulation.

Swiprosin‐1 is expressed in mast cells and up‐regulated through the protein kinase CβI/η pathway

Swiprosin‐1 exhibits the highest expression in CD8+ T cells and immature B cells and has been thought to play a role in lymphocyte physiology. Here we report that swiprosin‐1 is also expressed in mast cells and up‐regulated in both in vitro cultured mast cells by phorbol ester and in vivo model tissues of passive cutaneous anaphylaxis and atopic dermatitis. Targeted inhibition of the specific protein kinase C (PKC) isotypes by siRNA revealed that PKC‐βI/η are involved in the expression of swiprosin‐1 in the human mast cell line HMC‐1. In contrast, down‐regulation of swiprosin‐1 by A23187 or ionomycin suggests that calcium‐signaling plays a negative role. The ectopic expression of swiprosin‐1 augmented PMA/A23187‐induced NF‐κB promoter activity, and resulted in increased expression of cytokines. Moreover, knock‐down of swiprosin‐1 attenuated PMA/A23187‐induced cytokine expression. Collectively, these results suggest that swiprosin‐1 is a PKC‐βI/η‐inducible gene and it modulates mast cell activation through NF‐κB‐dependent pathway. J. Cell. Biochem. 108: 705–715, 2009.

Detection of Multiphosphorylated Peptides in LC-MS/MS Analysis under Low pH Conditions

An improved method of detection of multiphosphorylated peptides by RPLC-MS/MS analysis under low pH conditions (pH approximately 1.7, 3% formic acid) is demonstrated for the model phosphoproteins, bovine alpha- and beta-casein. Changes in the pH conditions from normal (pH approximately 3.0, 0.1% formic acid) to low (pH approximately 1.7, 3% formic acid) significantly improved the detection limit of multiphosphorylated peptides carrying negative (-) solution charge states. In particular, bovine beta-casein tetraphosphorylated peptide, was detected with a loading amount of only 50 fmol of trypsin-digested bovine beta-casein under low pH conditions, which is 200 times lower than necessary to detect the peptide under normal pH conditions. In order to understand the low pH effect, various loading amounts of trypsin-digested bovine alpha- and beta-caseins were analyzed by RPLC-MS/MS analyses under two different pH conditions. The question of whether the low pH condition improves the detection of multiphosphorylated peptides by increasing ionization efficiencies could not be proven in this study because synthetic multiphosphorylated peptides could not be easily obtained by peptide synthesis. Interestingly, increased hydrophilicity resulting from multiple phosphorylation events is shown to negatively affect the peptide retention on reversed-phase column material. It was also demonstrated that the low pH condition could effectively enhance the retention of multiphosphorylated peptides on reversed-phase column material. The usefulness of low pH RPLC analysis was tested using an actual phosphopeptide-enriched sample prepared from mouse brain tissues. Previously, low pH solvents have been used in SCX fractionation and TiO2 enrichment processes to selectively enrich phosphopeptides during the phosphopeptide enrichment procedure, but the improved detection of multiphosphorylated peptides in RPLC-MS/MS analysis under low pH conditions has not been reported before (Ballif, B. A.; Villen, J.; Beausoleil, S. A.; Schwartz, D.; Gygi, S. P. Mol. Cell. Proteomics 2004, 3, 1093-1101. Villen, J.; Beausoleil, S. A.; Gerber, S. A.; Gygi, S. P. Proc. Natl. Acad. Sci. U.S.A. 2007, 104, 1488-1493. Schlosser, A.; Vanselow, J. T.; Kramer, A. Anal. Chem. 2005, 77, 5243-5250.).

Proteasome inhibition causes epithelial–mesenchymal transition upon TM4SF5 expression

Transmembrane 4 L six family member 5 (TM4SF5) is highly expressed in hepatocarcinoma and causes epithelial–mesenchymal transition (EMT) of hepatocytes. We found that TM4SF5‐expressing cells showed lower mRNA levels but maintained normal protein levels in certain gene cases, indicating that TM4SF5 mediates stabilization of proteins. In this study, we explored whether regulation of proteasome activity and TM4SF5 expression led to EMT. We observed that TM4SF5 expression caused inhibition of proteasome activity and proteasome subunit expression, causing morphological changes and loss of cell–cell contacts. shRNA against TM4SF5 recovered proteasome expression, with leading to blockade of proteasome inactivation and EMT. Altogether, TM4SF5 expression appeared to cause loss of cell–cell adhesions via proteasome suppression and thereby proteasome inhibition, leading to repression of cell–cell adhesion molecules, such as E‐cadherin. J. Cell. Biochem. 112: 782–792, 2011.

