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    Please use this identifier to cite or link to this item: http://ir.cmu.edu.tw/ir/handle/310903500/32571


    Title: 金黃色葡萄球菌細胞壁成份---肽聚醣誘發微膠細胞造成神經性發炎之機轉
    Staphylococcus aureus-derived peptidoglycan induces neuroinflammatory responses in microglia
    Authors: 林曉筠;Hsiao-Yun Lin
    Contributors: 醫學院基礎醫學研究所
    Keywords: 微膠細胞;神經性發炎;一氧化氮合成酶第二環氧化酶介白素6;Microglia;neuroinflammation;PGN;iNOS;COX-2;NF-kB;IL-6;AP-1
    Date: 2010
    Issue Date: 2010-09-29 12:13:47 (UTC+8)
    Abstract: 微膠細胞(microglia)是中樞神經系統吞噬細胞,它調控許多的免疫反應,同時扮演著防禦的角色,幫助中樞神經系統抵禦外來微生物。在本論文中利用金黃色葡萄球菌細胞壁成分peptidoglycan (PGN),探討其對microglia的活化及誘發發炎物質iNOS、COX-2和IL-6釋放,所造成的神經發炎機轉。素隨著PGN濃度和作用時間的增加iNOS、COX-2的mRNA和蛋白的表現量都增加,此外PGN刺激microglia產生發炎前驅物IL-1b、TNF-a和IL-6的mRNA大量表現;我們也證實了PGN刺激microglia產生 iNOS 和COX-2的蛋白和mRNA的表現是透過TLR2/MyD88訊息路徑,而NF-kB的抑制劑(PDTC、TPCK 和 Bay117082)都能抑制PGN刺激microglia產生 iNOS 和COX-2蛋白的表現,PGN也增加NF-kB transcription activity,進而啟動下游轉錄因子;我們證實了PGN增加iNOS 和COX-2的表現是透過TLR2/MyD88訊息路徑,並且活化PI3K/AKT訊息傳遞,進而活化IKKa/b和NF-kB。我們也針對PGN增加IL-6的表現做探討,在microglia和primary culture microglia,PGN增加IL-6的蛋白和mRNA的表現,此外PGN也會活化JNK和c-Jun。前處理JNK抑制劑(SP600125)和AP-1抑制劑(Tanshinone IIA 和curcumin)都會抑制PGN增加IL-6的蛋白和mRNA的表現,PGN會促進c-Fos和c-Jun由細胞質進入細胞核內;此外在EMSA的實驗中證明PGN會增加細胞核萃取蛋白和轉錄因子AP-1結合的活性,此現象則在前處理c-Fos和c-Jun 抗體後,產生競爭性抑制。PGN也會增加IL-6 luciferase activity,反之,前處理JNK抑制劑(SP600125)和將細胞轉殖JNK-DN (dominant-negative mutant)都會抑制IL-6 luciferase activity,綜合以上結果,PGN增加IL-6的表現是透過TLR2 receptor 經由 JNK/c-Jun 和 AP-1 pathways 。我們的研究結果提供PGN刺激microglia產生proinflammatory cytokine的機轉。PGN對於活化microglia扮演重要的角色;藉由了解microglia的活化及其造成的神經性發炎以及其中的訊息傳遞路徑,對於開發新的治療策略及能減少革蘭氏陽性菌成分引起的神經發炎的藥物有很大的幫助。

    Microglia are the phagocytes of central nervous system and involved in immune responses , providing an initial line defence against invading pathogens. Here we explored the effect of cell wall component of Gram positive bacteria , Staphylococcus aureus, on glia activation and neuroinflammation. In particular, we investigate the signaling pathways of iNOS, COX-2 and IL-6 production caused by Staphylococcus aureus-derived peptidoglycan (PGN) and it’s signal transduction. PGN increased iNOS and COX-2 mRNA and protein expression in concentration and time dependent manner. In addition, PGN also induced IL-1b, TNF-a and IL-6 mRNA over-expression. We further confirmed that PGN induced iNOS and COX-2 expression is mediated by TLR2/MyD88. On the other hand, PGN-induced iNOS and COX-2 up-regulation were also attenuated by PI3K inhibitors (LY294002 and wortmanin) and AKT inhibitor. Treatment of microglia with NF-kB inhibitor, PDTC, TPCK and Bay117082, inhibited PGN-induced iNOS and COX-2 expression. PGN also increased kB-luciferase activity in microglia. Our data demonstrate that PGN-induced iNOS, COX-2 and proinflammatory cytokine expression in microglia are mediated by the TLR2/MyD88 and PI3K/AKT pathways, which in turn initiate IKKa/b and NF-kB activation. Moreover, we investigated the signaling pathways involved in PGN-induced IL-6 production. PGN increased IL-6 mRNA and protein expression in microglia and rat primary culture microglia time-dependently. PGN also increased JNK activation and c-Jun phosphorylation. Pretreatment with JNK inhibitor (SP600125) and AP-1 inhibitors (Tanshinone IIA and curcumin) reduced PGN-induced IL-6 mRNA and protein expression. PGN also increased p-c-Jun and c-Fos translocation from cytosol to nucleus. In addition, PGN-increased binding activity of activator protein-1 (AP-1) transcription factor was determined by electrophoretic mobility shift assay (EMSA). Moreover, PGN-increased AP-1 binding activity was reduced by treatment with c-Fos- and c-Jun-neutralized antibody. PGN also increased IL-6 luciferase activity, which was attenuated by JNK inhibitor, AP-1 inhibitors and JNK dominant-negative mutant (JNK-DN). Taken together these data suggest that PGN increases IL-6 production in microglia are through the TLR2receptor/JNK /c-Jun and AP-1 signaling pathway. Our results provide a mechanism of PGN induce proinflammatory cytokine expression, which indicates that PGN plays an important role in microglia activation. With a further understanding of these signal transduction pathways, we can develop novel therapeutic strategies to reduce neuroinflammation caused by Gram-positive organisms.
    Appears in Collections:[Graduate Institute of Basic Medical Science] Theses & dissertations

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