Background: Diffuse intrinsic pontine glioma (DIPG) is an aggressive pediatric brainstem tumor. Most DIPGs harbor a histone H3 mutation, which alters histone post-translational modification (PTM) states and transcription. Here, we employed quantitative proteomic analysis to elucidate the impact of H3.3K27M mutation, as well as radiation and bromodomain inhibition (BRDi) with JQ1, on DIPG PTM profiles. Methods: We performed targeted mass spectroscopy on H3.3K27M mutant and wild-type tissues (n=12) and cell lines (n=7). Results: We found 29.2% and 26.4% of total H3.3K27 peptides were H3.3K27M in mutant DIPG tumor cell lines and tissue specimens, respectively. Significant differences in distinct PTMs were observed in H3.3K27M specimens, including at H3K27, H3K36, and H4K16 amino acid residues. In addition, H3.3K27me1 and H4K16ac were the most significantly distinct modifications in H3.3K27M mutant tumors relative to wild-type. Further, H3.3K36me2 was the most abundant modification co-occurring on the H3.3K27M mutant peptide in DIPG tissue, while H4K16ac was the most acetylated residue. Radiation treatment caused changes in PTM abundance in vitro , including increased H3K9me3. BRDi with JQ1 resulted in increased mono- and di-methylation of H3.1K27, H3.3K27, H3.3K36 and H4K20 in vitro . Conclusion: Taken together, our findings provide insight into the effects of the H3K27M mutation on Histone modification states and response to treatment, and suggest H3K36me2 and H4K16ac in DIPG may represent unique tumor epigenetic signatures for targeted therapy.
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