[PDF][PDF] Interplay between HDAC3 and WDR5 is essential for hypoxia-induced epithelial-mesenchymal transition

MZ Wu, YP Tsai, MH Yang, CH Huang, SY Chang… - Molecular cell, 2011 - cell.com
MZ Wu, YP Tsai, MH Yang, CH Huang, SY Chang, CC Chang, SC Teng, KJ Wu
Molecular cell, 2011cell.com
Epithelial-mesenchymal transition (EMT) is important for organ development, metastasis,
cancer stemness, and organ fibrosis. Molecular mechanisms to coordinately regulate
hypoxia-induced EMT remain elusive. Here, we show that HIF-1α-induced histone
deacetylase 3 (hdac3) is essential for hypoxia-induced EMT and metastatic phenotypes.
Change of specific chromatin states is associated with hypoxia-induced EMT. Under
hypoxia, HDAC3 interacts with hypoxia-induced WDR5, recruits the histone …
Summary
Epithelial-mesenchymal transition (EMT) is important for organ development, metastasis, cancer stemness, and organ fibrosis. Molecular mechanisms to coordinately regulate hypoxia-induced EMT remain elusive. Here, we show that HIF-1α-induced histone deacetylase 3 (hdac3) is essential for hypoxia-induced EMT and metastatic phenotypes. Change of specific chromatin states is associated with hypoxia-induced EMT. Under hypoxia, HDAC3 interacts with hypoxia-induced WDR5, recruits the histone methyltransferase (HMT) complex to increase histone H3 lysine 4 (H3K4)-specific HMT activity, and activates mesenchymal gene expression. HDAC3 also serves as an essential corepressor to repress epithelial gene expression. Knockdown of WDR5 abolishes mesenchymal gene activation but not epithelial gene repression during hypoxia. These results indicate that hypoxia induces different chromatin modifiers to coordinately regulate EMT through distinct mechanisms.
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