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    題名: BJ-601對於人類血管內皮細胞的生長抑制作用
    The anti-proliferation effect of BJ-601 in human vascular endothelial cells
    作者: 余忠勳
    YU CHUNG-HSUN
    貢獻者: 細胞及分子生物研究所
    關鍵詞: 血管增生
    日期: 2001
    上傳時間: 2009-09-11 15:45:21 (UTC+8)
    摘要: 藉由抑制血管的增生(angiogenesis)進一步抑制腫瘤的生長,為近年來相當熱門的研究課題。血管增生主要是內皮細胞的增生及遷移現象。本篇論文主要為探討藥物BJ-601對人類臍帶靜脈內皮細胞(human umbilical vein endothelial cell,HUVEC)及人類包皮微血管內皮細胞(human dermal micro-vascular endothelial cell,HDMVEC)生長的抑制,並且探討可能的作用機制。
    本研究顯示,BJ-601 能使HUVEC及HDMVEC的生長產生抑制作用,其抑制效果與BJ-601的劑量呈正相關性(dose-dependent)。以3H-thymidine incorporation的研究觀察,在加藥24小時後,BJ-601明顯的抑制內皮細胞DNA的合成,並且將細胞週期停滯在G0/G1期。利用Western blotting方法我們偵測到,內皮細胞以BJ-601處理後,可以觀察到和細胞週期停滯(cell cycle arrest)有關的蛋白p21、 p27及p53比對照組有明顯的增加。我們分別利用anti-cdk2 antibody及anti-cdk4 antibody進行免疫沉澱法(immuno-precipitation)發現加藥組和cdk2-cyclin complex結合的p27以及和cdk4-cyclin complex上結合的p21的確比對照組有增加的現象。利用kinase assay發現,p21及p27的增加會抑制cdk2的活性,進而造成細胞週期停滯在G0/G1時期。
    本研究提出,BJ-601對HUVEC及HDMVEC兩種內皮細胞的生長週期停滯的可能作用機制,期能藉由BJ-601對血管增生的抑制,而進一步達成治療癌症的功效。
    Recently, anti-angiogenesis has become an attractive, potential strategy for cancer therapy. In this thesis, we investigated the anti-proliferation effect of BJ-601 on human umbilical vein endothelial cell (HUVEC) and human dermal micro-vascular endothelial cell (HDMVEC), and its underlying molecular mechanism.
    In this study, we demonstrated that BJ-601 induced a dose-dependent inhibition on HUVEC and HDMVEC. After treatment of the cells with BJ-601 for 24 hours, the DNA synthesis was reduced, and the cell cycle was arrested in G0/G1 phase evidenced by H3-thymidine incorporation studies. Using western blotting analysis, we demonstrated that BJ-601 changed the level of the cell cycle related proteins; the level of cyclin-dependent protein kinase inhibitors, p21, p27, and p53, were significantly increased, while the level of cyclin-dependent protein kinase-2 (cdk-2) protein was decreased. Furthermore, immuno-precipitation study show that the cdk4-cyclin-linked p21 as well as the cdk2-cyclin-linked p27 proteins were significantly increased after BJ-601 treatment. Using kinase assay method to measure the kinase activity, we further demonstrated that the cdk-2 activity was decreased in the BJ-601 treated HDMVEC.
    In this study, we delineated the possible mechanisms of the BJ-601 inhibitory effects on the cell cycle of HUVEC and HDMVEC. The findings from the present study suggest that BJ-601 might have the potential to inhibit the occurrence of angiogenesis.
    資料類型: thesis
    顯示於類別:[醫學科學研究所] 博碩士論文

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