染色质重塑剂 DEK 能促进乳腺上皮细胞的增殖,并与 H3K27me3 表观遗传修饰有关

Megan Johnstone, Ashley Leck, Taylor E Lange, Katherine E Wilcher, Miranda S Shephard, Aditi Paranjpe, Sophia Schutte, Susanne I Wells, Ferdinand Kappes, Nathan Salomonis, Lisa M Privette Vinnedge
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摘要

以前曾利用体外模型和基因敲除小鼠模型证明,DEK 染色质重塑蛋白可赋予人类和小鼠乳腺上皮细胞致癌表型。然而,它在正常乳腺上皮细胞中的功能作用仍有待探索。我们开发了两种新型小鼠模型来研究 Dek 在体内正常乳腺生物学中的作用。小鼠乳腺特异性 Dek 过度表达会导致细胞过度增殖,在视觉上与肺泡细胞相似,转录谱显示细胞周期、乳腺干/祖细胞和泌乳相关基因的表达增加。相反,Dek基因敲除小鼠表现出腺泡生成或泌乳缺陷,导致幼鼠存活率急剧下降。对先前发表的小鼠乳腺单细胞RNA序列分析表明,Dek在乳腺干细胞和腺泡祖细胞中的表达量最高,在基底上皮细胞中的表达量较低,这支持了观察到的表型。从机理上讲,我们发现Dek是Ezh2甲基转移酶活性的调节剂,能上调组蛋白H3赖氨酸27上的三甲基化(H3K27me3)水平,从而控制基因转录。综上所述,这项研究表明,Dek 通过细胞周期失调促进了乳腺上皮细胞的增殖。此外,我们还报告了 Dek 在腺泡生成和组蛋白 H3 K27 三甲基化中的新功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The chromatin remodeler DEK promotes proliferation of mammary epithelium and is associated with H3K27me3 epigenetic modifications
The DEK chromatin remodeling protein was previously shown to confer oncogenic phenotypes to human and mouse mammary epithelial cells using in vitro and knockout mouse models. However, its functional role in normal mammary gland epithelium remained unexplored. We developed two novel mouse models to study the role of Dek in normal mammary gland biology in vivo. Mammary gland-specific Dek over-expression in mice resulted in hyperproliferation of cells that visually resembled alveolar cells, and a transcriptional profile that indicated increased expression of cell cycle, mammary stem/progenitor, and lactation-associated genes. Conversely, Dek knockout mice exhibited an alveologenesis or lactation defect, resulting in dramatically reduced pup survival. Analysis of previously published single-cell RNA-sequencing of mouse mammary glands revealed that Dek is most highly expressed in mammary stem cells and alveolar progenitor cells, and to a lesser extent in basal epithelial cells, supporting the observed phenotypes. Mechanistically, we discovered that Dek is a modifier of Ezh2 methyltransferase activity, upregulating the levels of histone H3 trimethylation on lysine 27 (H3K27me3) to control gene transcription. Combined, this work indicates that Dek promotes proliferation of mammary epithelial cells via cell cycle deregulation. Furthermore, we report a novel function for Dek in alveologenesis and histone H3 K27 trimethylation.
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