IDH1 R132H Mutations Actively Contribute to the Epigenetic State of Glioma Cells

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2019

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Point mutations in the active site of isocitrate dehydrogenases 1 and 2 (\textit{IDH}) occur in the majority of WHO grade II and III gliomas, resulting in a unique milieu of signaling and metabolism. IDH1/2 active site mutations confer a gain-of-function activity to the enzyme, which results in the production of the oncometabolite D-2-hydroxyglutarate (D-2HG). D-2HG accumulation in turn promotes tumor formation through competitive inhibition of $\alpha$-ketoglutarate dependent ($\alpha$-KG) enzymes. Inhibition of $\alpha$-KG-dependent enzymes, such as histone demethylases and DNA demethylases, is sufficient to induce tumor-promoting epigenetic changes, but can also impose situational constraints on cell proliferation. To develop better therapies for mutant IDH1-bearing gliomas, it is essential to determine whether the epigenetic changes induced by the mutant IDH proteins actively require the mutation after tumor formation. Furthermore, it is imperative to decode the molecular mechanisms that promote tumor cells’ fitness under IDH mutation-dependent constraints in representative models. Here, we describe and characterize CRISPR-Cas9 based isogenic cell line models using patient-derived IDH1$^{R132H/WT}$ glioma cell lines. We uncover that these models show persistent DNA hypermethylation in CpG loci of the glioma CpG island methylator phenotype even after D-2HG production has been abolished. We also report a genome wide pattern of DNA demethylation in CpG sites outside of CpG islands, which reflect the acquisition of a G-CIMP-low like state after loss of D-2HG production. Then, using these cell line tools, we performed an unbiased sub-genomic CRISPR-library screening to identify genes whose functions supported the growth of glioma cells bearing endogenous IDH1 mutations. This work thus provides new patient derived models for exploring novel therapeutic opportunities for IDH1 mutant tumors, and uncovers the extent to which IDH mutation linked hypermethylation profiles in glioma depend upon D-2HG production from the IDH mutation.

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Moure, Casey Joseph (2019). IDH1 R132H Mutations Actively Contribute to the Epigenetic State of Glioma Cells. Dissertation, Duke University. Retrieved from https://hdl.handle.net/10161/19854.

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