Molecular Features Associated with Response to Enasidenib Plus Azacitidine in Newly Diagnosed IDH2-Mutated Acute Myeloid Leukemia

Journal of clinical haematology Pub Date : 2023-08-28 DOI:10.33696/haematology.4.054

A. Risueño, W. See, T. Prebet, C. Dinardo, H. Döhner, E. Stein, A. Fathi, P. Vyas, L. Quek, A. Gandhi, Maroof Hasan

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Abstract

IDH2 gene mutations, typically at residues R140 and R172, occur in 8–19% of patients with acute myeloid leukemia (AML). These mutations induce production of 2-hydroxyglutarate (2-HG), an oncometabolite that causes DNA and histone hypermethylation, and subsequent blockade of hematopoietic cell differentiation. In a phase 1b/2 trial (NCT02677922), combination therapy with azacitidine + enasidenib significantly improved overall response rate compared with azacitidine only therapy (74% vs 36%; P<0.001) in patients with newly diagnosed IDH2-mutated AML not eligible for intensive chemotherapy. We investigated the association between molecular features and clinical outcomes from that trial. In all, 101 patients were randomized to enasidenib + azacitidine (n=68) or azacitidine only (n=33); 74% of patients had IDH2-R140. Baseline 2-HG levels and IDH2 variant allele frequency (VAF) were similar between treatment arms and IDH2 variants and were not significantly different between clinical response categories. Significant 2-HG and IDH2 VAF reductions from baseline were observed with combination therapy compared with azacitidine only. Molecular profiling revealed SRSF2 preferentially co-mutated with IDH2-R140, and DNMT3A co-mutated with IDH2-R172. IDH2 VAF was reduced to <1% in 50% of patients who achieved CR with combination therapy (18/36) and azacitidine only (2/4). VAFs of genes in the DNA methylation, receptor-tyrosine-kinase, and RAS canonical pathways were reduced in patients achieving CR. Of note, combination therapy improved event-free survival in patients with RAS-pathway mutations, which have been associated with resistance to enasidenib monotherapy.

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新诊断的IDH2突变急性髓细胞白血病对依那西替尼加阿扎胞苷反应的分子特征

IDH2基因突变，通常发生在R140和R172残基，发生在8-19%的急性髓细胞白血病（AML）患者中。这些突变诱导2-羟基戊二酸（2-HG）的产生，这是一种引起DNA和组蛋白超甲基化的肿瘤代谢产物，随后阻断造血细胞分化。在一项1b/2期试验（NCT02677922）中，在不符合强化化疗条件的新诊断IDH2突变AML患者中，与仅使用阿扎胞苷的治疗相比，阿扎胞苷+依那西尼的联合治疗显著提高了总有效率（74%对36%；P<0.001）。我们研究了该试验的分子特征与临床结果之间的关系。总共有101名患者被随机分配给恩那西尼+阿扎胞苷（n=68）或仅阿扎胞苷治疗（n=33）；74%的患者有IDH2-R140。治疗组和IDH2变体之间的基线2-HG水平和IDH2变异等位基因频率（VAF）相似，临床反应类别之间没有显著差异。与仅阿扎胞苷相比，联合治疗观察到2-HG和IDH2 VAF较基线显著降低。分子图谱显示SRSF2优先与IDH2-R140共突变，DNMT3A与IDH2-R172共突变。在联合治疗（18/36）和仅使用阿扎胞苷（2/4）获得CR的50%患者中，IDH2 VAF降低至<1%。在达到CR的患者中，DNA甲基化、受体酪氨酸激酶和RAS经典途径中基因的VAF减少。值得注意的是，联合治疗提高了RAS途径突变患者的无事件生存率，这与埃纳西尼单药治疗的耐药性有关。

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Journal of clinical haematology

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