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Alternative Runx1 promoter usage in mouse developmental hematopoiesis.小鼠发育性造血过程中Runx1启动子的交替使用
Blood Cells Mol Dis. 2009 Jul-Aug;43(1):35-42. doi: 10.1016/j.bcmd.2009.03.011. Epub 2009 May 21.
2
A genetic screen in zebrafish defines a hierarchical network of pathways required for hematopoietic stem cell emergence.斑马鱼中的一项基因筛选确定了造血干细胞出现所需的分级信号通路网络。
Blood. 2009 Jun 4;113(23):5776-82. doi: 10.1182/blood-2008-12-193607. Epub 2009 Mar 30.
3
Runx1 is required for the endothelial to haematopoietic cell transition but not thereafter.Runx1对于内皮细胞向造血细胞的转变是必需的,但在此之后则不是。
Nature. 2009 Feb 12;457(7231):887-91. doi: 10.1038/nature07619. Epub 2009 Jan 7.
4
Runx expression is mitogenic and mutually linked to Wnt activity in blastula-stage sea urchin embryos.Runx基因的表达具有促有丝分裂作用,并且与囊胚期海胆胚胎中的Wnt活性相互关联。
PLoS One. 2008;3(11):e3770. doi: 10.1371/journal.pone.0003770. Epub 2008 Nov 20.
5
Notch signaling mediates G1/S cell-cycle progression in T cells via cyclin D3 and its dependent kinases.Notch信号通路通过细胞周期蛋白D3及其依赖的激酶介导T细胞中G1/S期细胞周期进程。
Blood. 2009 Feb 19;113(8):1689-98. doi: 10.1182/blood-2008-03-147967. Epub 2008 Nov 10.
6
Methylation of RUNX1 by PRMT1 abrogates SIN3A binding and potentiates its transcriptional activity.PRMT1对RUNX1的甲基化作用消除了SIN3A的结合,并增强了其转录活性。
Genes Dev. 2008 Mar 1;22(5):640-53. doi: 10.1101/gad.1632608.
7
GSK-3beta regulates cyclin D1 expression: a new target for chemotherapy.糖原合成酶激酶-3β调节细胞周期蛋白D1的表达:化疗的新靶点。
Cell Signal. 2008 Apr;20(4):581-9. doi: 10.1016/j.cellsig.2007.10.018. Epub 2007 Oct 23.
8
Cyclin-dependent kinase phosphorylation of RUNX1/AML1 on 3 sites increases transactivation potency and stimulates cell proliferation.细胞周期蛋白依赖性激酶对RUNX1/AML1三个位点的磷酸化作用增强了反式激活能力并刺激细胞增殖。
Blood. 2008 Feb 1;111(3):1193-200. doi: 10.1182/blood-2007-08-109702. Epub 2007 Nov 14.
9
The C. elegans CBFbeta homologue BRO-1 interacts with the Runx factor, RNT-1, to promote stem cell proliferation and self-renewal.秀丽隐杆线虫的CBFβ同源物BRO-1与Runx因子RNT-1相互作用,以促进干细胞增殖和自我更新。
Development. 2007 Nov;134(21):3905-15. doi: 10.1242/dev.008276.
10
The human Mi-2/NuRD complex and gene regulation.人类Mi-2/NuRD复合物与基因调控。
Oncogene. 2007 Aug 13;26(37):5433-8. doi: 10.1038/sj.onc.1210611.

RUNX1 的磷酸化由细胞周期蛋白依赖性激酶介导,从而减少了与 HDAC1 和 HDAC3 的直接相互作用。

Phosphorylation of RUNX1 by cyclin-dependent kinase reduces direct interaction with HDAC1 and HDAC3.

机构信息

Division of Pediatric Oncology, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21231, USA.

出版信息

J Biol Chem. 2011 Jan 7;286(1):208-15. doi: 10.1074/jbc.M110.149013. Epub 2010 Nov 8.

DOI:10.1074/jbc.M110.149013
PMID:21059642
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3012976/
Abstract

RUNX1 regulates formation of the definitive hematopoietic stem cell and its subsequent lineage maturation, and mutations of RUNX1 contribute to leukemic transformation. Phosphorylation of Ser-48, Ser-303, and Ser-424 by cyclin-dependent kinases (cdks) increases RUNX1 trans-activation activity without perturbing p300 interaction. We now find that endogenous RUNX1 interacts with endogenous HDAC1 or HDAC3. Mutation of the three RUNX1 serines to aspartic acid reduces co-immunoprecipitation with HDAC1 or HDAC3 when expressed in 293T cells; mutation of these three serines to alanine increases HDAC interaction, and mutation of each serine individually to aspartic acid also reduces these interactions. GST-RUNX1 isolated from bacterial extracts bound in vitro translated HDAC1 or HDAC3, and these interactions were weakened by mutation of Ser-48, Ser-303, and Ser-424 to aspartic acid. The ability of RUNX1 phosphorylation and not only serine to aspartic acid conversion to reduce HDAC1 binding was demonstrated using wild-type GST-RUNX1 phosphorylated in vitro using cdk1/cyclinB and by exposure of 293T cells transduced with RUNX1 and HDAC1 to roscovitine, a cdk inhibitor. Finally, RUNX1 or RUNX1(tripleD), in which Ser-48, Ser-303, and Ser-424 are mutated to aspartic acid, stimulated proliferation of transduced, lineage-negative murine marrow progenitors more potently than did RUNX1(tripleA), in which these serines are mutated to alanine, suggesting that stimulation of RUNX1 trans-activation by cdk-mediated reduction in HDAC interaction increases marrow progenitor cell proliferation.

摘要

RUNX1 调节确定性造血干细胞的形成及其随后的谱系成熟,RUNX1 的突变导致白血病转化。细胞周期蛋白依赖性激酶(cdks)对丝氨酸 48、丝氨酸 303 和丝氨酸 424 的磷酸化增加了 RUNX1 的转录激活活性,而不会干扰 p300 的相互作用。我们现在发现内源性 RUNX1 与内源性 HDAC1 或 HDAC3 相互作用。在 293T 细胞中表达时,将这三个 RUNX1 丝氨酸突变为天冬氨酸会减少与 HDAC1 或 HDAC3 的共免疫沉淀;将这三个丝氨酸突变为丙氨酸会增加 HDAC 相互作用,而将每个丝氨酸单独突变为天冬氨酸也会减少这些相互作用。从细菌提取物中分离出的 GST-RUNX1 在体外与翻译的 HDAC1 或 HDAC3 结合,这些相互作用通过将丝氨酸 48、丝氨酸 303 和丝氨酸 424 突变为天冬氨酸而减弱。使用体外使用 cdk1/细胞周期蛋白 B 磷酸化的野生型 GST-RUNX1 以及用 RUNX1 和 HDAC1 转导的 293T 细胞暴露于 roscovitine(一种 cdk 抑制剂)来证明 RUNX1 磷酸化而不仅仅是丝氨酸到天冬氨酸转换减少 HDAC1 结合的能力。最后,与将这些丝氨酸突变为丙氨酸的 RUNX1(tripleA)相比,将丝氨酸 48、丝氨酸 303 和丝氨酸 424 突变为天冬氨酸的 RUNX1(tripleD)更有效地刺激转导的、谱系阴性的鼠骨髓祖细胞的增殖,表明 cdk 介导的减少 HDAC 相互作用增强了 RUNX1 的转录激活,从而增加了骨髓祖细胞的增殖。