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The dynamics and prognostic potential of DNA methylation changes at stem cell gene loci in women's cancer
Zhuang J, Jones A, Lee SH, Ng E, Fiegl H, Zikan M, Cibula D, Sargent A, Salvesen HB, Jacobs IJ, Kitchener HC, Teschendorff AE, Widschwendter M
Language English Country United States
Document type Research Support, Non-U.S. Gov't
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- MeSH
- CpG Islands genetics MeSH
- DNA-Binding Proteins genetics MeSH
- Adult MeSH
- Embryonic Stem Cells * cytology metabolism MeSH
- Epigenesis, Genetic MeSH
- Hematopoietic Stem Cells cytology metabolism MeSH
- Middle Aged MeSH
- Humans MeSH
- DNA Methylation * genetics MeSH
- Cell Transformation, Neoplastic * genetics MeSH
- Neoplastic Stem Cells * cytology metabolism MeSH
- Neoplasms * genetics metabolism MeSH
- Polycomb-Group Proteins MeSH
- Prognosis * MeSH
- Promoter Regions, Genetic MeSH
- Proto-Oncogene Proteins genetics MeSH
- Gene Expression Regulation, Neoplastic MeSH
- Repressor Proteins * genetics metabolism MeSH
- Aged, 80 and over MeSH
- Aged MeSH
- Check Tag
- Adult MeSH
- Middle Aged MeSH
- Humans MeSH
- Aged, 80 and over MeSH
- Aged MeSH
- Female MeSH
- Publication type
- Research Support, Non-U.S. Gov't MeSH
Aberrant DNA methylation is an important cancer hallmark, yet the dynamics of DNA methylation changes in human carcinogenesis remain largely unexplored. Moreover, the role of DNA methylation for prediction of clinical outcome is still uncertain and confined to specific cancers. Here we perform the most comprehensive study of DNA methylation changes throughout human carcinogenesis, analysing 27,578 CpGs in each of 1,475 samples, ranging from normal cells in advance of non-invasive neoplastic transformation to non-invasive and invasive cancers and metastatic tissue. We demonstrate that hypermethylation at stem cell PolyComb Group Target genes (PCGTs) occurs in cytologically normal cells three years in advance of the first morphological neoplastic changes, while hypomethylation occurs preferentially at CpGs which are heavily Methylated in Embryonic Stem Cells (MESCs) and increases significantly with cancer invasion in both the epithelial and stromal tumour compartments. In contrast to PCGT hypermethylation, MESC hypomethylation progresses significantly from primary to metastatic cancer and defines a poor prognostic signature in four different gynaecological cancers. Finally, we associate expression of TET enzymes, which are involved in active DNA demethylation, to MESC hypomethylation in cancer. These findings have major implications for cancer and embryonic stem cell biology and establish the importance of systemic DNA hypomethylation for predicting prognosis in a wide range of different cancers.
Department of Clinical Medicine University of Bergen Bergen Norway
Department of Gynaecology and Obstetrics Innsbruck Medical University Innsbruck Austria
Department of Obstetrics and Gynaecology Haukeland University Hospital Bergen Norway
Statistical Genomics Group University College London Cancer Institute London United Kingdom
References provided by Crossref.org
Erratum v: PLoS Genet. 2012 Mar;8(3). doi: 10.1371/annotation/35f168f3-c509-4b4f-b245-f6682325838e.
Bibliography, etc.Literatura
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- $a Aberrant DNA methylation is an important cancer hallmark, yet the dynamics of DNA methylation changes in human carcinogenesis remain largely unexplored. Moreover, the role of DNA methylation for prediction of clinical outcome is still uncertain and confined to specific cancers. Here we perform the most comprehensive study of DNA methylation changes throughout human carcinogenesis, analysing 27,578 CpGs in each of 1,475 samples, ranging from normal cells in advance of non-invasive neoplastic transformation to non-invasive and invasive cancers and metastatic tissue. We demonstrate that hypermethylation at stem cell PolyComb Group Target genes (PCGTs) occurs in cytologically normal cells three years in advance of the first morphological neoplastic changes, while hypomethylation occurs preferentially at CpGs which are heavily Methylated in Embryonic Stem Cells (MESCs) and increases significantly with cancer invasion in both the epithelial and stromal tumour compartments. In contrast to PCGT hypermethylation, MESC hypomethylation progresses significantly from primary to metastatic cancer and defines a poor prognostic signature in four different gynaecological cancers. Finally, we associate expression of TET enzymes, which are involved in active DNA demethylation, to MESC hypomethylation in cancer. These findings have major implications for cancer and embryonic stem cell biology and establish the importance of systemic DNA hypomethylation for predicting prognosis in a wide range of different cancers.
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