Carneiro Benedito A, Altman Jessica K, Kaplan Jason B, Ossenkoppele Gert, Swords Ronan, Platanias Leonidas C, Giles Francis J
Northwestern Developmental Therapeutics Institute, Northwestern University Feinberg School of Medicine, 645 N Michigan Ave. Suite 1006, Chicago, IL 60611, USA.
Expert Rev Anticancer Ther. 2015 Apr;15(4):399-413. doi: 10.1586/14737140.2015.1004316. Epub 2015 Jan 26.
Advances in the understanding of the genetic underpinnings of acute myeloid leukemia are rapidly being translated into novel treatment strategies. Genomic profiling has highlighted the importance of the epigenetic machinery for leukemogenesis by identifying recurrent somatic mutations involving chromatin-modifier proteins. These genetic alterations function as dynamic regulators of gene expression and involve DNA-methyltransferase 3A, methyltransferase DOT1L, enhancer of zeste homologue 2, isocitrate dehydrogenases 1 and 2 and bromodomain-containing proteins. New therapeutic targets are also emerging from further delineation of cell signaling networks in acute myeloid leukemia blasts mediated by PIM kinases, polo-like kinase 1, cell surface protein CD98 and nucleocytoplasmic shuttling receptors, among others. Early results of targeted therapies directed at these molecular mechanisms are discussed in this review and their potential to improve the outcomes of patients by allowing the use of more effective and less toxic treatments.
对急性髓系白血病遗传基础认识的进展正迅速转化为新的治疗策略。基因组分析通过鉴定涉及染色质修饰蛋白的复发性体细胞突变,突出了表观遗传机制在白血病发生中的重要性。这些基因改变作为基因表达的动态调节因子,涉及DNA甲基转移酶3A、甲基转移酶DOT1L、zeste同源物2增强子、异柠檬酸脱氢酶1和2以及含溴结构域蛋白。通过进一步描绘由PIM激酶、polo样激酶1、细胞表面蛋白CD98和核质穿梭受体等介导的急性髓系白血病母细胞中的细胞信号网络,也正在出现新的治疗靶点。本综述讨论了针对这些分子机制的靶向治疗的早期结果,以及它们通过使用更有效、毒性更小的治疗方法来改善患者预后的潜力。
