Ravet Emmanuel, Reynaud Damien, Titeux Monique, Izac Brigitte, Fichelson Serge, Roméo Paul-Henri, Dubart-Kupperschmitt Anne, Pflumio Françoise
Department of Hematology, Institut Cochin, U567 INSERM, Paris, France.
Blood. 2004 May 1;103(9):3326-35. doi: 10.1182/blood-2003-05-1689. Epub 2004 Jan 8.
The transcription factor TAL1 has major functions during embryonic hematopoiesis and in adult erythropoiesis and megakaryocytopoiesis. These functions rely on different TAL1 structural domains that are responsible for dimerization, transactivation, and DNA binding. Previous work, most often done in mice, has shown that some TAL1 functions do not require DNA binding. To study the role of TAL1 and the relevance of the TAL1 DNA-binding domain in human erythropoiesis, we developed an approach that allows an efficient enforced wild-type or mutant TAL1 protein expression in human hematopoietic CD34(+) cells using a lentiviral vector. Differentiation capacities of the transduced cells were studied in a culture system that distinguishes early and late erythroid development. Results indicate that enforced TAL1 expression enhances long-term culture initiating cell (LTC-IC) potential and erythroid differentiation of human CD34(+) cells as shown by increased beta globin and porphobilinogen deaminase (PBGD) gene expressions and erythroid colony-forming units (CFU-Es), erythroid burst-forming units (BFU-Es), and glycophorin A-positive (GPA(+)) cell productions. Enforced expression of a TAL1 protein deleted of its DNA-binding domain (named Delta bTAL1) mimicked most TAL1 effects except for the LTC-IC enhancement, the down-regulation of the CD34 surface marker, and the GPA(+) cell production. These results provide the first functional indications of DNA-binding-dependent and -independent roles of TAL1 in human erythropoiesis.
转录因子TAL1在胚胎造血过程以及成人红细胞生成和巨核细胞生成中发挥着重要作用。这些功能依赖于不同的TAL1结构域,这些结构域负责二聚化、反式激活和DNA结合。以往的研究工作大多是在小鼠身上进行的,结果表明某些TAL1功能并不需要DNA结合。为了研究TAL1的作用以及TAL1 DNA结合结构域在人类红细胞生成中的相关性,我们开发了一种方法,该方法可利用慢病毒载体在人类造血CD34(+)细胞中高效强制表达野生型或突变型TAL1蛋白。在一个区分早期和晚期红系发育的培养系统中研究了转导细胞的分化能力。结果表明,强制表达TAL1可增强人类CD34(+)细胞的长期培养起始细胞(LTC-IC)潜能和红系分化,这表现为β珠蛋白和胆色素原脱氨酶(PBGD)基因表达增加,以及红系集落形成单位(CFU-E)、红系爆式集落形成单位(BFU-E)和血型糖蛋白A阳性(GPA(+))细胞产量增加。强制表达缺失其DNA结合结构域的TAL1蛋白(命名为ΔbTAL1)模拟了大多数TAL1的作用,但LTC-IC增强、CD34表面标志物下调和GPA(+)细胞产生除外。这些结果首次提供了TAL1在人类红细胞生成中依赖DNA结合和不依赖DNA结合作用的功能指征。
