Double mutant DNMT3A AML: a unique subtype experiencing increased DNA damage and poor prognosis.

IF 7.4 1区医学 Q1 HEMATOLOGY

Blood advances Pub Date : 2025-03-25 DOI:10.1182/bloodadvances.2024014698

Emma L Boertjes, Sanne Massaar, Annelieke Zeilemaker, Jolinda Konijnenburg, Melissa Rijken, François G Kavelaars, Tim Grob, Jurjen Versluis, Bob Löwenberg, Peter J M Valk, Mathijs A Sanders

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引用次数: 0

Abstract

Abstract: Mutation of DNMT3A, encoding a de novo methyltransferase essential for cytosine methylation, is a common early event in clonal hematopoiesis (CH) and adult acute myeloid leukemia (AML). Spontaneous deamination of methylated cytosines damages DNA, which is repaired by the base excision repair (BER) enzymes methyl-CpG binding domain 4 (MBD4) and thymine DNA glycosylase (TDG). Congenital MBD4 deficiency has been linked to early-onset CH and AML and is marked by exceedingly high levels of DNA damage and mutation of DNMT3A. Strikingly, wild-type (WT) DNMT3A binds TDG, thereby potentiating its repair activity. Because TDG is the only remaining BER enzyme in MBD4-deficient patients with AML capable of repairing methylation damage, we investigated whether mutant DNMT3A negatively affects the repair function of TDG. We found that, although WT DNMT3A stimulates TDG function, mutant DNMT3A impairs TDG-mediated repair of DNA damage in vitro. In light of this finding and to extrapolate our observations to the broader AML patient population, we investigate here the genetic profiles and survival outcomes of patients with AML with single mutant (SM) vs double mutant (DM) DNMT3A. Patients with DM DNMT3A AML show a characteristic driver mutation landscape and reduced overall survival compared with patients with SM DNMT3A AML. Importantly, whole-genome sequencing showed a trend for increased DNA damage in primary DM DNMT3A AML samples, especially when DNMT3A mutations are located at the DNMT3A-TDG interaction interface.

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双突变DNMT3A AML：一种独特的亚型，DNA损伤增加，预后差。

编码胞嘧啶甲基化必需的从头甲基转移酶的DNMT3A突变是克隆造血（CH）和成人急性髓性白血病（AML）中常见的早期事件。甲基化胞嘧啶的自发脱氨作用会损伤DNA，并通过碱基切除修复（BER）酶MBD4和TDG进行修复。先天性mbd4缺乏症与早发性CH和AML有关，其特征是DNA损伤和DNMT3A突变水平极高。引人注目的是，野生型（WT） DNMT3A与TDG结合，从而增强了其修复活性。由于TDG是mbd4缺陷AML患者中唯一能够修复甲基化损伤的BER酶，我们研究了突变体DNMT3A是否会对TDG的修复功能产生负面影响。我们发现，WT DNMT3A刺激TDG功能，而突变型DNMT3A在体外损害TDG介导的DNA损伤修复。根据这一发现，并将我们的观察结果外推到更广泛的AML患者群体，我们在这里研究了单（SM）与双突变（DM） DNMT3A的AML患者的遗传谱和生存结果。与SM DNMT3A AML患者相比，DM DNMT3A AML患者表现出特征性的驱动突变景观和总生存率降低。重要的是，全基因组测序显示原发性DM DNMT3A AML样本中DNA损伤增加的趋势，特别是当DNMT3A突变位于DNMT3A- tdg相互作用界面时。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Blood advances Medicine-Hematology

CiteScore

12.70

自引率

2.70%

发文量

840

期刊介绍： Blood Advances, a semimonthly medical journal published by the American Society of Hematology, marks the first addition to the Blood family in 70 years. This peer-reviewed, online-only, open-access journal was launched under the leadership of founding editor-in-chief Robert Negrin, MD, from Stanford University Medical Center in Stanford, CA, with its inaugural issue released on November 29, 2016. Blood Advances serves as an international platform for original articles detailing basic laboratory, translational, and clinical investigations in hematology. The journal comprehensively covers all aspects of hematology, including disorders of leukocytes (both benign and malignant), erythrocytes, platelets, hemostatic mechanisms, vascular biology, immunology, and hematologic oncology. Each article undergoes a rigorous peer-review process, with selection based on the originality of the findings, the high quality of the work presented, and the clarity of the presentation.