The H3K9 methyltransferase G9a is a marker of aggressive ovarian cancer that promotes peritoneal metastasis
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- 作者:Kuo-Tai Hua ; Ming-Yang Wang ; Min-Wei Chen ; Lin-Hung Wei ; Chi-Kuan Chen…
- 关键词:Histone methyltransferase ; G9a ; Ovarian cancer ; Peritoneal metastasis
- 刊名:Molecular Cancer
- 出版年:2014
- 出版时间:December 2014
- 年:2014
- 卷:13
- 期:1
- 全文大小:2,932 KB
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- 出版者:BioMed Central
- ISSN:1476-4598
文摘
Background Ovarian cancer (OCa) peritoneal metastasis is the leading cause of cancer–related deaths in women with limited therapeutic options available for treating it and poor prognosis, as the underlying mechanism is not fully understood. Method The clinicopathological correlation of G9a expression was assessed in tumor specimens of ovarian cancer patients. Knockdown or overexpression of G9a in ovarian cancer cell lines was analysed with regard to its effect on adhesion, migration, invasion and anoikis-resistance. In vivo biological functions of G9a were tested by i.p. xenograft ovarian cancer models. Microarray and quantitative RT-PCR were used to analyze G9a-regulated downstream target genes. Results We found that the expression of histone methyltransferase G9a was highly correlated with late stage, high grade, and serous-type OCa. Higher G9a expression predicted a shorter survival in ovarian cancer patients. Furthermore, G9a expression was higher in metastatic lesions compared with their corresponding ovarian primary tumors. Knockdown of G9a expression suppressed prometastatic cellular activities including adhesion, migration, invasion and anoikis-resistance of ovarian cancer cell lines, while G9a over-expression promoted these cellular properties. G9a depletion significantly attenuated the development of ascites and tumor nodules in a peritoneal dissemination model. Importantly, microarray and quantitative RT-PCR analysis revealed that G9a regulates a cohort of tumor suppressor genes including CDH1, DUSP5, SPRY4, and PPP1R15A in ovarian cancer. Expression of these genes was also inversely correlated with G9a expression in OCa specimens. Conclusion We propose that G9a contributes to multiple steps of ovarian cancer metastasis and represents a novel target to combat this deadly disease.