Quantitative Profiling of Combinational K27/K36 Modifications on Histone H3 Variants in Mouse Organs

The coexisting post-translational modifications (PTMs) on histone H3 N-terminal tails were known to crosstalk between each other, indicating their interdependency in the epigenetic regulation pathways. H3K36 methylation, an important activating mark, was recently reported to antagonize with PRC2-mediated H3K27 methylation with possible crosstalk mechanism during transcription regulation process.(1) On the basis of our previous studies, we further integrated RP/HILIC liquid chromatography with MRM mass spectrometry to quantify histone PTMs from various mouse organs, especially the combinatorial K27/K36 marks for all three major histone H3 variants. Despite their subtle difference in physicochemical properties, we successfully obtained decent separation and high detection sensitivity for both histone H3.3 specific peptides and histone H3.1/3.2 specific peptides. In addition, overall abundance of H3.3 can be quantified simultaneously. We applied this method to investigate the pattern of the combinatorial K27/K36 marks for all three major histone H3 variants across five mouse organs. Intriguing distribution differences were observed not only between different H3 variants but also between different organs. Our data shed the new insights into histone codes functions in epigenetic regulation during cell differentiation and developmental process. the