Single-cell DNA sequencing reveals pervasive positive selection throughout preleukemic evolution.

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2025-02-12 Epub Date: 2025-01-21 DOI:10.1016/j.xgen.2024.100744

Gladys Poon, Aditi Vedi, Mathijs Sanders, Elisa Laurenti, Peter Valk, Jamie R Blundell

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Abstract

The representation of driver mutations in preleukemic hematopoietic stem cells (pHSCs) provides a window into the somatic evolution that precedes acute myeloid leukemia (AML). Here, we isolate pHSCs from the bone marrow of 16 patients diagnosed with AML and perform single-cell DNA sequencing on thousands of cells to reconstruct phylogenetic trees of the major driver clones in each patient. We develop a computational framework that can infer levels of positive selection operating during preleukemic evolution from the statistical properties of these phylogenetic trees. Combining these data with 67 previously published phylogenetic trees, we find that the highly variable structures of preleukemic trees emerge naturally from a simple model of somatic evolution with pervasive positive selection typically in the range of 9%-24% per year. At these levels of positive selection, we show that the identification of early multiple-mutant clones could be used to identify individuals at risk of future AML.

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单细胞DNA测序揭示了白血病前期进化过程中普遍存在的正选择。

白血病前造血干细胞（pHSCs）中驱动突变的表现为研究急性髓性白血病（AML）之前的体细胞进化提供了一个窗口。在这里，我们从16名诊断为AML的患者的骨髓中分离出pHSCs，并对数千个细胞进行单细胞DNA测序，以重建每个患者主要驱动克隆的系统发育树。我们开发了一个计算框架，可以从这些系统发育树的统计特性中推断出在白血病前期进化过程中操作的积极选择水平。将这些数据与先前发表的67棵系统发育树相结合，我们发现白血病前期树的高度可变结构自然地出现在一个简单的体细胞进化模型中，其普遍的正选择通常在每年9%-24%的范围内。在这些阳性选择水平上，我们表明早期多突变克隆的鉴定可用于鉴定未来AML风险的个体。

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

Cell genomics

CiteScore

7.10

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0.00%

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