发现维生素 D 受体与共激活因子相互作用的首个不可逆小分子抑制剂。
Discovery of the first irreversible small molecule inhibitors of the interaction between the vitamin D receptor and coactivators.
机构信息
Department of Chemistry and Biochemistry, University of Wisconsin-Milwaukee , Milwaukee, Wisconsin 53211, United States.
出版信息
J Med Chem. 2012 May 24;55(10):4640-51. doi: 10.1021/jm300460c. Epub 2012 May 16.
Abstract
The vitamin D receptor (VDR) is a nuclear hormone receptor that regulates cell proliferation, cell differentiation, and calcium homeostasis. The receptor is activated by vitamin D analogues that induce the disruption of VDR-corepressor binding and promote VDR-coactivator interactions. The interactions between VDR and coregulators are essential for VDR-mediated transcription. Small molecule inhibition of VDR-coregulator binding represents an alternative method to the traditional ligand-based approach in order to modulate the expression of VDR target genes. A high throughput fluorescence polarization screen that quantifies the inhibition of binding between VDR and a fluorescently labeled steroid receptor coactivator 2 peptide was applied to discover the new small molecule VDR-coactivator inhibitors, 3-indolylmethanamines. Structure-activity relationship studies with 3-indolylmethanamine analogues were used to determine their mode of VDR-binding and to produce the first VDR-selective and irreversible VDR-coactivator inhibitors with the ability to regulate the transcription of the human VDR target gene TRPV6.
摘要
维生素 D 受体(VDR)是一种核激素受体,可调节细胞增殖、细胞分化和钙稳态。该受体被维生素 D 类似物激活,后者诱导 VDR-共抑制物结合的破坏,并促进 VDR-共激活物相互作用。VDR 与共调节剂之间的相互作用对于 VDR 介导的转录是必不可少的。小分子抑制 VDR-共调节剂结合代表了一种替代传统配体为基础的方法,以调节 VDR 靶基因的表达。一种高通量荧光偏振筛选,定量地测量 VDR 与荧光标记的甾体受体共激活剂 2 肽之间的结合抑制,用于发现新的小分子 VDR-共激活剂抑制剂,3-吲哚基甲胺。用 3-吲哚基甲胺类似物进行的构效关系研究用于确定它们的 VDR 结合模式,并产生第一个具有调节人 VDR 靶基因 TRPV6 转录能力的 VDR 选择性和不可逆的 VDR-共激活剂抑制剂。
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2
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3
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