Rishi Vikas, Potter Timothy, Laudeman Julie, Reinhart Russel, Silvers Thomas, Selby Michael, Stevenson Timothy, Krosky Paula, Stephen Andrew G, Acharya Asha, Moll Jon, Oh Won Jun, Scudiero Dominic, Shoemaker Robert H, Vinson Charles
Laboratory of Metabolism, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.
Anal Biochem. 2005 May 15;340(2):259-71. doi: 10.1016/j.ab.2005.02.012.
We have developed a high-throughput fluorescence anisotropy screen, using a 384-well format, to identify small molecules that disrupt the DNA binding of B-ZIP proteins. Binding of a B-ZIP dimer to fluorescently labeled DNA can be monitored by fluorescence anisotropy. We screened the National Cancer Institute diversity set of 1990 compounds to identify small molecules that disrupt the B-ZIP|DNA complex of CREB, C/EBPbeta, VBP, and AP-1 (FOS|JUND) bound to their cognate DNA sequence. We identified 21 compounds that inhibited the DNA binding of at least one B-ZIP protein, and 12 representative compounds were grouped depending on whether they displaced ethidium bromide from DNA. Of the 6 compounds that did not displace ethidium bromide, 2 also inhibited B-ZIP binding to DNA in a secondary electrophoretic mobility shift assay screen with some specificity. Thermal stability monitored by circular dichroism spectroscopy demonstrated that both compounds bound the basic region of the B-ZIP motif. NSC13778 preferentially binds C/EBPalpha 1000-fold better than it binds C/EBPbeta. Chimeric proteins combining C/EBPalpha and C/EBPbeta mapped the binding of NSC13778 to three amino acids immediately N terminal of the leucine zipper of C/EBPalpha. These experiments suggest that the DNA binding of B-ZIP transcription factors is a potential target for clinical intervention.
我们开发了一种高通量荧光各向异性筛选方法,采用384孔板形式,以鉴定能够破坏B-ZIP蛋白与DNA结合的小分子。B-ZIP二聚体与荧光标记DNA的结合可通过荧光各向异性进行监测。我们筛选了美国国立癌症研究所的1990种化合物的多样性集,以鉴定能够破坏与同源DNA序列结合的CREB、C/EBPβ、VBP和AP-1(FOS|JUND)的B-ZIP|DNA复合物的小分子。我们鉴定出21种抑制至少一种B-ZIP蛋白与DNA结合的化合物,并根据它们是否从DNA上取代溴化乙锭将12种代表性化合物进行了分组。在6种未取代溴化乙锭的化合物中,有2种在二次电泳迁移率变动分析筛选中也以一定特异性抑制B-ZIP与DNA的结合。通过圆二色光谱监测的热稳定性表明,这两种化合物都与B-ZIP基序的碱性区域结合。NSC13778与C/EBPα的结合优先性比与C/EBPβ的结合高1000倍。结合C/EBPα和C/EBPβ的嵌合蛋白将NSC13778的结合定位到C/EBPα亮氨酸拉链紧邻N端的三个氨基酸上。这些实验表明,B-ZIP转录因子与DNA的结合是临床干预的一个潜在靶点。
