Rathi Asha, Virmani Arvind K, Schorge John O, Elias Keren J, Maruyama Riichiroh, Minna John D, Mok Samuel C, Girard Luc, Fishman David A, Gazdar Adi F
Hamon Center for Therapeutic Oncology Research, University of Texas Southwestern Medical Center, Dallas, Texas 75930, USA.
Clin Cancer Res. 2002 Nov;8(11):3324-31.
The purpose of this research was to examine the DNA methylation profiles of primary sporadic ovarian cancers and ovarian tissues from high-risk women.
We analyzed the DNA methylation status of nine cancer-related genes in 49 primary ovarian tumors, 39 nonmalignant ovarian tissues obtained from 16 women with no known risk and from 23 high-risk women with a strong family history of breast and/or ovarian cancer or BRCA1 germ-line mutations, and 11 ovarian cancer cell lines, by methylation-specific PCR.
Our findings are as follows: (a) methylation rates of four of nine genes, RASSF1A (41%), HIC1 (35%), E-cadherin (29%), and APC (18%) were significantly higher in tumors compared with controls. At least one of the four genes was methylated in 76% of the tumors; (b) a low frequency of methylation was present in nonmalignant tissues; (c) no significant differences in methylation frequencies were seen between the nonmalignant ovarian tissues from women at high-risk and those with no known risk of developing ovarian cancer; (d) methylation of the BRCA1 gene was found in 10% of sporadic tumors but in none of the samples from women with a germ-line BRCA1 mutation; and (e) ovarian cancer cell lines showed a similar frequency of methylation to ovarian tumors except for the HIC1 gene.
Our results suggest that aberrant methylation of specific genes, including two not described previously, may be important in ovarian cancer pathogenesis but not in ovaries at risk for cancer development.
本研究旨在检测原发性散发性卵巢癌及高危女性卵巢组织的DNA甲基化谱。
我们通过甲基化特异性PCR分析了49例原发性卵巢肿瘤、39例非恶性卵巢组织(分别取自16名无已知风险的女性以及23名有乳腺癌和/或卵巢癌家族史或BRCA1种系突变的高危女性)和11株卵巢癌细胞系中9个癌症相关基因的DNA甲基化状态。
我们的研究结果如下:(a)与对照组相比,9个基因中的4个基因,即RASSF1A(41%)、HIC1(35%)、E-钙黏蛋白(29%)和APC(18%)在肿瘤中的甲基化率显著更高。76%的肿瘤中至少有这4个基因中的一个发生甲基化;(b)非恶性组织中甲基化频率较低;(c)高危女性的非恶性卵巢组织与无卵巢癌发生已知风险女性的非恶性卵巢组织之间,甲基化频率未见显著差异;(d)在10%的散发性肿瘤中发现BRCA1基因甲基化,但在有BRCA1种系突变女性的样本中均未发现;(e)除HIC1基因外,卵巢癌细胞系的甲基化频率与卵巢肿瘤相似。
我们的结果表明,特定基因的异常甲基化,包括两个先前未描述的基因,可能在卵巢癌发病机制中起重要作用,但在有癌症发生风险的卵巢中并非如此。
