含PITH结构域蛋白1作为内部核糖体进入位点激活剂的新功能,可增强RUNX1表达并促进巨核细胞分化。
Novel function of PITH domain-containing 1 as an activator of internal ribosomal entry site to enhance RUNX1 expression and promote megakaryocyte differentiation.
作者信息
Lu Bin, Sun Xueqin, Chen Yuxuan, Jin Qi, Liang Qin, Liu Shangqin, Li Yamu, Zhou Yan, Li Wenxin, Huang Zan
机构信息
College of Life Sciences, Wuhan University, Wuhan, 430072, Hubei, People's Republic of China.
出版信息
Cell Mol Life Sci. 2015 Feb;72(4):821-32. doi: 10.1007/s00018-014-1704-2. Epub 2014 Aug 19.
INTRODUCTION
Altered gene expression coincides with leukemia development and may affect distinct features of leukemic cells. PITHD1 was significantly downregulated in leukemia and upregulated upon PMA induction in K562 cells undergoing megakaryocyte differentiation. We aimed to study the function of PITHD1 in megakaryocyte differentiation.
MATERIALS AND METHODS
K562 cells and fetal liver cells were used for either overexpression or downregulation of PITHD1 by retroviral or lentiviral transduction. FACS was used to detect the expression of CD41 and CD42 to measure megakaryocyte differentiation in these cells. Western blot and quantitative RT-PCR were used to measure gene expression. Dual luciferase assay was used to detect promoter or internal ribosomal entry site (IRES) activity.
RESULTS
Ectopic expression of PITHD1 promoted megakaryocyte differentiation and increased RUNX1 expression while PITHD1 knockdown showed an opposite phenotype. Furthermore, PITHD1 efficiently induced endogenous RUNX1 expression and restored megakaryocyte differentiation suppressed by a dominant negative form of RUNX1. PITHD1 regulated RUNX1 expression at least through two distinct mechanisms: increasing transcription activity of proximal promoter and enhancing translation activity of an IRES element in exon 3. Finally, we confirmed the function of PITHD1 in regulating RUNX1 expression and megakaryopoiesis in mouse fetal liver cells.
CONCLUSION AND SIGNIFICANCE
PITHD1 was a novel activator of IRES and enhanced RUNX1 expression that subsequently promoted megakaryocyte differentiation. Our findings shed light on understanding the mechanisms underlying megakaryopoiesis or leukemogenesis.
引言
基因表达改变与白血病发展同时发生,可能影响白血病细胞的不同特征。PITHD1在白血病中显著下调,而在经历巨核细胞分化的K562细胞中经佛波酯(PMA)诱导后上调。我们旨在研究PITHD1在巨核细胞分化中的功能。
材料与方法
使用K562细胞和胎肝细胞,通过逆转录病毒或慢病毒转导来上调或下调PITHD1。采用荧光激活细胞分选术(FACS)检测CD41和CD42的表达,以测量这些细胞中的巨核细胞分化。使用蛋白质免疫印迹法(Western blot)和定量逆转录聚合酶链反应(qRT-PCR)测量基因表达。使用双荧光素酶测定法检测启动子或内部核糖体进入位点(IRES)活性。
结果
PITHD1的异位表达促进了巨核细胞分化并增加了RUNX1的表达,而PITHD1基因敲低则表现出相反的表型。此外,PITHD1有效诱导内源性RUNX1表达,并恢复了由RUNX1显性阴性形式抑制的巨核细胞分化。PITHD1至少通过两种不同机制调节RUNX1表达:增加近端启动子的转录活性和增强外显子3中IRES元件的翻译活性。最后,我们在小鼠胎肝细胞中证实了PITHD1在调节RUNX1表达和巨核细胞生成中的功能。
结论与意义
PITHD1是IRES的新型激活剂,增强了RUNX1表达,随后促进了巨核细胞分化。我们的研究结果有助于理解巨核细胞生成或白血病发生的潜在机制。
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