Abstract
Isocitrate dehydrogenase (IDH) is an oncogene, and the expression of a mutated IDH promotes cell proliferation and inhibits cell differentiation. IDH exists in three different isoforms, whose mutation can cause many solid tumors, especially gliomas in adults. No effective method for classifying gliomas on genetic signatures is currently available. DNA methylation may be applied to distinguish cancer cells from normal tissues. In this study, we focused on three subtypes of IDH-mutation gliomas by examining methylation data. Several advanced computational methods were used, such as Monte Carlo feature selection (MCFS), incremental feature selection (IFS), support machine vector (SVM), etc. The MCFS method was adopted to analyze methylation features, resulting in a feature list. Then, the IFS method incorporating SVM was applied to the list to extract important methylation features and construct an optimal SVM classifier. As a result, several methylation features (sites) were found to relate to glioma subclasses, which are annotated onto multiple genes, such as FLJ37543, LCE3D, FAM89A, ADCY5, ESR1, C2orf67, REST, EPHA7, etc. These genes are enriched in biological functions, including cellular developmental process, neuron differentiation, cellular component morphogenesis, and G-protein-coupled receptor signaling pathway. Our results, which are supported by literature reports and independent dataset validation, showed that our identified genes and functions contributed to the detailed glioma subtypes. This study provided a basic research on IDH-mutation gliomas.
Highlights
Isocitrate dehydrogenase (IDH) exists in three different isoforms
We downloaded the methylation profiles of patients with IDHmutation glioma from GEO (Gene Expression Omnibus) under accession numbers GSE90496 and GSE109379, which were originally generated by Capper et al (2018)
To compare the performance baseline, we evaluated the incremental feature selection (IFS) with random forest (RF; Ho, 1995) and repeated incremental pruning to produce error reduction (RIPPER; Cohen, 1995)
Summary
Isocitrate dehydrogenase (IDH) exists in three different isoforms. IDH1 and DH2 catalyze the same reaction and use NADP+ as a cofactor instead of NAD+. IDH3 converts NAD+ to NADH in the mitochondria. IDH is an oncogene, and the expression of mutated IDH promotes cell proliferation and inhibits cell differentiation. Mutant IDH-derived (R)-2HG is a potential malignant substance and unwanted byproduct of cellular metabolism. The transformation induced by (R)-2HG is effective and reversible, suggesting that inhibiting 2HG has efficacy in the treatment of IDH mutant cancers. Mutations at Arg132 of IDH1 are present in five of six secondary glioblastoma (GBM) subtypes, and IDH mutations have been found in many other solid tumors (Losman and Kaelin, 2013)
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