Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2

[Image: see text] The histone methyltransferase PRC2 plays a central role in genomic stability and cellular development. Consequently, its misregulation has been implicated in several cancers. Recent work has shown that a histone H3 mutant, where the PRC2 substrate residue Lys27 is replaced by methi...

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Autores principales: Brown, Zachary Z., Müller, Manuel M., Jain, Siddhant U., Allis, C. David, Lewis, Peter W., Muir, Tom W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2014
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4183613/
https://www.ncbi.nlm.nih.gov/pubmed/25180930
http://dx.doi.org/10.1021/ja5060934
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author Brown, Zachary Z.
Müller, Manuel M.
Jain, Siddhant U.
Allis, C. David
Lewis, Peter W.
Muir, Tom W.
author_facet Brown, Zachary Z.
Müller, Manuel M.
Jain, Siddhant U.
Allis, C. David
Lewis, Peter W.
Muir, Tom W.
author_sort Brown, Zachary Z.
collection PubMed
description [Image: see text] The histone methyltransferase PRC2 plays a central role in genomic stability and cellular development. Consequently, its misregulation has been implicated in several cancers. Recent work has shown that a histone H3 mutant, where the PRC2 substrate residue Lys27 is replaced by methionine, is also associated with cancer phenotypes and functions as an inhibitor of PRC2. Here we investigate the mechanism of this PRC2 inhibition through kinetic studies and photo-cross-linking. Efficient inhibition is dependent on (1) hydrophobic lysine isosteres blocking the active site, (2) proximal residues, and (3) the H3 tail forming extensive contacts with the EZH2 subunit of PRC2. We further show that naturally occurring post-translational modifications of the same H3 tail, both proximal and distal to K27M, can greatly diminish the inhibition of PRC2. These results suggest that this potent gain of function mutation may be “detoxified” by modulating alternate chromatin modification pathways.
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spelling pubmed-41836132015-09-02 Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2 Brown, Zachary Z. Müller, Manuel M. Jain, Siddhant U. Allis, C. David Lewis, Peter W. Muir, Tom W. J Am Chem Soc [Image: see text] The histone methyltransferase PRC2 plays a central role in genomic stability and cellular development. Consequently, its misregulation has been implicated in several cancers. Recent work has shown that a histone H3 mutant, where the PRC2 substrate residue Lys27 is replaced by methionine, is also associated with cancer phenotypes and functions as an inhibitor of PRC2. Here we investigate the mechanism of this PRC2 inhibition through kinetic studies and photo-cross-linking. Efficient inhibition is dependent on (1) hydrophobic lysine isosteres blocking the active site, (2) proximal residues, and (3) the H3 tail forming extensive contacts with the EZH2 subunit of PRC2. We further show that naturally occurring post-translational modifications of the same H3 tail, both proximal and distal to K27M, can greatly diminish the inhibition of PRC2. These results suggest that this potent gain of function mutation may be “detoxified” by modulating alternate chromatin modification pathways. American Chemical Society 2014-09-02 2014-10-01 /pmc/articles/PMC4183613/ /pubmed/25180930 http://dx.doi.org/10.1021/ja5060934 Text en Copyright © 2014 American Chemical Society Terms of Use (http://pubs.acs.org/page/policy/authorchoice_termsofuse.html)
spellingShingle Brown, Zachary Z.
Müller, Manuel M.
Jain, Siddhant U.
Allis, C. David
Lewis, Peter W.
Muir, Tom W.
Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title_full Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title_fullStr Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title_full_unstemmed Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title_short Strategy for “Detoxification” of a Cancer-Derived Histone Mutant Based on Mapping Its Interaction with the Methyltransferase PRC2
title_sort strategy for “detoxification” of a cancer-derived histone mutant based on mapping its interaction with the methyltransferase prc2
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4183613/
https://www.ncbi.nlm.nih.gov/pubmed/25180930
http://dx.doi.org/10.1021/ja5060934
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