黄体酮调节滋养细胞MMP2转录独立于经典黄体酮应答元件启动子的机制。

Shlomit Goldman, Eliezer Shalev
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引用次数: 9

摘要

背景:孕酮受体通过与靶基因启动子中特定的孕酮反应元件结合,在靶细胞中作为配体诱导的转录因子。然而,尽管在基质金属蛋白酶-2启动子上缺乏经典的黄体酮应答元件,黄体酮已被证明可以降低该启动子的活性。假设陈述:最近有人提出,除了与经典的共激活因子和共抑制因子相互作用外,黄体酮受体还能够与几种转录因子结合。孕酮受体通过与其他类型的转录因子相互作用,能够通过转录因子同源DNA结合位点进行转录激活。验证假设:探索转录因子和转录结合位点,在基质金属蛋白酶启动子的调节中与黄体酮受体相互作用。该假设的意义:鉴定额外的内源性孕酮靶基因使进一步探索激素调节生物行为的信号机制成为可能。此外,配体驱动的构象多样性和选择性组织作用的概念可以在未来用于选择性调节核受体家族孤儿受体的药物开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A proposed mechanism for progesterone regulation of trophoblast MMP2 transcription independent of classical progesterone response elements on its promoter.

A proposed mechanism for progesterone regulation of trophoblast MMP2 transcription independent of classical progesterone response elements on its promoter.

Background: Progesterone receptor act as ligand-inducible transcription factor in the respective target cells by binding to specific progesterone response elements in the promoter of the target genes. However, despite the lack of the classical progesterone response elements on matrix-metalloproteinase-2 promoter, progesterone has been shown to decrease the activity of this promoter.

Presentation of the hypothesis: It has recently been suggested that in addition to interacting with their classical co-activators and co-repressors, progesterone receptor are capable of binding to several transcription factors. By interacting with other classes of transcription factors, progesterone receptor is capable of transcriptional activation through the transcription factors cognate DNA binding site.

Testing the hypothesis: Exploring transcription factors and transcription binding sites, interacting with the progesterone receptor in modulation of the matrix-metalloproteinase promoter.

Implications of the hypothesis: Identification of additional endogenous progesterone target genes makes it possible to further explore the signaling mechanisms by which the hormone regulates biological actions. Furthermore, the concepts of ligand-driven conformational diversity and selective tissue actions can be exploited in the future for drug development which selectively regulate orphan receptors from the nuclear receptor family.

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