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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/71642


    Title: 中國傳統醫藥蒙古黃耆在HCT116結腸癌細胞體外和體內實驗呈現腫瘤抑制作用;Traditional Chinese Medicine Astragalus membranaceus (Fischer) Bge. var. mongolicus (Bge.) Hsiao Exhibits Tumor Inhibitory Effect in HCT116 Colorectal Cancer Cells in vitro and in vivo
    Authors: 曾愛倫;Tseng,Ai-Lun
    Contributors: 系統生物與生物資訊研究所
    Keywords: 大腸癌;基因晶片;黃耆;異種移植;Colorectal cancer;Microarray;Astragalus membranaceus;xenograft
    Date: 2016-07-18
    Issue Date: 2016-10-13 13:24:34 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 許多腫瘤細胞在治療過程中會去抵抗化療藥物所產生的細胞毒性,因此,有需要重新審視傳統中草藥於大腸直腸癌的治療。此研究利用黃耆萃取物治療HCT116大腸癌細胞的研究發現黃耆確實具有抗腫瘤生長的功能。在動物實驗中,我們發現經過黃耆治療的小鼠腫瘤體積較對照組有顯著縮小。藉由基因晶片圖譜分析後,發現表觀基因體與代謝等相關的功能產生變化。另外,在微核糖核酸分析中,許多標靶微核糖核酸也參與代謝及細胞內運輸有關之功能。此研究也運用Library of Integrated Network-based Cellular Signatures資料庫找出與黃耆作用相似的天然藥物。經黃耆治療後的異種移植小鼠血清中使用酵母菌蛋白質晶片偵測其蛋白質表現量也不同於對照組,並發現免疫相關的生物標記物在血液中具有顯著差異。最後,本實驗室也建立一組對5-氟尿嘧啶抗藥的HCT116細胞株。這些細胞株不只呈現多倍體的型態,而在5-氟尿嘧啶與黃耆合併治療中也能抑制細胞存活率。我們的研究結果發現黃耆對於大腸直腸癌具有潛在的治療作用,希望此研究將提供其影響性在藥廠等商業應用上。;The fact that many chemotherapeutic drugs cause chemoresistance and side effects during the course of treating colorectal cancer necessitates development of novel cytotoxic agents aiming to attenuate new molecular targets. Here, we show that Astragalus membranaceus (Fischer) Bge. var. mongolicus (Bge.) Hsiao (AM), a traditional Chinese medicine, can inhibit tumor growth in vitro and in vivo thus the underlying molecular mechanisms are elucidated. The effects of AM on HCT116 cell viability and apoptotic events were studied over a dose range of 0-500 μg/ml. The viability assay showed that AM-treated cells were significantly lower than control. In the animal model, the mice were treated with either water or 500 mg/kg AM once per day, before being sacrificed for extraction of tumors and serum, which were then subjected to microarray expression profiling. The identified genes as differentially expressed between treated mice and controls revealed that administration of AM suppresses chromosome organization, histone modification, regulation of macromolecule metabolic process and others. A separate analysis focused on differentially expressed microRNAs revealed involvement of macromolecule metabolism, intracellular transport, etc. and implicated several cancer signaling pathways. For validation, inputting the identified genes to The Library of Integrated Network-based Cellular Signatures led to many chemopreventive agents of natural origin that produce similar gene expression profiles to that of AM. The mouse sera analysis revealed many immune system-related markers, suggesting the immunosuppressant effect of AM. Finally, a separate study on 5-fluorouracil resistant HCT116 subclones shows the cells possess polyploidy morphology and when the subclones were treated with both AM and 5-fluorouracil, the number of viable cells decreased significantly. The demonstrated effectiveness of AM suggests a potential therapeutic medicine for CRC.
    Appears in Collections:[Institute of Systems Biology and Bioinformatics] Electronic Thesis & Dissertation

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