2-(芳基甲基胺)-1,3-丙二醇细胞毒性与蛋白质相关DNA链断裂的相关性。

Anti-cancer drug design Pub Date : 1998-10-01
R T Dorr, W Bellamy, J D Liddil, A Baker, K W Bair
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引用次数: 0

摘要

对14种结构上为2-(芳基甲基胺)-1,3-丙二醇(AMAPs)的新型DNA结合剂的作用机制进行了研究。分别采用软琼脂集落形成实验和碱性洗脱过滤技术研究8226骨髓瘤细胞集落形成与DNA损伤的相关性。双链断裂(DSBs)、单链断裂(SSBs)和dna -蛋白交联的频率与细胞生长抑制效能进行比较。集落形成实验中高效的amap包括91U86 (n -甲基-5-苯并(c)咔唑衍生物)、773U82(3-取代的荧光蒽衍生物)和crisnatol (770U82)(6-取代的蒽衍生物)。ssb和dsb有许多类似物的频率很高,但只有ssb以浓度依赖性的方式发生。通过回归分析,单链损伤程度与AMAPs的细胞毒效力相关,r值为0.57 (P = 0.04)。凝胶电泳分析显示,crisnatol BW 770U82、BW 502U83和BW 773U82这3种临床检测的AMAPs可通过纯化的拓扑异构酶ii (TOPO-II)抑制pBR 322 DNA的十烷化。这些结果表明,虽然一些活性amap,如crisnatol (BW 770U82), BW 502U83和BW 773U82,抑制TOPO-II酶,导致蛋白质相关的SSBs,但其他不涉及DNA链损伤的机制也一定有助于这类抗肿瘤化合物的细胞毒性作用。这些药物的嵌入已被充分证明,这可能解释了AMAPs的一些生长抑制活性。
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Correlation of cytotoxicity and protein-associated DNA strand breaks for 2-(arylmethylamino)-1,3-propanediols.

A mechanism of action study was performed with 14 novel DNA binding agents characterized structurally as 2-(arylmethylamino)-1,3-propanediols (AMAPs). Correlations between 8226 myeloma cell colony formation and DNA damage were performed using soft agar colony-forming assays and alkaline elution filter techniques respectively. The frequency of double-stranded breaks (DSBs), single-stranded breaks (SSBs) and DNA-protein cross-links were compared with cell growth inhibitory potency. Highly potent AMAPs in the colony formation assays included 91U86, an N-methyl-5-benzo(c)carbazole derivative, 773U82, a 3-substituted fluoranthene derivative, and crisnatol (770U82), the 6-substituted chrysene derivative. There was a high frequency of SSBs and DSBs with many analogues, but only SSBs occurred in a concentration-dependent fashion. Using regression analysis, the degree of single-strand damage correlated with cytotoxic potency for the AMAPs, with an R-value of 0.57 (P = 0.04). By gel electrophoresis assays, three clinically tested AMAPs, crisnatol BW 770U82, BW 502U83 and BW 773U82, were shown to inhibit the decatenation of pBR 322 DNA by purified topoisomerase-II (TOPO-II) enzymes. These results suggest that while some active AMAPs, such as crisnatol (BW 770U82), BW 502U83 and BW 773U82, inhibit TOPO-II enzymes, leading to protein-associated SSBs, other mechanisms, which do not involve DNA strand damage, must also contribute to the cytotoxic effects of this class of antitumor compounds. Intercalation has been well documented for these drugs and this may explain some of the growth inhibitory activity of the AMAPs.

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