Capicua (CIC) is an important downstream molecule of RTK/RAS/MAPK pathway. The regulatory mechanism of CIC underlying tumorigenesis in oligodendroglioma, where CIC is frequently mutated, has yet to be fully elucidated. Using patient-derived glioma lines, RNA-sequencing and bioinformatic analysis of publicly available databases, we investigated how CIC loss- or gain-of-function regulates its downstream targets, cell proliferation and glutamate release. Our results indicate an increased frequency of CIC truncating mutations in oligodendroglioma during progression. In vitro, CIC modulation had a modest effect on cell proliferation in glioma lines, and no significant changes in the expression of ETV1, ETV4 and ETV5. Transcriptional repression of known CIC targets was observed in gliomas expressing non-phosphorylatable CIC variant on Ser173 which was unable to interact with 14-3-3. These data outline a mechanism by which the repressor function of CIC is inhibited by 14-3-3 in gliomas. Using transcriptional profiling, we found that genes related to glutamate release were upregulated because of CIC depletion. In addition, loss of CIC leads to increased extracellular glutamate. Consistent with this, CIC restoration in an oligodendroglioma line reduced the levels of extracellular glutamate, neuronal toxicity and xCT/SLC7A11 expression. Our findings may provide a molecular basis for the prevention of glioma-associated seizures.
Keywords: Capicua; Glutamate; Neuronal toxicity; Oligodendroglioma; xCT/SLC7A11.
© 2023. The Author(s).