Phytocomponent 4-hydroxy-3-methoxycinnamaldehyde ablates T-cell activation by targeting protein kinase C-θ and its downstream pathways

Autoreactive T-cell responses have a crucial role in the pathology and clinical course of autoimmune diseases. Therefore, controlling the activation of these cells is an important strategy for developing therapies and therapeutics. Here, we identified that 4-hydroxy-3-methoxycinnamaldehyde (4H3MC) has a therapeutic potential for T-cell activation by modulating protein kinase C-θ (PKCθ) and its downstream pathways. Pre- and post-treatment with 4H3MC prevented IL-2 release from human transformed and untransformed T cells at the micromolar concentrations without any cytotoxic effects, in fact more efficiently than its structural analogue 4-hydroxycinnamic acid-a previously reported T-cell inhibitor. In silico analysis showed that 4H3MC is a potential inhibitor of PKC isotypes, including PKCθ-a crucial PKC isotype in T cells. Consistently, 4H3MC significantly blocked PKC activity in vitro and also inhibited the phosphorylation of PKCθ in T cells. 4H3MC had no effect on TCR-mediated membrane-proximal-signalling events such as phosphorylation of Zap70. Instead, it attenuated the phosphorylation of mitogen-activated protein kinases (ERK and p38) and promoter activities of NF-κB, AP-1 and NFAT. Taken together, our results provide the evidences that 4H3MC may have curative potential as a novel immune modulator in a broad range of immunopathological disorders by modulating PKCθ activity.

Transgelin-2 in B-Cells Controls T-Cell Activation by Stabilizing T Cell - B Cell Conjugates

The immunological synapse (IS), a dynamic and organized junction between T-cells and antigen presenting cells (APCs), is critical for initiating adaptive immunity. The actin cytoskeleton plays a major role in T-cell reorganization during IS formation, and we previously reported that transgelin-2, an actin-binding protein expressed in T-cells, stabilizes cortical F-actin, promoting T-cell activation in response to antigen stimulation. Transgelin-2 is also highly expressed in B-cells, although no specific function has been reported. In this study, we found that deficiency in transgelin-2 (TAGLN2-/-) in B-cells had little effect on B-cell development and activation, as measured by the expression of CD69, MHC class II molecules, and CD80/86. Nevertheless, in B-cells, transgelin-2 accumulated in the IS during the interaction with T-cells. These results led us to hypothesize that transgelin-2 may also be involved in IS stability in B-cells, thereby influencing T-cell function. Notably, we found that transgelin-2 deficiency in B-cells reduced T-cell activation, as determined by the release of IL-2 and interferon-γ and the expression of CD69. Furthermore, the reduced T-cell activation was correlated with reduced B-cell–T-cell conjugate formation. Collectively, these results suggest that actin stability in B-cells during IS formation is critical for the initiation of adaptive T-cell immunity.

Development of an off-line capillary column IMAC phosphopeptide enrichment method for label-free phosphorylation relative quantification

Immobilized metal affinity chromatography (IMAC) and metal oxide type affinity chromatography (MOAC) techniques have been widely used for mass spectrometry-based phosphorylation analysis. Unlike MOAC techniques, IMAC requires rather complete removals of buffering reagents, salts and high concentrations of denaturant prior to sample loading in order for the successful enrichment of phosphopeptides. In this study, a simple off-line capillary column-based IMAC phosphopeptide enrichment method can shorten sample preparation time by eliminating the speed-vac step from the desalting process. Tryptic digest peptide samples containing 2M urea can be directly processed and the entire IMAC procedure can be completed within 6 h. When tryptic digest peptide samples prepared from mouse whole brain tissues were analyzed using our method, an average of 249 phosphoproteins and 463 unique phosphopeptides were identified from single 2-h RPLC-MS/MS analysis (~88% specificity). An additional advantage of this method is the significantly improved reproducibility of the phosphopeptide enrichment results. When four independent phosphopeptide enrichment experiments were carried out, the peak areas of phosphopeptides identified among four enrichment experiments were relatively similar (less than 16.2% relative standard dev.). Because of this increased reproducibility, relative phosphorylation quantification analysis of major phosphoproteins appears to be feasible without the need for stable isotope labeling techniques.

Chemical Composition and Inhibitory Effect of Lentinula edodes Ethanolic Extract on Experimentally Induced Atopic Dermatitis in Vitro and in Vivo

The ethanolic extract of Lentinula edodes was partially analyzed and then characterized for its efficacy in treating atopic dermatitis. Polyphenols were determined to be the major antioxidant component in the extract (6.12 mg/g), followed by flavonoids (1.76 mg/g), β-carotene (28.75 μg/g), and lycopene (5.25 μg/g). An atopic dermatitis (AD) model was established and epidermal and dermal ear thickness, mast cell infiltration, and serum immunoglobulin levels were measured after oral administration of the L. edodes extract for 4 weeks. L. edodes extract decreased Dermatophagoides farinae extract (DFE) and 4-dinitrochlorobenzene (DNCB)-induced expression of several inflammatory cytokines in the ears, cervical lymph nodes, and splenocytes. Consequently, L. edodes extract may have therapeutic potential in the treatment of AD attributable to its immunomodulatory effects.

A Pair of Oviduct-Born Pickpocket Neurons Important for Egg-Laying in Drosophila melanogaster.

During copulation, male Drosophila transfers Sex Peptide (SP) to females where it acts on internal sensory neurons expressing pickpocket (ppk). These neurons induce a post-mating response (PMR) that includes elevated egg-laying and refractoriness to re-mating. Exactly how ppk neurons regulate the different aspects of the PMR, however, remains unclear. Here, we identify a small subset of the ppk neurons which requires expression of a pre-mRNA splicing factor CG3542 for egg-laying, but not refractoriness to mating. We identify two CG3542-ppk expressing neurons that innervate the upper oviduct and appear to be responsible for normal egg-laying. Our results suggest specific subsets of the ppk neurons are responsible for each PMR component.