通过苯基-呋喃-苯并咪唑双阳离子的选择性结合直接抑制POU转录因子Pit-1和Brn-3的DNA结合活性。

Direct inhibition of the DNA-binding activity of POU transcription factors Pit-1 and Brn-3 by selective binding of a phenyl-furan-benzimidazole dication.

作者信息

Peixoto Paul, Liu Yang, Depauw Sabine, Hildebrand Marie-Paule, Boykin David W, Bailly Christian, Wilson W David, David-Cordonnier Marie-Hélène

机构信息

INSERM U-837, Team 4-Molecular and cellular targeting for cancer treatment, Jean-Pierre Aubert Research Center, Institut de Recherches sur le Cancer de Lille, Place de Verdun, F-59045 Lille, IMPRT-IFR114, Lille, France.

出版信息

Nucleic Acids Res. 2008 Jun;36(10):3341-53. doi: 10.1093/nar/gkn208. Epub 2008 Apr 25.

DOI:10.1093/nar/gkn208

PMID:18440973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2425483/

Abstract

The development of small molecules to control gene expression could be the spearhead of future-targeted therapeutic approaches in multiple pathologies. Among heterocyclic dications developed with this aim, a phenyl-furan-benzimidazole dication DB293 binds AT-rich sites as a monomer and 5'-ATGA sequence as a stacked dimer, both in the minor groove. Here, we used a protein/DNA array approach to evaluate the ability of DB293 to specifically inhibit transcription factors DNA-binding in a single-step, competitive mode. DB293 inhibits two POU-domain transcription factors Pit-1 and Brn-3 but not IRF-1, despite the presence of an ATGA and AT-rich sites within all three consensus sequences. EMSA, DNase I footprinting and surface-plasmon-resonance experiments determined the precise binding site, affinity and stoichiometry of DB293 interaction to the consensus targets. Binding of DB293 occurred as a cooperative dimer on the ATGA part of Brn-3 site but as two monomers on AT-rich sites of IRF-1 sequence. For Pit-1 site, ATGA or AT-rich mutated sequences identified the contribution of both sites for DB293 recognition. In conclusion, DB293 is a strong inhibitor of two POU-domain transcription factors through a cooperative binding to ATGA. These findings are the first to show that heterocyclic dications can inhibit major groove transcription factors and they open the door to the control of transcription factors activity by those compounds.

摘要

开发用于控制基因表达的小分子可能成为未来针对多种病症的靶向治疗方法的先锋。在为此目的开发的杂环双阳离子中，苯基-呋喃-苯并咪唑双阳离子DB293在小沟中作为单体结合富含AT的位点，并作为堆叠二聚体结合5'-ATGA序列。在这里，我们使用蛋白质/DNA阵列方法来评估DB293以单步竞争模式特异性抑制转录因子DNA结合的能力。尽管在所有三个共有序列中都存在ATGA和富含AT的位点，但DB293抑制两种POU结构域转录因子Pit-1和Brn-3，而不抑制IRF-1。电泳迁移率变动分析（EMSA）、DNase I足迹分析和表面等离子体共振实验确定了DB293与共有靶标的精确结合位点、亲和力和化学计量。DB293在Brn-3位点的ATGA部分以协同二聚体形式结合，但在IRF-1序列的富含AT的位点以两个单体形式结合。对于Pit-1位点，ATGA或富含AT的突变序列确定了这两个位点对DB293识别的贡献。总之，DB293通过与ATGA协同结合，是两种POU结构域转录因子的强抑制剂。这些发现首次表明杂环双阳离子可以抑制大沟转录因子，并且为这些化合物控制转录因子活性打开了大门。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/daf2/2425483/ddebd03e95e3/gkn208f1.jpg

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通过苯基-呋喃-苯并咪唑双阳离子的选择性结合直接抑制POU转录因子Pit-1和Brn-3的DNA结合活性。

Direct inhibition of the DNA-binding activity of POU transcription factors Pit-1 and Brn-3 by selective binding of a phenyl-furan-benzimidazole dication.

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