Abstract

Abstract BACKGROUND Our study aimed to identify vulnerabilities within sphingolipid metabolism with potential to translate to therapeutics. While the vital role of sphingolipids in maintaining rheostat balance and as secondary messengers for signaling pathways (involving proliferation, invasion, migration, and angiogenesis) has been well-documented, their role has not been widely investigated in gliomas. Therefore, metabolic analysis of sphingolipid pathway for IDH1-R132H (IDH1 mut ) glioma cell lines was conducted in order to elucidate susceptible targets. METHODS Global sphingolipid quantification utilized high-throughput LCMS analysis. Pathway protein expression was measured via Western blots in vitro and derived from patients using The Cancer Genome Atlas analysis. RESULTS We probed the impact of decreasing D-2HG on the sphingolipid metabolism after treating a panel of IDH1 mut glioma cells with IDH1-R132H mut inhibitor, AGI5198. This revealed significant downregulation of N,N-dimethylsphingosine (NDMS), C17-sphingosine, and C18-sphinganine. Coincidentally, sphingosine-1-phosphate (S1P) was significantly upregulated in these gliomas. We conducted rational drug screen which revealed that inhibition of SPHK1 with N,N-dimethylsphingosine in combination with C17-sphingosine triggered biostatic dose-response across IDH1 mut gliomas and low impact on IDH WT glioblastoma (GBM) cells. Western analysis revealed that the IDH1 mut gliomas and IDH WT GBM expressed sphingosine kinase-1 (SPHK1). Data also unveiled a discovery that SPHK2 was highly expressed in the GBM cells while remarkably absent in the glioma cells. CONCLUSION Herein, we provide evidence that certain IDH1 mut gliomas present epigenetic silencing of SPHK2 which creates dependency on SPHK1 for S1P; thus, increasing sensitivity to targeting sphingolipid metabolism, and creating susceptibility to proliferation arrest and subsequent cellular death. S1P production has been reported to be elevated particularly for malignant glioblastomas in prior studies; whereas our research revealed that it is relatively low in IDH mut by comparison with IDH WT tumor cells. These findings suggest targeting the sphingolipid metabolism may present a promising strategy to improve survival for patients diagnosed with IDH1 mut gliomas.

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