Histone demethylase KDM6A directly senses oxygen to control chromatin and cell fate

Abhishek A. Chakraborty; Tuomas Laukka; Matti Myllykoski; Alison E. Ringel; Matthew A. Booker; Michael Tolstorukov; Yuzhong Jeff Meng; Samuel R. Meier; Rebecca B. Jennings; Amanda L. Creech; Zachary T. Herbert; Samuel K. McBrayer; Benjamin A. Olenchock; Jacob D. Jaffe; Marcia C. Haigis; Rameen Beroukhim; Sabina Signoretti; Peppi Koivunen; William G. Kaelin

doi:10.1126/science.aaw1026

Histone demethylase KDM6A directly senses oxygen to control chromatin and cell fate

Abhishek A. Chakraborty(Brigham and Women's Hospital), Tuomas Laukka(University of Oulu), Matti Myllykoski(University of Oulu), Alison E. Ringel(Harvard University), Matthew A. Booker(Dana-Farber Cancer Institute), Michael Tolstorukov(Dana-Farber Cancer Institute), Yuzhong Jeff Meng(Broad Institute), Samuel R. Meier(Broad Institute), Rebecca B. Jennings(Brigham and Women's Hospital), Amanda L. Creech(Broad Institute), Zachary T. Herbert(Dana-Farber Cancer Institute), Samuel K. McBrayer(Brigham and Women's Hospital), Benjamin A. Olenchock(Brigham and Women's Hospital), Jacob D. Jaffe(Broad Institute), Marcia C. Haigis(Harvard University), Rameen Beroukhim(Broad Institute), Sabina Signoretti(Brigham and Women's Hospital), Peppi Koivunen(University of Oulu), William G. Kaelin(Brigham and Women's Hospital)

Science

March 14, 2019

10.1126/science.aaw1026

Cited by 433Open Access

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Abstract

Oxygen sensing is central to metazoan biology and has implications for human disease. Mammalian cells express multiple oxygen-dependent enzymes called 2-oxoglutarate (OG)-dependent dioxygenases (2-OGDDs), but they vary in their oxygen affinities and hence their ability to sense oxygen. The 2-OGDD histone demethylases control histone methylation. Hypoxia increases histone methylation, but whether this reflects direct effects on histone demethylases or indirect effects caused by the hypoxic induction of the HIF (hypoxia-inducible factor) transcription factor or the 2-OG antagonist 2-hydroxyglutarate (2-HG) is unclear. Here, we report that hypoxia promotes histone methylation in a HIF- and 2-HG-independent manner. We found that the H3K27 histone demethylase KDM6A/UTX, but not its paralog KDM6B, is oxygen sensitive. KDM6A loss, like hypoxia, prevented H3K27 demethylation and blocked cellular differentiation. Restoring H3K27 methylation homeostasis in hypoxic cells reversed these effects. Thus, oxygen directly affects chromatin regulators to control cell fate.

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