雄激素受体 (AR) 通过 AR/β-连环蛋白/TCF-4 复合物抑制 c-MYC 转录来抑制正常前列腺上皮细胞增殖。
Androgen receptor (AR) suppresses normal human prostate epithelial cell proliferation via AR/β-catenin/TCF-4 complex inhibition of c-MYC transcription.
机构信息
Chemical Therapeutics Program and Prostate Cancer Program, The Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins, Baltimore, Maryland; Department of Urology, The Brady Urological Institute, The Johns Hopkins School of Medicine, Baltimore, Maryland.
出版信息
Prostate. 2014 Aug;74(11):1118-31. doi: 10.1002/pros.22828. Epub 2014 Jun 9.
INTRODUCTION
Physiologic testosterone continuously stimulates prostate stromal cell secretion of paracrine growth factors (PGFs), which if unopposed would induce hyperplastic overgrowth of normal prostate epithelial cells (PrECs).
METHODS
Lentiviral shRNA stable knock down of c-MYC, β-catenin, or TCF-4 completely inhibits normal (i.e., non-transformed) human PrECs growth. c-MYC enhancer driven reporter expression and growth is inhibited by two chemically distinct molecules, which prevent β-catenin signaling either by blocking TCF-4 binding (i.e., toxoflavin) or by stimulating degradation (i.e., AVX939). Recombinant DKK1 protein at a dose, which inhibits activation of canonical Wnt signaling does not inhibit PrEC growth. Nuclear β-catenin translocation and PrEC growth is prevented by both lack of PGFs or Akt inhibitor-I. Growth inhibition induced by lack of PGFs, toxoflavin, or Akt inhibitor-I is overcome by constitutive c-MYC transcription.
RESULTS
In the presence of continuous PGF signaling, PrEC hyperplasia is prevented by androgen binding to AR suppressing c-MYC transcription, resulting in G0 arrest/terminal differentiation independent of Rb, p21, p27, FoxP3, or down regulation of growth factors receptors and instead involves androgen-induced formation of AR/β-catenin/TCF-4 complexes, which suppress c-MYC transcription. Such suppression does not occur when AR is mutated in its zinc-finger binding domain.
DISCUSSION
Proliferation of non-transformed human PrECs is dependent upon c-MYC transcription via formation/binding of β-catenin/TCF-4 complexes at both 5' and 3' c-MYC enhancers stimulated by Wnt-independent, PGF induced Akt signaling. In the presence of continuous PGF signaling, PrEC hyperplasia is prevented by androgen-induced formation of AR/β-catenin/TCF-4 complexes, which retains binding to 3' c-MYC enhancer, but now suppresses c-MYC transcription.
简介
生理睾酮持续刺激前列腺基质细胞分泌旁分泌生长因子(PGFs),如果不受抑制,会导致正常前列腺上皮细胞(PrECs)的增生性过度生长。
方法
慢病毒 shRNA 稳定敲低 c-MYC、β-catenin 或 TCF-4 完全抑制正常(即非转化)人 PrECs 的生长。c-MYC 增强子驱动的报告基因表达和生长受到两种化学上不同的分子的抑制,这些分子通过阻止 TCF-4 结合(即 toxoflavin)或通过刺激降解(即 AVX939)来抑制 β-catenin 信号传导。剂量抑制 canonical Wnt 信号传导的重组 DKK1 蛋白不抑制 PrEC 生长。缺乏 PGFs 或 Akt 抑制剂-I 可防止核 β-catenin 易位和 PrEC 生长。缺乏 PGFs、toxoflavin 或 Akt 抑制剂-I 诱导的生长抑制可通过组成型 c-MYC 转录来克服。
结果
在持续的 PGF 信号存在下,雄激素与 AR 结合抑制 c-MYC 转录,从而抑制 PrEC 增生,导致 G0 期停滞/终末分化,与 Rb、p21、p27、FoxP3 无关,也不涉及生长因子受体的下调,而是涉及雄激素诱导的 AR/β-catenin/TCF-4 复合物的形成,从而抑制 c-MYC 转录。当 AR 的锌指结合域发生突变时,不会发生这种抑制。
讨论
非转化人 PrECs 的增殖依赖于 c-MYC 转录,这是通过 Wnt 独立的、PGF 诱导的 Akt 信号转导刺激下形成/结合β-catenin/TCF-4 复合物在 5'和 3'c-MYC 增强子上进行的。在持续的 PGF 信号存在下,雄激素诱导的 AR/β-catenin/TCF-4 复合物的形成防止了 PrEC 的增生,该复合物保留与 3'c-MYC 增强子的结合,但现在抑制了 c-MYC 转录。
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