Cellular and molecular architecture of hematopoietic stem cells and progenitors in genetic models of bone marrow failure

髓系白血病 骨髓 骨髓衰竭 生物 范科尼贫血 癌症研究 外显子组测序 造血 祖细胞 白血病 髓样 突变 分子生物学 干细胞 遗传学 免疫学 基因 DNA修复
作者
Stephanie C. Heidemann,Brian Bursic,Sasan Zandi,Hongbing Li,Sagi Abelson,Robert J. Klaassen,Sharon Abish,Meera Rayar,Vicky R. Breakey,Houtan Moshiri,Santhosh Dhanraj,Richard de Borja,Adam Shlien,John E. Dick,Yigal Dror
出处
期刊:JCI insight [American Society for Clinical Investigation]
卷期号:5 (4) 被引量:10
标识
DOI:10.1172/jci.insight.131018
摘要

Inherited bone marrow failure syndromes, such as Fanconi anemia (FA) and Shwachman-Diamond syndrome (SDS), feature progressive cytopenia and a risk of acute myeloid leukemia (AML). Using deep phenotypic analysis of early progenitors in FA/SDS bone marrow samples, we revealed selective survival of progenitors that phenotypically resembled granulocyte-monocyte progenitors (GMP). Whole-exome and targeted sequencing of GMP-like cells in leukemia-free patients revealed a higher mutation load than in healthy controls and molecular changes that are characteristic of AML: increased G>A/C>T variants, decreased A>G/T>C variants, increased trinucleotide mutations at Xp(C>T)pT, and decreased mutation rates at Xp(C>T)pG sites compared with other Xp(C>T)pX sites and enrichment for Cancer Signature 1 (X indicates any nucleotide). Potential preleukemic targets in the GMP-like cells from patients with FA/SDS included SYNE1, DST, HUWE1, LRP2, NOTCH2, and TP53. Serial analysis of GMPs from an SDS patient who progressed to leukemia revealed a gradual increase in mutational burden, enrichment of G>A/C>T signature, and emergence of new clones. Interestingly, the molecular signature of marrow cells from 2 FA/SDS patients with leukemia was similar to that of FA/SDS patients without transformation. The predicted founding clones in SDS-derived AML harbored mutations in several genes, including TP53, while in FA-derived AML the mutated genes included ARID1B and SFPQ. We describe an architectural change in the hematopoietic hierarchy of FA/SDS with remarkable preservation of GMP-like populations harboring unique mutation signatures. GMP-like cells might represent a cellular reservoir for clonal evolution.
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