Department of Obstetrics and Gynecology, The Second Affiliated Hospital and Yuying Children's Hospitable of Wenzhou Medical University, Wenzhou 325027, China.
Department of Gynecology, Taizhou People's Hospital, Taizhou 225300, Jiangsu, China.
Clin Chim Acta. 2019 Feb;489:225-232. doi: 10.1016/j.cca.2018.08.013. Epub 2018 Aug 11.
This study aimed to determine the in vitro and in vivo properties of sixteen frequently used endometrial cancer (EC) cell lines, including the cell proliferation rate, morphology, hormone receptor expression patterns, PTEN, hMLH1 expression, p53 mutation, karyotype, and tumorigenicity in mouse xenograt model.
Twelve type I (AN3, ECC-1, EN, EN-1, EN-11, HEC-1A, HEC1B, Ishikawa, KLE, MFE-280, MFE-296, MFE-319) and four type II (ARK1, ARK2, HEC-155/180, SPEC-2) endometrial cancer cell lines were studied. Cell proliferation and morphology were determined using cell growth curves and light microscopy, respectively. Real-time PCR was performed to measure the mRNA levels of target genes. Denaturing High Performance Chromatography (DHPLC) screening and PCR/sequencing were performed to identify p53 mutations. G-banding was applied for karyotyping. Tumorigenicity was evaluated using mouse xenograft.
The population doubling time of the cell lines ranged between 19 and 41 h. Ishikawa, ECC-1, and MFE-280 have high while AN3 and EN1 have low expression of ER-α and ER-β. Expression of total PR and PR-B uniformly decreased in all type II cell lines and several type I cell lines (AN3, HEC-1A, HEC1B, KLE, EN-1). Regression analyses revealed significant correlations between PR-B and total PR (p < .001), between isoforms ER-α and ER-β (p < .001), and between total PR and ER (p < .001), mRNA levels in type I cell lines. p53 mutations were detected in exons 5-8 of seven out of twelve type I and one out of four type II cell lines. PTEN expression was more uniformly suppressed in type II than type I cells, while hMLH1 did not show this pattern. All the five cell lines tested contained severe karyotype abnormalities. Mouse xenograft results indicated that HEC-1A, HEC-1B and EN-1 type I as well as ARK1 and ARK2 type II cell lines had potent tumorigenic activities. Low PR-B and ER-α expression in type I cell lines were associated with high tumorigenic activity.
This study provides resource information on EC cell lines commonly used in laboratories, which could be used for choosing cell lines suitable for specific research purposes. The results of karyotype analysis and p53 mutation together with hormone receptor expression pattern and morphology comparison strongly suggested an independent nature of these cell lines, excluding the possibility of cross-contamination between cell lines. Additionally, this information suggests potential directions for future studies on the pathogenic mechanisms of endometrial cancer.
本研究旨在确定十六种常用子宫内膜癌(EC)细胞系的体外和体内特性,包括细胞增殖率、形态、激素受体表达模式、PTEN、hMLH1 表达、p53 突变、核型和在小鼠异种移植模型中的致瘤性。
研究了 12 种 I 型(AN3、ECC-1、EN、EN-1、EN-11、HEC-1A、HEC1B、Ishikawa、KLE、MFE-280、MFE-296、MFE-319)和 4 种 II 型(ARK1、ARK2、HEC-155/180、SPEC-2)子宫内膜癌细胞系。通过细胞生长曲线和相差显微镜分别测定细胞增殖和形态。实时 PCR 用于测量靶基因的 mRNA 水平。进行变性高效液相色谱(DHPLC)筛选和 PCR/测序以鉴定 p53 突变。G 带用于核型分析。通过小鼠异种移植评估致瘤性。
细胞系的倍增时间范围为 19-41 小时。Ishikawa、ECC-1 和 MFE-280 具有高表达 ER-α 和 ER-β,而 AN3 和 EN1 则具有低表达。所有 II 型细胞系和几种 I 型细胞系(AN3、HEC-1A、HEC1B、KLE、EN-1)中总 PR 和 PR-B 的表达均匀下降。回归分析显示,I 型细胞系中 PR-B 与总 PR(p<0.001)、ER-α和 ER-β 同工型(p<0.001)以及总 PR 与 ER(p<0.001)之间存在显著相关性。在 12 种 I 型和 4 种 II 型细胞系中的 7 种和 1 种中检测到 p53 突变。PTEN 表达在 II 型细胞中比 I 型细胞更均匀地受到抑制,而 hMLH1 则没有表现出这种模式。所有 5 种测试的细胞系均存在严重的核型异常。小鼠异种移植结果表明,I 型的 HEC-1A、HEC-1B 和 EN-1 以及 II 型的 ARK1 和 ARK2 细胞系具有很强的致瘤活性。I 型细胞系中 PR-B 和 ER-α 的低表达与高致瘤活性相关。
本研究提供了实验室常用的子宫内膜癌细胞系的资源信息,可用于选择适合特定研究目的的细胞系。核型分析和 p53 突变结果以及激素受体表达模式和形态比较强烈提示这些细胞系具有独立的性质,排除了细胞系之间交叉污染的可能性。此外,这些信息为子宫内膜癌发病机制的未来研究提供了潜在方向。
