Ghinassi Barbara, Verrucci Maria, Jelicic Katija, Di Noia Antonella, Migliaccio Giovanni, Migliaccio Anna Rita
Department of Hematology, Oncology and Molecular Medicine, Istituto Superiore Sanità, Rome, Italy.
Exp Hematol. 2007 May;35(5):735-47. doi: 10.1016/j.exphem.2007.02.007.
To characterize how interleukin-3 and erythropoietin regulate cell fate by modulating the expression of lineage-specific transcription factors.
This study analyzed mRNA and protein levels, gene transcription rates, and mRNA and protein stabilities of erythroid-specific transcription factors in lineage-restricted cells derived from the 32D cell line cultured either in interleukin-3 or erythropoietin.
Erythroid 32D subclones expressed levels of Idl, Gata-2, and Scl comparable and levels of Eklf and Gata-1 higher than those expressed by myeloid subclones. While maintained in interleukin-3, erythroid cells remained immature despite their high expression of Gata-1, Gata-2, Scl, Eklf, and Idl. Switching the erythroid cells to erythropoietin induced cell maturation (within 48 hours) and reduced expression of Gata-2 and Idl (in 24 hours) but did not alter the expression of Gata-1. The effects of interleukin-3 were mostly mediated by increases in transcription rates (Scl and Gata-2), and that of erythropoietin was apparently due to increased mRNA and protein (Gata-1, Scl, and Eklf) stability. In particular, erythropoietin increased the stability of the processed and transcriptionally more active form of GATA-1 protein.
These results suggest that interleukin-3 and erythropoietin cooperate to establish the lineage-specific transcription factor milieu of erythroid cells: interleukin-3 regulates mainly gene transcription and erythropoietin consistently increases mRNA and protein stability.
通过调节谱系特异性转录因子的表达来表征白细胞介素 - 3和促红细胞生成素如何调控细胞命运。
本研究分析了源自32D细胞系的谱系受限细胞中,在白细胞介素 - 3或促红细胞生成素培养条件下,红系特异性转录因子的mRNA和蛋白质水平、基因转录速率以及mRNA和蛋白质稳定性。
红系32D亚克隆表达的Idl、Gata - 2和Scl水平相当,Eklf和Gata - 1水平高于髓系亚克隆。在白细胞介素 - 3维持培养时,红系细胞尽管高表达Gata - 1、Gata - 2、Scl、Eklf和Idl,但仍保持未成熟状态。将红系细胞转换为促红细胞生成素培养可诱导细胞成熟(48小时内),并降低Gata - 2和Idl的表达(24小时内),但不改变Gata - 1的表达。白细胞介素 - 3的作用主要通过转录速率增加(Scl和Gata - 2)介导,而促红细胞生成素的作用显然是由于mRNA和蛋白质(Gata - 1、Scl和Eklf)稳定性增加。特别是,促红细胞生成素增加了加工后的、转录活性更高的GATA - 1蛋白的稳定性。
这些结果表明,白细胞介素 - 3和促红细胞生成素协同作用以建立红系细胞的谱系特异性转录因子环境:白细胞介素 - 3主要调节基因转录,促红细胞生成素持续增加mRNA和蛋白质稳定性。
