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A Chemical Acetylation-Based Mass Spectrometry Platform for Histone Methylation Profiling

Francesca Zappacosta, Craig D. Wagner, Anthony Della Pietra, Sarah V. Gerhart, Kathryn Keenan, Susan Korenchuck, Chad Quinn, Olena Barbash, Michael T. McCabe, Roland S. Annan

2021Molecular & Cellular Proteomics10 citationsDOIOpen Access PDF

Abstract

-acetic anhydride to collapse all the differently acetylated histone forms into one form, greatly reducing the complexity of the peptide mixture and improving sensitivity for the detection of methylation via summation of all the differently acetylated forms. We have used this strategy for the robust identification and relative quantitation of H4R3 methylation, for which stoichiometry and symmetry status were determined, providing an antibody-independent evidence that H4R3 is a substrate for both Type I and Type II PRMTs. Additionally, this approach permitted the robust detection of H4K5 monomethylation, a very low stoichiometry methylation event (0.02% methylation). In an independent example, we developed an in vitro assay to profile H3K27 methylation and applied it to an EZH2 mutant xenograft model following small-molecule inhibition of the EZH2 methyltransferase. These specific examples highlight the utility of this simplified MS-based approach to quantify histone methylation profiles.

Topics & Concepts

AcetylationHistoneMass spectrometryProfiling (computer programming)ChemistryMethylationComputational biologyChromatographyComputer scienceBiologyBiochemistryDNAGeneOperating systemCancer-related gene regulationEpigenetics and DNA MethylationRNA modifications and cancer