Deregulated epigenetic mechanisms are likely involved in the pathogenesis of myelodysplastic syndromes (MDSs). Which genes are silenced by aberrant promotor methylation during MDS hematopoiesis has not been equivalently investigated. Using an in vitro differentiation model of human hematopoiesis, we generated defined differentiation stages (day 0, day 4, day 7, day 11) of erythro-, thrombo- and granulopoiesis from 13 MDS patients and seven healthy donors. Promotor methylation analysis of key regulatory genes involved in cell cycle control (p14, p15, p16, CHK2), DNA repair (hMLH1), apoptosis (p73, survivin, DAPK), and differentiation (RARb, WT1) was performed by methylation-specific polymerase chain reaction. Corresponding gene expression was analyzed by microarray (Affymetrix, HG-U133A). We provide evidence that p16, survivin, CHK2, and WT1 are affected by promotor hypermethylation in MDSs displaying a selective International Prognostic Scoring System risk association. A methylation-associated mRNA downregulation for specific hematopoietic lineages and differentiation stages is demonstrated for survivin, CHK2, and WT1. We identified a suppressed survivin mRNA expression in methylated samples during erythropoiesis, whereas WT1 and CHK2 methylation-related reduction of mRNA expression was found during granulopoiesis in all MDS risk types. Our data suggest that lineage-specific methylation-associated gene silencing of survivin, CHK2, and WT1 in MDS hematopoietic precursor cells may contribute to the MDS-specific phenotype

译文

:表观遗传机制失调可能与骨髓增生异常综合症(MDSs)的发病机制有关。尚未对MDS造血过程中异常启动子甲基化沉默哪些基因进行了研究。使用人类造血作用的体外分化模型,我们从13名MDS患者和7位健康供体中生成了定义的分化阶段(第0天,第4天,第7天,第11天)。通过甲基化特异性的方法对参与细胞周期控制(p14,p15,p16,CHK2),DNA修复(hMLH1),凋亡(p73,survivin,DAPK)和分化(RARb,WT1)的关键调控基因的启动子甲基化分析聚合酶链反应。通过微阵列(Affymetrix,HG-U133A)分析相应的基因表达。我们提供的证据表明p16,survivin,CHK2和WT1受MDS中启动子过甲基化的影响,显示出选择性的国际预后评分系统风险关联。针对survivin,CHK2和WT1证实了特定造血谱系和分化阶段的甲基化相关mRNA下调。我们在红细胞生成过程中发现甲基化样本中survivin mRNA表达受到抑制,而在所有MDS风险类型的粒细胞生成过程中,发现了WT1和CHK2甲基化相关的mRNA表达下降。我们的数据表明,MDS造血前体细胞中survivin,CHK2和WT1的谱系特异性甲基化相关基因沉默可能有助于MDS特异性表型

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