Abstract
BackgroundIDH2/R140Q mutation is frequently detected in acute myeloid leukemia (AML). It contributes to leukemia via accumulation of oncometabolite D-2-HG. Therefore, mutant IDH2 is a promising target for AML. Discovery of IDH2 mutant inhibitors is in urgent need for AML therapy.MethodsStructure-based in silico screening and enzymatic assays were used to identify IDH2/R140Q inhibitors. Molecular docking, mutant structure building and molecular dynamics simulations were applied to investigate the inhibitory mechanism and selectivity of CP-17 on IDH2/R140Q. TF-1 cells overexpressed IDH2/R140Q mutant were used to study the effects of CP-17 on cellular proliferation and differentiation, the wild-type TF-1 cells were used as control. The intracellular D-2-HG production was measured by LC-MS. The histone methylation was evaluated with specific antibodies by western blot.ResultsCP-17, a heterocyclic urea amide compound, was identified as a potent inhibitor of IDH2/R140Q mutant by in silico screening and enzymatic assay. It exhibits excellent inhibitory activity with IC50 of 40.75 nM against IDH2/R140Q. More importantly, it shows poor activity against the wild-type IDH1/2, resulting in a high selectivity of over 55 folds, a dramatic improvement over previously developed inhibitors such as AGI-6780 and Enasidenib. Molecular simulations suggested that CP-17 binds to IDH2/R140Q at the allosteric site within the dimer interface through extensive polar and hydrophobic interactions, locking the enzyme active sites in open conformations with abolished activity to produce D-2-HG. Cellular assay results demonstrated that CP-17 inhibits intracellular D-2-HG production and suppresses the proliferation of TF-1 erythroleukemia cells carrying IDH2/R140Q mutant. Further, CP-17 also restores the EPO-induced differentiation that is blocked by the mutation and decreases hypermethylation of histone in the TF-1(IDH2/R140Q) cells.ConclusionsThese results indicate that CP-17 can serve as a lead compound for the development of inhibitory drugs against AML with IDH2/R140Q mutant.9VsaDjQW48p2wcwLU8xfjjVideo abstract.
Highlights
Isocitrate dehydrogenase 2 (IDH2)/R140Q mutation is frequently detected in acute myeloid leukemia (AML)
Identification of CP-17 as an allosteric inhibitor of IDH2/ R140Q Molecular simulation is an important means of drug discovery [26]
Inspired by the important role of oncogenic IDH2 mutations, we employed a structure-based in silico screening method to discover inhibitors of the most prevalent IDH2 mutation−IDH2/R140Q in AML using Schrödinger 2015–3 software
Summary
IDH2/R140Q mutation is frequently detected in acute myeloid leukemia (AML). It contributes to leukemia via accumulation of oncometabolite D-2-HG. Point mutations of two arginine residues, R140Q and R172K in the active site of IDH2, can drive the development of leukemia and glioma in vivo [2,3,4,5] These cancerassociated IDH2 mutants gain neomorphic activity that converts α-KG to a reduced product (D)-2-hydroxyglutarate (D-2-HG), as high concentrations of D-2-HG can be detected in glioma and acute myeloid leukemia (AML) patients harboring these mutations [5, 6]. Epigenetic dysregulation has been proved to block hematopoietic differentiation [9,10,11,12,13] Among these mutations, approximately 10% of AML patients carry R140Q mutation in the IDH2 gene, making it a promising target for the therapy of AML [14, 15]
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