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转录因子FLI-1与EKLF之间的功能性交叉拮抗作用。

Functional cross-antagonism between transcription factors FLI-1 and EKLF.

作者信息

Starck Joëlle, Cohet Nathalie, Gonnet Colette, Sarrazin Sandrine, Doubeikovskaia Zina, Doubeikovski Alexandre, Verger Alexis, Duterque-Coquillaud Martine, Morle François

机构信息

Centre de Génétique Moléculaire et Cellulaire, CNRS UMR 5534, 69622 Villeurbanne, France.

出版信息

Mol Cell Biol. 2003 Feb;23(4):1390-402. doi: 10.1128/MCB.23.4.1390-1402.2003.

DOI:10.1128/MCB.23.4.1390-1402.2003
PMID:12556498
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC141137/
Abstract

FLI-1 is an ETS family transcription factor which is overexpressed in Friend erythroleukemia and contributes to the blockage of differentiation of erythroleukemic cells. We show here that FLI-1 represses the transcriptional activity of the beta-globin gene promoter in MEL cells and interacts with two of its critical transactivators, GATA-1 and EKLF. Unexpectedly, FLI-1 enhances the stimulating activity of GATA-1 on a GATA-1-responsive promoter but represses that of EKLF on beta-globin and an EKLF-responsive artificial promoters. This repressive effect of FLI-1 requires the ETS DNA binding domain and its association with either the N- or C-terminal domain, which themselves interact with EKLF but not with GATA-1. Furthermore, the FLI-1 ETS domain alone behaves as an autonomous repression domain when linked to the Gal4 DNA binding domain. Taken together, these data indicate that FLI-1 represses EKLF-dependent transcription due to the repression activity of its ETS domain and its indirect recruitment to erythroid promoters by protein-protein interaction with EKLF. Reciprocally, we also show that EKLF itself represses the FLI-1-dependent megakaryocytic GPIX gene promoter, thus further suggesting that functional cross-antagonism between FLI-1 and EKLF might be involved in the control of the erythrocytic versus megakaryocytic differentiation of bipotential progenitors.

摘要

FLI-1是一种ETS家族转录因子,在Friend红白血病中过表达,并导致红白血病细胞分化受阻。我们在此表明,FLI-1在MEL细胞中抑制β-珠蛋白基因启动子的转录活性,并与两个关键的反式激活因子GATA-1和EKLF相互作用。出乎意料的是,FLI-1增强了GATA-1对GATA-1反应性启动子的刺激活性,但抑制了EKLF对β-珠蛋白和EKLF反应性人工启动子的刺激活性。FLI-1的这种抑制作用需要ETS DNA结合结构域及其与N端或C端结构域的结合,而N端或C端结构域本身与EKLF相互作用,但不与GATA-1相互作用。此外,当与Gal4 DNA结合结构域相连时,单独的FLI-1 ETS结构域表现为一个自主抑制结构域。综上所述,这些数据表明,FLI-1抑制EKLF依赖的转录是由于其ETS结构域的抑制活性以及通过与EKLF的蛋白质-蛋白质相互作用间接募集到红系启动子上。相反,我们还表明,EKLF本身抑制FLI-依赖的巨核细胞GPIX基因启动子,因此进一步表明,FLI-1和EKLF之间的功能交叉拮抗可能参与了双能祖细胞红细胞与巨核细胞分化的控制。

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