Bremer R E, Baird E E, Dervan P B
Arnold and Mabel Beckman Laboratory of Chemical Synthesis, California Institute of Technology, Pasadena 91125, USA.
Chem Biol. 1998 Mar;5(3):119-33. doi: 10.1016/s1074-5521(98)90057-6.
Gene-specific targeting of any protein-DNA complex by small molecules is a challenging goal at the interface of chemistry and biology. Polyamides containing N-methylimidazole and N-methylpyrrole amino acids are synthetic ligands that have an affinity and specificity for DNA comparable to many naturally occurring DNA-binding proteins. It has been shown that an eight-ring hairpin polyamide targeted to a specific minor-groove contact within a transcription factor binding site can inhibit protein-DNA binding and gene transcription. Polyamides and certain major-groove-binding proteins have been found to co-occupy the DNA helix, however. To expand the number of genes that can be targeted by pyrrole/imidazole polyamides, we set out to develop a class of polyamides that can selectively inhibit major-groove-binding proteins.
An eight-ring hairpin polyamide conjugated to a carboxy-terminal Arg-Pro-Arg tripeptide was designed to deliver a positive residue to the DNA backbone and interfere with protein-phosphate contacts. Gel mobility shift analysis demonstrated that a polyamide hairpin-Arg-Pro-Arg binding in the minor groove selectively inhibits binding of the transcription factor GCN4 (222-281) in the adjacent major groove. Substitution within the Arg-Pro-Arg revealed that each residue was required for optimal GCN4 inhibition.
A pyrrole-imidazole polyamide that binds to a predetermined site in the DNA minor groove and delivers a positive patch to the DNA backbone can selectively inhibit a DNA-binding protein that recognizes the adjacent major groove. A subtle alteration of the DNA microenvironment targeted to a precise location within a specific DNA sequence could achieve both gene-specific and protein-specific targeting.
通过小分子对任何蛋白质-DNA复合物进行基因特异性靶向是化学与生物学交叉领域中一个具有挑战性的目标。含有N-甲基咪唑和N-甲基吡咯氨基酸的聚酰胺是合成配体,对DNA具有与许多天然存在的DNA结合蛋白相当的亲和力和特异性。已经表明,靶向转录因子结合位点内特定小沟接触的八环发夹聚酰胺可以抑制蛋白质-DNA结合和基因转录。然而,已发现聚酰胺和某些大沟结合蛋白共同占据DNA螺旋。为了扩大可被吡咯/咪唑聚酰胺靶向的基因数量,我们着手开发一类能够选择性抑制大沟结合蛋白的聚酰胺。
设计了一种与羧基末端精氨酸-脯氨酸-精氨酸三肽偶联的八环发夹聚酰胺,以向DNA主链传递一个正电荷残基并干扰蛋白质-磷酸接触。凝胶迁移率变动分析表明,在小沟中结合的聚酰胺发夹-精氨酸-脯氨酸-精氨酸选择性抑制相邻大沟中转录因子GCN4(222-281)的结合。精氨酸-脯氨酸-精氨酸内的取代表明,每个残基对于最佳抑制GCN4都是必需的。
一种与DNA小沟中预定位点结合并向DNA主链传递一个正电荷斑块的吡咯-咪唑聚酰胺可以选择性抑制识别相邻大沟的DNA结合蛋白。针对特定DNA序列内精确位置的DNA微环境的细微改变可以实现基因特异性和蛋白质特异性靶向。
