Polybenzamide mustards: structure-activity relationships for DNA sequence-specific alkylation.

Anti-cancer drug design Pub Date : 1999-02-01
P R Turner, L R Ferguson, W A Denny
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Abstract

A series of cytotoxic polybenzamide mustards targeted to the minor groove of DNA were used to define structure-activity relationships for sequence-specific DNA alkylation. Compounds with an annular structure closely matched to the minor groove of DNA, and with concave-facing, potentially H-bonding NH groups, had a strong preference for alkylating adenines in sequences possessing four or more consecutive adenines. Two compounds whose annular structure matched that of the minor groove better when at least one carboxamide NH group faced outwards showed a high specificity for the consensus sequence (A/T)A(G/C) (A/T)N. Several compounds also alkylated specific guanines, presumably at the N3 position. Modelling studies suggest the most important contribution to sequence-specific alkylation is the H-bonds formed between these compounds and DNA, with factors such as the degree and positioning of cationic charge being less influential.

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聚苯酰胺芥菜:DNA序列特异性烷基化的构效关系。
利用一系列靶向DNA小凹槽的细胞毒性聚苯酰胺芥菜来确定序列特异性DNA烷基化的结构-活性关系。环状结构与DNA小凹槽密切匹配的化合物,具有凹面,潜在的氢键NH基团,在具有四个或更多连续腺嘌呤的序列中具有强烈的烷基化偏好。当至少有一个羧胺NH基团面向外时,两个化合物的环状结构与次要凹槽的匹配更好,对一致序列(a /T) a (G/C) (a /T)N具有高特异性。一些化合物也烷基化特定的鸟嘌呤,可能在N3位置。模型研究表明,对序列特异性烷基化最重要的贡献是这些化合物与DNA之间形成的氢键,而阳离子电荷的程度和位置等因素的影响较小。
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