Abstract 4914: Methylation profiling of CpG islands in multiple drug resistant cell line

Abstract

Abstract Multiple drug resistance (MDR) is a major issue to attenuate the effectiveness of chemotherapy to many human malignancies. Despite extensively investigation, MDR inhibitors have been discovered serve side effect. Recently, scientists have reported that proteasome inhibitor, Bertezomib (PS-341), induced apoptosis in a variety of cancer cells and recognized as a novel anticancer therapy approach. Previous study revealed that bertezomib inhibits DNA methyltransferase and led to DNA hypomethylation in myeloid leukemia. Despite its success, some patients are resistant to ongoing proteasome inhibitor treatment. These reports suggested that chemoresistant cell line may develop a novel mechanism to against proteasome inhibitor. To verify the hypothesis, we used human CpG island microarray to indentify epigenetic change and genes expression profile in parental human uterus sarcoma cell line (MES-SA) and MES-SA variant drug resistant cell line (Dx5-C5) Our data has shown that the global genes were hypomethylated in both PS-341 treated MES-SA and Dx5-C5 cell line. Furthermore, the Wnt signalling pathway and cell cycle related gene have significant altered in DNA methylation pattern of Dx5-C5. In summary, our study demonstrated that the cell cycle related gene(s) and upstream gene(s) of Wnt pathway altered its DNA methylation pattern and mRNA expression level in MDR cell line. These data may help us to develop a new strategy for treatment of multiple drug resistance cancer cells. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 4914.