Han Yuyan, Meng Fanyin, Venter Julie, Wu Nan, Wan Ying, Standeford Holly, Francis Heather, Meininger Cynthia, Greene John, Trzeciakowski Jerome P, Ehrlich Laurent, Glaser Shannon, Alpini Gianfranco
Research, Central Texas Veterans Health Care System, United States; Department of Medicine, Texas A&M Health Science Center, United States.
Research, Central Texas Veterans Health Care System, United States; Baylor Scott & White Digestive Disease Research Center, United States; Baylor Scott & White Academic Operations, Baylor Scott & White Healthcare, United States.
J Hepatol. 2016 Jun;64(6):1295-304. doi: 10.1016/j.jhep.2016.02.024. Epub 2016 Feb 24.
BACKGROUND & AIMS: Disruption of circadian rhythm is associated with cancer development and progression. MicroRNAs (miRNAs) are a class of small non-coding RNAs that trigger mRNA translation inhibition. We aimed to evaluate the role of Per1 and related miRNAs in cholangiocarcinoma growth.
The expression of clock genes was evaluated in human cholangiocarcinoma tissue arrays and cholangiocarcinoma lines. The rhythmic expression of clock genes was evaluated in cholangiocarcinoma cells and H69 (non-malignant cholangiocytes) by qPCR. We measured cell proliferation, cell cycle and apoptosis in Mz-ChA-1 cells after Per1 overexpression. We examined tumor growth in vivo after injection of Per1 overexpressing cells. We verified miRNAs that targets Per1. The circadian rhythm of miR-34a was evaluated in cholangiocarcinoma and H69 cells. We evaluated cell proliferation, apoptosis and invasion after inhibition of miR-34a in vitro, and the potential molecular mechanisms by mRNA profiling after overexpression of Per1.
Expression of Per1 was decreased in cholangiocarcinoma. The circadian rhythm of Per1 expression was lost in cholangiocarcinoma cells. Decreased cell proliferation, lower G2/M arrest, and enhanced apoptosis were shown in Per1 overexpressing cells. An in vivo study revealed decreased tumor growth, decreased proliferation, angiogenesis and metastasis after overexpressing Per1. Per1 was verified as a target of miR-34a. miR-34a was rhythmically expressed in cholangiocarcinoma cells and H69. The inhibition of miR-34a decreased proliferation, migration and invasion in cholangiocarcinoma cells. mRNA profiling has shown that overexpression of Per1 inhibits cell growth through regulation of multiple cancer-related pathways, such as cell cycle, cell growth and apoptosis pathways.
Disruption of circadian rhythms of clock genes contribute to the malignant phenotypes of human cholangiocarcinoma.
The current study is about how biological clock and its regulators affect the bile duct tumor growth. The disruption of biological clock has a negative impact in different cancers. Per1 is a gene that is involved in maintaining the biological clock and show 24h oscillation. Reduced levels of Per1 and disruption of 24h circadian rhythm was found in bile duct cancer cells. Therefore, a genetic modified bile duct cancer cells was created. It has a higher level of Per1 expression and partially recovered circadian rhythm. Those genetic modified cells also displayed slower cell growth or higher rate of cell death. We also used mice model that lack of immune system to show that our genetic modified bile duct cells form smaller tumor. In addition, we tried to see how Per1 is communicating with other genes in regarding of controlling the tumor growth. We found Per1 is regulated by microRNA-34a, a small non-coding RNA that directly binds to genes and inhibit gene expression. Decreased level of miR-34a has also significantly reduced tumor growth through controlling the cell growth and cell death balance. Therefore bile duct cancer patients may be treated with miR-34a inhibitor or Per1 stimulator in the future.
昼夜节律紊乱与癌症的发生和发展相关。微小RNA(miRNA)是一类可引发mRNA翻译抑制的小非编码RNA。我们旨在评估Per1及相关miRNA在胆管癌生长中的作用。
在人胆管癌组织芯片和胆管癌细胞系中评估生物钟基因的表达。通过qPCR评估胆管癌细胞和H69(非恶性胆管细胞)中生物钟基因的节律性表达。在Per1过表达后,我们检测了Mz-ChA-1细胞的细胞增殖、细胞周期和凋亡情况。在注射过表达Per1的细胞后,我们检测了体内肿瘤的生长情况。我们验证了靶向Per1的miRNA。评估了胆管癌和H69细胞中miR-34a的昼夜节律。在体外抑制miR-34a后,我们评估了细胞增殖、凋亡和侵袭情况,并在Per1过表达后通过mRNA谱分析评估了潜在的分子机制。
胆管癌中Per1的表达降低。胆管癌细胞中Per1表达的昼夜节律丧失。Per1过表达的细胞显示细胞增殖减少、G2/M期阻滞降低和凋亡增强。一项体内研究显示,过表达Per1后肿瘤生长减少、增殖、血管生成和转移降低。Per1被验证为miR-34a的靶标。miR-34a在胆管癌细胞和H69中呈节律性表达。抑制miR-34a可降低胆管癌细胞的增殖、迁移和侵袭。mRNA谱分析表明,Per1的过表达通过调节多个癌症相关途径(如细胞周期、细胞生长和凋亡途径)来抑制细胞生长。
生物钟基因昼夜节律的紊乱促成了人类胆管癌的恶性表型。
当前研究是关于生物钟及其调节因子如何影响胆管肿瘤生长。生物钟的紊乱在不同癌症中具有负面影响。Per1是一个参与维持生物钟并呈现24小时振荡的基因。在胆管癌细胞中发现Per1水平降低且24小时昼夜节律紊乱。因此,创建了一种基因修饰的胆管癌细胞。它具有更高水平的Per1表达且部分恢复了昼夜节律。那些基因修饰的细胞也显示出较慢的细胞生长或较高的细胞死亡率。我们还使用了缺乏免疫系统的小鼠模型来表明我们的基因修饰胆管细胞形成的肿瘤较小。此外,我们试图了解Per1在控制肿瘤生长方面如何与其他基因相互作用。我们发现Per1受微小RNA-34a调节,微小RNA-34a是一种直接与基因结合并抑制基因表达的小非编码RNA。miR-34a水平降低也通过控制细胞生长和细胞死亡平衡显著降低了肿瘤生长。因此,未来胆管癌患者可能用miR-34a抑制剂或Per1激动剂进行治疗。
