Abstract
Glioblastoma multiformes (GBMs) are high-grade astrocytomas and the most common brain malignancies. Primary GBMs are often associated with disturbed RAS signaling, and expression of oncogenic HRAS results in a malignant phenotype in glioma cell lines. Secondary GBMs arise from lower-grade astrocytomas, have slower progression than primary tumors, and contain IDH1 mutations in over 70% of cases. Despite significant amount of accumulating genomic and transcriptomic data, the fundamental mechanistic differences of gliomagenesis in these two types of high-grade astrocytoma remain poorly understood. Only a few studies have attempted to investigate the proteome, phosphorylation signaling, and epigenetic regulation in astrocytoma. In the present study, we applied quantitative phosphoproteomics to identify the main signaling differences between oncogenic HRAS and mutant IDH1-driven glioma cells as models of primary and secondary GBM, respectively. Our analysis confirms the driving roles of the MAPK and PI3K/mTOR signaling pathways in HRAS driven cells and additionally uncovers dysregulation of other signaling pathways. Although a subset of the signaling changes mediated by HRAS could be reversed by a MEK inhibitor, dual inhibition of MEK and PI3K resulted in more complete reversal of the phosphorylation patterns produced by HRAS expression. In contrast, cells expressing mutant IDH1 did not show significant activation of MAPK or PI3K/mTOR pathways. Instead, global downregulation of protein expression was observed. Targeted proteomic analysis of histone modifications identified significant histone methylation, acetylation, and butyrylation changes in the mutant IDH1 expressing cells, consistent with a global transcriptional repressive state. Our findings offer novel mechanistic insight linking mutant IDH1 associated inhibition of histone demethylases with specific histone modification changes to produce global transcriptional repression in secondary glioblastoma. Our proteomic datasets are available for download and provide a comprehensive catalogue of alterations in protein abundance, phosphorylation, and histone modifications in oncogenic HRAS and IDH1 driven astrocytoma cells beyond the transcriptomic level.
Highlights
From the ‡Department of Pharmaceutical Chemistry, University of California, San Francisco, 94158 –2517 California; §Department of Protein Chemistry, Genentech Inc, South San Francisco, 94158 –2517 California
We show that simultaneous MEK and PI3K inhibition reverses many but not all signaling changes driven by oncogenic HRAS in RAS-normal human astrocytes (NHAs) cells
Dual MEK and PI3K Inhibition—We investigated the efficacy of dual MEK and PI3K inhibition in reversing signaling changes mediated by oncogenic HRAS in RAS-NHA cells
Summary
Cell Culture—Immortalized NHAs were a gift from R. The mass spectrometer was operated in “top-6” data-dependent mode, collecting MS spectra in the Orbitrap mass analyzer (60000 resolution, 350 –1500 m/z range) with an automatic gain control (AGC) target of 2E6 and a maximum ion injection time of 250 ms. Label free analysis was performed on an Orbitrap Fusion mass spectrometer in a “top-10” data-dependent mode, collecting MS spectra in the Orbitrap (120,000 resolution, 375–1600 m/z scan range) with an AGC target of 2E5 and a maximum ion injection time of 50 ms. Desalted peptides were loaded on an EASY-Spray PepMap® RSLC C18, 2 m, 100 Å, 75 m ϫ 15 cm column (Thermo Fisher Scientific) and eluted over the course of 85 min with an acetonitrile gradient from 2–25% solvent B (98% acetonitrile, 0.1% formic acid) and stepped up to 40% in 2 min. Two technical replicates were measured for the analysis of histone PTM changes of IDH1mut- IDH1wt-, and control-NHA cells. Experiments were repeated twice (technical replicates) and a log ratio cutoff of Ն 0.2 was used to define significant changes
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