在果蝇前列腺样次级细胞中,Rbf/E2F1通过类固醇无关的蜕皮激素受体信号控制生长和内复制。

IF 4.5 2区 生物学 Q1 Agricultural and Biological Sciences
PLoS Genetics Pub Date : 2023-06-26 eCollection Date: 2023-06-01 DOI:10.1371/journal.pgen.1010815
Aashika Sekar, Aaron Leiblich, S Mark Wainwright, Cláudia C Mendes, Dhruv Sarma, Josephine E E U Hellberg, Carina Gandy, Deborah C I Goberdhan, Freddie C Hamdy, Clive Wilson
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引用次数: 0

摘要

在前列腺癌中,肿瘤抑制基因视网膜母细胞瘤(Rb)的缺失以及随之而来的转录因子 E2F1 的激活通常发生在肿瘤进展的晚期。它似乎调控着向雄激素依赖性癌症--阉割抗性前列腺癌(CRPC)--的转变,而这种癌症通常仍需要雄激素受体(AR)信号传导。我们之前已经证明,在交配时,与前列腺上皮细胞有某些相似之处的黑腹果蝇雄性附属腺(AG)的双核次细胞(SC)会将其生长调控从依赖类固醇的蜕皮激素受体(EcR)调控形式转换为不依赖类固醇的蜕皮激素受体(EcR)调控形式。这种生理变化会诱导基因组的内复制,并使SCs迅速补充其分泌区,即使在蜕皮激素水平较低的情况下也是如此,因为雄性之前没有接触过雌性。在这里,我们测试了果蝇的 Rb 同源物 Rbf 和 E2F1 是否调控这种转换。令人惊讶的是,我们发现过量的 Rbf 活性会可逆地抑制成体 SC 中的双核形成。我们还证明,Rbf、E2F1 和细胞周期调节因子 Cyclin D(CycD)和 Cyclin E(CycE)是交配依赖性 SC 内再复制的关键调节因子,也是处女雄性和交配雄性 SC 生长的关键调节因子。重要的是,我们发现CycD/Rbf/E2F1轴需要EcR而不是蜕皮激素来触发依赖CycE的内再复制以及SC中与内再复制相关的生长,这反映了CRPC中的变化。此外,骨形态发生蛋白(BMP)信号与CycD/Rbf/E2F1信号相互交织,由BMP配体十日瘫(Dpp)介导,驱动这些蝇细胞的内再复制。总之,我们的研究揭示了一种信号开关,它允许 SCs 在交配后快速生长并增加分泌,而与之前暴露于雌性无关。观察到的变化与 CRPC 中出现的依赖激素的 AR 信号的病理转换有着相似的机理,这表明后者可能反映了一种目前尚未确定的生理过程失调。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rbf/E2F1 control growth and endoreplication via steroid-independent Ecdysone Receptor signalling in Drosophila prostate-like secondary cells.

Rbf/E2F1 control growth and endoreplication via steroid-independent Ecdysone Receptor signalling in Drosophila prostate-like secondary cells.

Rbf/E2F1 control growth and endoreplication via steroid-independent Ecdysone Receptor signalling in Drosophila prostate-like secondary cells.

Rbf/E2F1 control growth and endoreplication via steroid-independent Ecdysone Receptor signalling in Drosophila prostate-like secondary cells.

In prostate cancer, loss of the tumour suppressor gene, Retinoblastoma (Rb), and consequent activation of transcription factor E2F1 typically occurs at a late-stage of tumour progression. It appears to regulate a switch to an androgen-independent form of cancer, castration-resistant prostate cancer (CRPC), which frequently still requires androgen receptor (AR) signalling. We have previously shown that upon mating, binucleate secondary cells (SCs) of the Drosophila melanogaster male accessory gland (AG), which share some similarities with prostate epithelial cells, switch their growth regulation from a steroid-dependent to a steroid-independent form of Ecdysone Receptor (EcR) control. This physiological change induces genome endoreplication and allows SCs to rapidly replenish their secretory compartments, even when ecdysone levels are low because the male has not previously been exposed to females. Here, we test whether the Drosophila Rb homologue, Rbf, and E2F1 regulate this switch. Surprisingly, we find that excess Rbf activity reversibly suppresses binucleation in adult SCs. We also demonstrate that Rbf, E2F1 and the cell cycle regulators, Cyclin D (CycD) and Cyclin E (CycE), are key regulators of mating-dependent SC endoreplication, as well as SC growth in both virgin and mated males. Importantly, we show that the CycD/Rbf/E2F1 axis requires the EcR, but not ecdysone, to trigger CycE-dependent endoreplication and endoreplication-associated growth in SCs, mirroring changes seen in CRPC. Furthermore, Bone Morphogenetic Protein (BMP) signalling, mediated by the BMP ligand Decapentaplegic (Dpp), intersects with CycD/Rbf/E2F1 signalling to drive endoreplication in these fly cells. Overall, our work reveals a signalling switch, which permits rapid growth of SCs and increased secretion after mating, independently of previous exposure to females. The changes observed share mechanistic parallels with the pathological switch to hormone-independent AR signalling seen in CRPC, suggesting that the latter may reflect the dysregulation of a currently unidentified physiological process.

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来源期刊
PLoS Genetics
PLoS Genetics 生物-遗传学
CiteScore
8.10
自引率
2.20%
发文量
438
审稿时长
1 months
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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