Innovative analyses support a role for DNA damage and an aberrant cell cycle in myelodysplastic syndrome pathogenesis.

Bone Marrow Research Pub Date : 2011-01-01 Epub Date: 2011-06-07 DOI:10.1155/2011/950934
David R Head, James W Jacobberger, Claudio Mosse, Madan Jagasia, William Dupont, Stacey Goodman, Leanne Flye, Andrew Shinar, Sara McClintock-Treep, Greg Stelzer, Robert Briggs, Keith Shults
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引用次数: 8

Abstract

We used flow cytometry to analyze the cell cycle, DNA damage, and apoptosis in hematopoietic subsets in MDS marrow. Subsets were assigned using CD45, side scatter, CD34, and CD71. Cell cycle fractions were analyzed using DRAQ 5 (DNA content) and MPM-2 (mitoses). DNA damage was assessed using p-H2A.X, and apoptosis using Annexin V. Compared to controls, MDS patients demonstrated no increased mitoses in erythroid, myeloid, or CD34+ cells. Myeloid progenitors demonstrated increased G2 cells, which with no increased mitoses suggested delayed passage through G2. Myeloid progenitors demonstrated increased p-H2A.X, consistent with DNA damage causing this delay. Annexin V reactivity was equivalent in MDS and controls. Results for each parameter varied among hematopoietic compartments, demonstrating the need to analyze compartments separately. Our results suggest that peripheral cytopenias in MDS are due to delayed cell cycle passage of marrow progenitors and that this delayed passage and leukemic progression derive from excessive DNA damage.

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创新分析支持DNA损伤和异常细胞周期在骨髓增生异常综合征发病机制中的作用。
我们用流式细胞术分析了MDS骨髓造血亚群的细胞周期、DNA损伤和凋亡。子集使用CD45、侧散点、CD34和CD71进行分配。用draq5 (DNA含量)和MPM-2(有丝分裂)分析细胞周期分数。采用p-H2A评估DNA损伤。与对照组相比,MDS患者红细胞、髓细胞或CD34+细胞的有丝分裂未增加。髓系祖细胞显示G2细胞增加,有丝分裂未增加提示G2传代延迟。髓系祖细胞显示p-H2A升高。X,与导致延迟的DNA损伤一致。膜联蛋白V的反应性在MDS和对照组中是相同的。每个参数的结果在不同的造血区室中有所不同,表明需要单独分析区室。我们的研究结果表明,MDS的外周细胞减少是由于骨髓祖细胞周期传代延迟,而这种延迟传代和白血病进展源于过度的DNA损伤。
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