1. Academic Validation
  2. A selective inhibitor of EZH2 blocks H3K27 methylation and kills mutant lymphoma cells

A selective inhibitor of EZH2 blocks H3K27 methylation and kills mutant lymphoma cells

  • Nat Chem Biol. 2012 Nov;8(11):890-6. doi: 10.1038/nchembio.1084.
Sarah K Knutson 1 Tim J Wigle Natalie M Warholic Christopher J Sneeringer Christina J Allain Christine R Klaus Joelle D Sacks Alejandra Raimondi Christina R Majer Jeffrey Song Margaret Porter Scott Lei Jin Jesse J Smith Edward J Olhava Richard Chesworth Mikel P Moyer Victoria M Richon Robert A Copeland Heike Keilhack Roy M Pollock Kevin W Kuntz
Affiliations

Affiliation

  • 1 Epizyme, Inc., Cambridge, MA, USA.
Abstract

EZH2 catalyzes trimethylation of histone H3 lysine 27 (H3K27). Point mutations of EZH2 at Tyr641 and Ala677 occur in subpopulations of non-Hodgkin's lymphoma, where they drive H3K27 hypertrimethylation. Here we report the discovery of EPZ005687, a potent inhibitor of EZH2 (K(i) of 24 nM). EPZ005687 has greater than 500-fold selectivity against 15 Other protein methyltransferases and has 50-fold selectivity against the closely related Enzyme EZH1. The compound reduces H3K27 methylation in various lymphoma cells; this translates into apoptotic cell killing in heterozygous Tyr641 or Ala677 mutant cells, with minimal effects on the proliferation of wild-type cells. These data suggest that genetic alteration of EZH2 (for example, mutations at Tyr641 or Ala677) results in a critical dependency on enzymatic activity for proliferation (that is, the equivalent of oncogene addiction), thus portending the clinical use of EZH2 inhibitors for cancers in which EZH2 is genetically altered.

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