| Literature DB >> 25477280 |
Woo Kyun Bae1, Keunsoo Kang2, Ji Hoon Yu2, Kyung Hyun Yoo2, Valentina M Factor2, Kosuke Kaji2, Matthias Matter2, Snorri Thorgeirsson2, Lothar Hennighausen1.
Abstract
To investigate the role of enhancer of zeste homolog (EZH) 1 and EZH2 in liver homeostasis, mice were generated that carried Ezh1(-/-) and EZH2(fl/fl) alleles and an Alb-Cre transgene. Only the combined loss of EZH1 and EZH2 in mouse hepatocytes caused a depletion of global trimethylation on Lys 27 of histone H3 (H3K27me3) marks and the specific loss of over ∼1900 genes at 3 mo of age. Ezh1(-/-),Ezh2(fl/fl)Alb-Cre mice exhibited progressive liver abnormalities manifested by the development of regenerative nodules and concomitant periportal fibrosis, inflammatory infiltration, and activation of A6-positive hepatic progenitor cells at 8 mo of age. In response to chronic treatment with carbon tetrachloride, all experimental mice, but none of the controls (n = 27 each), showed increased hepatic degeneration associated with liver dysfunction and reduced ability to proliferate. After two-thirds partial hepatectomy, mutant mice (n = 5) displayed increased liver injury and a blunted regenerative response. Genome-wide analyses at 3 mo of age identified 51 genes that had lost H3K27me3 marks, and their expression was significantly increased. These genes were involved in regulation of cell survival, fibrosis, and proliferation. H3K27me3 levels and liver physiology were unaffected in mice lacking either EZH1 globally or EZH2 specifically in hepatocytes. This work demonstrates a critical redundancy of EZH1 and EZH2 in maintaining hepatic homeostasis and regeneration. © FASEB.Entities:
Keywords: H3-K27 trimethylation; fibrosis; liver regeneration
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Year: 2014 PMID: 25477280 PMCID: PMC4415007 DOI: 10.1096/fj.14-261537
Source DB: PubMed Journal: FASEB J ISSN: 0892-6638 Impact factor: 5.191