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伊卡洛斯蛋白在T细胞发育过程中抑制对Notch信号通路的转录反应。

Ikaros represses the transcriptional response to Notch signaling in T-cell development.

作者信息

Kleinmann Eva, Geimer Le Lay Anne-Solen, Sellars MacLean, Kastner Philippe, Chan Susan

机构信息

Institut de Génétique et de Biologie Molééculaire et Cellulaire, Department of Cancer Biology, Illkirch F-67400, France.

出版信息

Mol Cell Biol. 2008 Dec;28(24):7465-75. doi: 10.1128/MCB.00715-08. Epub 2008 Oct 13.

DOI:10.1128/MCB.00715-08
PMID:18852286
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2593445/
Abstract

Notch activity is essential for early T-cell differentiation, but aberrant activity induces T-cell transformation. Thus, Notch target genes must be efficiently silenced in cells where Notch activity is no longer required. How these genes are repressed remains poorly understood. We report here that the Ikaros transcription factor plays a crucial role in repressing the transcriptional response to Notch signaling in T-cell development. Using the Notch target gene Hes-1 as a model, we show that Ikaros and RBP-Jkappa, the transcriptional mediator of Notch signaling, compete for binding to two elements in the Hes-1 promoter in immature thymocytes. This antagonistic interaction likely occurs at the CD4(-) CD8(-) CD3(-) double-negative 4 (DN4) stage, where Ikaros levels and binding to the Hes-1 promoter increase sharply and wild-type thymocytes lose their capacity to transcribe Hes-1 upon Notch stimulation. Nonresponsiveness to Notch signaling requires Ikaros, as Ikaros-deficient DN4 and CD4(+) CD8(+) double-positive (DP) cells remain competent to express Hes-1 after Notch activation. Further, Hes-1 promoter sequences from Ikaros-deficient DP cells show reduced trimethylated H3K27, a modification associated with silent chromatin. These results indicate that Ikaros functions as a transcriptional checkpoint to repress Notch target gene expression in T cells.

摘要

Notch活性对于早期T细胞分化至关重要,但异常活性会诱导T细胞转化。因此,在不再需要Notch活性的细胞中,Notch靶基因必须被有效沉默。这些基因如何被抑制仍知之甚少。我们在此报告,Ikaros转录因子在抑制T细胞发育过程中对Notch信号的转录反应中起关键作用。以Notch靶基因Hes-1为模型,我们表明Ikaros和Notch信号的转录介导因子RBP-Jkappa在未成熟胸腺细胞中竞争与Hes-1启动子中的两个元件结合。这种拮抗相互作用可能发生在CD4(-)CD8(-)CD3(-)双阴性4(DN4)阶段,此时Ikaros水平及其与Hes-1启动子的结合急剧增加,野生型胸腺细胞在Notch刺激后失去转录Hes-1的能力。对Notch信号无反应需要Ikaros,因为Ikaros缺陷的DN4和CD4(+)CD8(+)双阳性(DP)细胞在Notch激活后仍有能力表达Hes-1。此外,来自Ikaros缺陷DP细胞的Hes-1启动子序列显示三甲基化H3K27减少,这是一种与沉默染色质相关的修饰。这些结果表明,Ikaros作为转录检查点来抑制T细胞中Notch靶基因的表达。

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