Department of Medicine, University of Illinois, Chicago, Illinois.
Feinberg School of Medicine and Robert H. Lurie Comprehensive Cancer Center, Northwestern University, Chicago, Illinois.
Mol Cancer Ther. 2021 Feb;20(2):229-237. doi: 10.1158/1535-7163.MCT-20-0115. Epub 2020 Nov 6.
Acute myeloid leukemia (AML) is characterized by impaired myeloid lineage differentiation, uncontrolled proliferation, and inhibition of proapoptotic pathways. In spite of a relatively homogeneous clinical disease presentation, risk of long-term survival in AML varies from 20% to 80% depending on molecular disease characteristics. In recognition of the molecular heterogeneity of AML, the European Leukemia Net (ELN) and WHO classification systems now incorporate cytogenetics and increasing numbers of gene mutations into AML prognostication. Several of the genomic AML subsets are characterized by unique transcription factor alterations that are highlighted in this review. There are many mechanisms of transcriptional deregulation in leukemia. We broadly classify transcription factors based on mechanisms of transcriptional deregulation including direct involvement of transcription factors in recurrent translocations, loss-of-function mutations, and intracellular relocalization. Transcription factors, due to their pleiotropic effects, have been attractive but elusive targets. Indirect targeting approaches include inhibition of upstream kinases such as TAK1 for suppression of NFκB signaling and downstream effectors such as FGF signaling in HOXA-upregulated leukemia. Other strategies include targeting scaffolding proteins like BrD4 in the case of MYC or coactivators such as menin to suppress HOX expression; disrupting critical protein interactions in the case of β-catenin:TCF/LEF, and preventing transcription factor binding to DNA as in the case of PU.1 or FOXM1. We comprehensively describe the mechanism of deregulation of transcription factors in genomic subsets of AML, consequent pathway addictions, and potential therapeutic strategies.
急性髓系白血病(AML)的特征是髓系分化受损、失控增殖和促凋亡途径抑制。尽管临床疾病表现相对同质,但根据分子疾病特征,AML 的长期生存风险从 20%到 80%不等。鉴于 AML 的分子异质性,欧洲白血病网(ELN)和世界卫生组织(WHO)分类系统现在将细胞遗传学和越来越多的基因突变纳入 AML 预后。AML 的几个基因组亚组的特征是独特的转录因子改变,本综述对此进行了强调。白血病中有许多转录失调的机制。我们根据转录失调的机制广泛分类转录因子,包括转录因子直接参与反复易位、功能丧失突变和细胞内重定位。由于转录因子具有多效性,因此它们一直是有吸引力但难以捉摸的靶点。间接靶向方法包括抑制 TAK1 等上游激酶以抑制 NFκB 信号,以及抑制 HOXA 上调白血病中的 FGF 信号等下游效应物。其他策略包括针对 MYC 的支架蛋白(如 BrD4)或协同因子(如 menin)以抑制 HOX 表达;在β-catenin:TCF/LEF 的情况下破坏关键蛋白相互作用,以及在 PU.1 或 FOXM1 的情况下防止转录因子与 DNA 结合。我们全面描述了 AML 基因组亚组中转录因子失调的机制、随之而来的途径成瘾和潜在的治疗策略。
