Martha M. Pao scite author profile

Martha M. Pao

2Publications

88Citation Statements Received

41Citation Statements Given

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USC Norris Cancer Hospital

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The endothelin receptor B (EDNRB) promoter displays heterogeneous, site specific methylation patterns in normal and tumor cells

Pao¹

2001

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The 5' region for the endothelin receptor B (EDNRB) gene is a complex CpG island giving rise to four individual transcripts initiating within the island. Here, for the first time, we analyze the relationship between methylation and gene expression in a CpG island located in the 5' region of a gene with multiple transcription start sites. The CpG island was unmethylated in normal prostate and bladder tissue, whereas it became methylated in apparently normal colonic epithelium. Tumors derived from these tissues were frequently hypermethylated relative to the respective normal tissues. Analysis of 11 individual CpG sites located throughout the CpG island showed that specific sites with high methylation levels in several tumors were also methylated in normal tissues, suggesting that they might serve as foci for further de novo methylation. This region also had high levels of methylation in several cancer cell lines, and we found that a low methylation level in a small region within the 5' region correlated with expression of the 5'-most transcript. Interestingly, almost complete methylation 200-1000 bp downstream of the transcriptional start site did not block expression of this transcript. Finally, we show that treatment with 5-aza-2'-deoxycytidine can induce transcriptional activation of the four EDNRB transcripts. Our results show the existence of differential, tissue-dependent methylation at the EDNRB 5' region, suggest the existence of a spreading mechanism for de novo methylation, starting from methylation hotspots, and show that hypermethylation immediately 3' to a transcriptional start site does not prevent initiation.

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DNA methylator and mismatch repair phenotypes are not mutually exclusive in colorectal cancer cell lines

et al. 2000

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A potential link between DNA repair and de novo methylation of exogenous sequences in colorectal cancer cell lines suggested that cells de®cient in mismatch repair (MMR 7 ) had an increased ability to silence the introduced virus promoter by DNA methylation due to the presence of a methylator phenotype (MET + ) (Lengauer et al., 1997a). We explored this relationship in more detail and found that although there was a clear di erence in the abilities of MMR + cells to express the viral promoter compared to their MMR 7 counterparts, this di erence was not consistently explained by levels of methylation in the viral promoter. Furthermore, we were unable to distinguish di erences between the levels of methylation of six endogenous known CpG islands or 100 random DNA fragments containing CCGG sites within the cells. No consistent di erences between the abilities of the cells to methylate the CpG island in exon 2 of the p16 gene were observed after transient demethylation by 5-aza-2'-deoxycytidine nor in the levels of expression of three human methyltransferase enzymes. Our results do not therefore support the existence of mutually exclusive DNA methylation (MET) and DNA repair (MMR) phenotypes. Oncogene (2000) 19, 943 ± 952.

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Martha M. Pao

The endothelin receptor B (EDNRB) promoter displays heterogeneous, site specific methylation patterns in normal and tumor cells

DNA methylator and mismatch repair phenotypes are not mutually exclusive in colorectal cancer cell lines

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