Aberrant epigenetic landscape in cancer: how cellular identity goes awry
M Berdasco, M Esteller - Developmental cell, 2010 - cell.com
M Berdasco, M Esteller
Developmental cell, 2010•cell.comAppropriate patterns of DNA methylation and histone modifications are required to assure
cell identity, and their deregulation can contribute to human diseases, such as cancer. Our
aim here is to provide an overview of how epigenetic factors, including genomic DNA
methylation, histone modifications, and microRNA regulation, contribute to normal
development, paying special attention to their role in regulating tissue-specific genes. In
addition, we summarize how these epigenetic patterns go awry during human cancer …
cell identity, and their deregulation can contribute to human diseases, such as cancer. Our
aim here is to provide an overview of how epigenetic factors, including genomic DNA
methylation, histone modifications, and microRNA regulation, contribute to normal
development, paying special attention to their role in regulating tissue-specific genes. In
addition, we summarize how these epigenetic patterns go awry during human cancer …
Appropriate patterns of DNA methylation and histone modifications are required to assure cell identity, and their deregulation can contribute to human diseases, such as cancer. Our aim here is to provide an overview of how epigenetic factors, including genomic DNA methylation, histone modifications, and microRNA regulation, contribute to normal development, paying special attention to their role in regulating tissue-specific genes. In addition, we summarize how these epigenetic patterns go awry during human cancer development. The possibility of "resetting" the abnormal cancer epigenome by applying pharmacological or genetic strategies is also discussed.
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