AML 中进化亚克隆结构内的突变位置。

Mutation position within evolutionary subclonal architecture in AML.

机构信息

Washington University School of Medicine, Division of Oncology, Stem Cell Biology Section, St. Louis, MO.

出版信息

Semin Hematol. 2014 Oct;51(4):273-81. doi: 10.1053/j.seminhematol.2014.08.004. Epub 2014 Aug 7.

DOI:10.1053/j.seminhematol.2014.08.004

Abstract

Cytogenetic data suggest that acute myeloid leukemia (AML) develops through a process of branching evolution, especially during relapse and progression. Recent genomic data from AML cases using digital sequencing, temporal comparisons, xenograft cloning, and single-cell analysis indicate that most, if not all, AML cases emerge through branching evolution. According to a review of the current literature, the balanced translocations (t[15;17], t[8;21], and inv[16]) and nucleotide variants in DNMT3A and TET2 most commonly occur in the founding clone at diagnosis. These mutations are rarely gained or lost at relapse, and the latter 2 mutations are observed in elderly subjects with mosaic hematopoiesis antedating overt leukemia. In contrast, +8, +13, +22, -X, -Y, and nucleotide variants in FLT3, NRAS/KRAS, WT1, and KIT frequently occur in subclones and are observed either to emerge or to be lost at relapse. Because drugs that target mutations within a subclone are unlikely to eliminate all leukemic cells, it will be essential to understand not only which mutations a patient has but also how they organize within the leukemic subclonal architecture.

摘要

细胞遗传学数据表明，急性髓系白血病（AML）是通过分支进化过程发展而来的，尤其是在复发和进展期间。最近使用数字测序、时间比较、异种移植克隆和单细胞分析对 AML 病例进行的基因组数据表明，大多数（如果不是全部）AML 病例都是通过分支进化产生的。根据对当前文献的综述，平衡易位（t[15;17]、t[8;21]和 inv[16]）和 DNMT3A 和 TET2 中的核苷酸变异最常见于诊断时的起始克隆中。这些突变在复发时很少获得或丢失，后两种突变在伴有明显白血病的高龄具有镶嵌性造血的患者中观察到。相比之下，+8、+13、+22、-X、-Y 和 FLT3、NRAS/KRAS、WT1 和 KIT 中的核苷酸变异经常在亚克隆中出现，并在复发时观察到出现或丢失。由于针对亚克隆内突变的药物不太可能消除所有白血病细胞，因此了解患者不仅具有哪些突变，而且还了解它们在白血病亚克隆结构中的组织方式将至关重要。

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AML 中进化亚克隆结构内的突变位置。

Mutation position within evolutionary subclonal architecture in AML.

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