[PDF][PDF] Characterization of the EZH2-MMSET histone methyltransferase regulatory axis in cancer
Molecular cell, 2013•cell.com
Histone methyltransferases (HMTases), as chromatin modifiers, regulate the transcriptomic
landscape in normal development as well in diseases such as cancer. Here, we molecularly
order two HMTases, EZH2 and MMSET, that have established genetic links to oncogenesis.
EZH2, which mediates histone H3K27 trimethylation and is associated with gene silencing,
was shown to be coordinately expressed and function upstream of MMSET, which mediates
H3K36 dimethylation and is associated with active transcription. We found that the EZH2 …
landscape in normal development as well in diseases such as cancer. Here, we molecularly
order two HMTases, EZH2 and MMSET, that have established genetic links to oncogenesis.
EZH2, which mediates histone H3K27 trimethylation and is associated with gene silencing,
was shown to be coordinately expressed and function upstream of MMSET, which mediates
H3K36 dimethylation and is associated with active transcription. We found that the EZH2 …
Summary
Histone methyltransferases (HMTases), as chromatin modifiers, regulate the transcriptomic landscape in normal development as well in diseases such as cancer. Here, we molecularly order two HMTases, EZH2 and MMSET, that have established genetic links to oncogenesis. EZH2, which mediates histone H3K27 trimethylation and is associated with gene silencing, was shown to be coordinately expressed and function upstream of MMSET, which mediates H3K36 dimethylation and is associated with active transcription. We found that the EZH2-MMSET HMTase axis is coordinated by a microRNA network and that the oncogenic functions of EZH2 require MMSET activity. Together, these results suggest that the EZH2-MMSET HMTase axis coordinately functions as a master regulator of transcriptional repression, activation, and oncogenesis and may represent an attractive therapeutic target in cancer.
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