近年來,癌症的轉移往往伴隨唾液酸轉移?的異常表現,因此發展唾液酸轉 移?的抑制劑,並測試其抑制活性,了解化合物結構與抑制能力的關係,期望能 以抑制唾液酸轉移?為分子標靶來達到抗癌症轉移的效果。 以Lith-O-Asp 為主結構,並透過DMMTM BF4 耦合試劑和SOCl2 醯氯化合 成醯胺鍵連接一系列的香豆素衍生物,分別透過細胞傷口癒合分析及唾液酸轉移 ?抑制實驗來探討香豆素衍生物上的取代基對於生物活性的影響。透過生物實驗 可以發現KE-49、KE-50、KE-89 及KE-126 有較明顯的抑制能力,代表香豆素 上的羥基有助於增進抑制活性,其中又以C7 號位的羥基取代最為明顯,另外在 C8 號位增加一個甲基取代也有助於活性的提升。 Recently, aberrant sialylation is found in cancer metastasis frequently. Empolying the strategy of the relationships between structure and activity , we use sialyltrasdferase as the molecular target to develop its inhibitors in order to attenuate cancer metastasis. Preparation of Lith-O-Asp-coumarin derivatives was successfully accomplished through the coupling reaction between Lith-O-Asp and coumarin moieties using DMMTM BF4 (4-(4,6-dimethoxy-(1,3,5)triazin-2-yl)-4-methyl-morpholinium tetrafluoroborate) or SOCl2 as the reagents. Extensive SAR studies were performed using different substituted-coumarin analogs under the wound healing and sialyltransferase inhibitor assays. Among the Lith-O-Asp-coumarin derivatives, the hydroxyl-substituent analogs at C-7 position were observed to have the hightest biological activity. It is also noteworthy that the methyl-substituent analogs at C-8 position also display significantly increased biological activity toward both assays.
