Investigation of Epigenetic Regulation Mechanism of ABCG2 Induced Drug-resistant Phenotype
To make a research on epigenetic mechanism of ABCG2 induced drug-resistance, it is not only expatiate for drug-resistance regulation mechanism in all-round, but also to provide scientific experimental basis for selecting target to reverse its drug-resistance. Apply methylation-specific PCR (MSP) to have tested methylation of ABCG2 promoter region -359~-353 specific positions in breast cancer tissues and paired adjacent tissue of 22 cases, and test their methylation positions with MSP products for sequencing; and adopt fluorescent quantitation RT-PCR to test expression level DNMT1, DNMT3A, DNMT3B and ABCG2; to make analysis on relationship between them with statistical spearman correlation. Specific positions of ABCG2 gene promoter region of 18 cases among the 22 cases with breast cancer (18/22, 82%) exist high methylation (P<0.05), MSP products sequencing proves methylation of the specific position, and mPNA expression level is relative higher in remarkable positive correlation (P <0.05). ABCG2, DNMT1, DN-MT3A, DNMT3B mRNA expression level in breast cancer tissues are obviously higher than adjacent tissues (P < 0. 01) , and DN-MT3B expression level is obviously higher than DNMT1 and DNMT3A (P <0.01) in negative correlation with ABCG2 gene expression (P=0.001). -359~-353 positions of promoter regions of ABCG2 gene exist high methylation capable to push expression of this gene in beast cancer tissue. DNMT3B involves in expression regulation in ABCG2 gene, and provide new scientific basis for drug-resistance target as reverse ABCG2 induction.
Jianhui YUAN Jianmeng ZHOU Nana JI Xinyun XU Jianjun LIU Yuebin KE Jinquan CHENG Zhixiong ZHUANG
Key Laboratory of Modern Toxicology of Shenzhen, Shenzhen Center for Disease Control and Prevention, Shenzhen,518055,China
国际会议
天津
英文
152-155
2011-09-20(万方平台首次上网日期,不代表论文的发表时间)