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Abstract
Multiple myeloma (MM) has prominent features of karyotypic instability at the earliest stage, leading to extreme genetic abnormalities as the disease progresses. These successive genetic alterations can be attributed, in part, to defects in DNA repair pathways. A possible mechanism of dysregulation of the DNA repair pathway is epigenetic gene silencing. Therefore, we sought to determine the methylation status of enzymes involved in the base excision repair pathway in multiple myeloma cell lines. Here, we report the aberrant DNA methylation of TDG, one of the enzymes involved in base excision repair of damaged DNA, in several multiple myeloma cell lines but not in normal human plasma cells. DNA hypermethylation of TDG in the MM cell lines leads to lower gene expression levels that results in less efficient DNA repair activity in response to hydrogen peroxide-induced DNA damage. Expression of exogenous TDG can functionally compensate for lower repair activities of damaged DNA in the KAS-6/1 myeloma cell line, which has extensive DNA hypermethylation of the TDG promoter. Hypermethylation of DNA damage repair genes in MM cell lines may provide an explanation for the frequent genomic instability, as well as point mutations, that are encountered in MM.