Histone methylases as novel drug targets: developing inhibitors of EZH2 | Zendy

Catherine Baugé | Zendy; Céline Bazille | Zendy; Nicolas Girard | Zendy; Eva Lhuissier | Zendy; Karim Boumédiene | Zendy

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Histone methylases as novel drug targets: developing inhibitors of EZH2

Author(s) -

Catherine Baugé,

Céline Bazille,

Nicolas Girard,

Eva Lhuissier,

Karim Boumédiene

Publication year - 2014

Publication title -

future medicinal chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.708

H-Index - 69

eISSN - 1756-8927

pISSN - 1756-8919

DOI - 10.4155/fmc.14.123

Subject(s) - ezh2 , epigenetics , histone , histone methyltransferase , biology , computational biology , regulator , histone h3 , drug discovery , prc2 , acetylation , regulation of gene expression , histone methylation , methylation , cancer research , gene , genetics , gene expression , dna methylation , bioinformatics

Post-translational modifications of histones (so-called epigenetic modifications) play a major role in transcriptional control and normal development, and are tightly regulated. Disruption of their control is a frequent event in disease. In particular, the methylation of lysine 27 on histone H3 (H3K27), induced by the methylase EZH2, emerges as a key control of gene expression and a major regulator of cell physiology. The identification of driver mutations in EZH2 has already led to new prognostic and therapeutic advances, and new classes of potent and specific inhibitors for EZH2 show promising results in preclinical trials. This review examines the roles of histone lysine methylases and demethylases in cells and focuses on the recent knowledge and developments about EZH2.

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