正基因间反馈回路，涉及 EBF1 和 FOXO1，协调 B 细胞命运。

Positive intergenic feedback circuitry, involving EBF1 and FOXO1, orchestrates B-cell fate.

机构信息

Department of Molecular Biology, University of California at San Diego, La Jolla, CA 92093, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 Dec 18;109(51):21028-33. doi: 10.1073/pnas.1211427109. Epub 2012 Dec 4.

DOI:10.1073/pnas.1211427109

PMID:23213261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3529039/

Abstract

Recent studies have identified a number of transcriptional regulators, including E2A, early B-cell factor 1 (EBF1), FOXO1, and paired box gene 5 (PAX5), that promote early B-cell development. However, how this ensemble of regulators mechanistically promotes B-cell fate remains poorly understood. Here we demonstrate that B-cell development in FOXO1-deficient mice is arrested in the common lymphoid progenitor (CLP) LY6D(+) cell stage. We demonstrate that this phenotype closely resembles the arrest in B-cell development observed in EBF1-deficient mice. Consistent with these observations, we find that the transcription signatures of FOXO1- and EBF1-deficient LY6D(+) progenitors are strikingly similar, indicating a common set of target genes. Furthermore, we found that depletion of EBF1 expression in LY6D(+) CLPs severely affects FOXO1 mRNA abundance, whereas depletion of FOXO1 activity in LY6D(+) CLPs ablates EBF1 transcript levels. We generated a global regulatory network from EBF1 and FOXO1 genome-wide transcription factor occupancy and transcription signatures derived from EBF1- and FOXO1-deficient CLPs. This analysis reveals that EBF1 and FOXO1 act in a positive feedback circuitry to promote and stabilize specification to the B-cell lineage.

摘要

最近的研究已经确定了许多转录调节因子，包括 E2A、早期 B 细胞因子 1（EBF1）、FOXO1 和配对盒基因 5（PAX5），它们促进早期 B 细胞发育。然而，这个调节因子组合如何在机制上促进 B 细胞命运仍然知之甚少。在这里，我们证明 FOXO1 缺陷小鼠中的 B 细胞发育在共同淋巴祖细胞（CLP）LY6D(+)细胞阶段被阻断。我们证明这种表型与 EBF1 缺陷小鼠中观察到的 B 细胞发育阻滞非常相似。与这些观察结果一致，我们发现 FOXO1 和 EBF1 缺陷 LY6D(+)祖细胞的转录特征非常相似，表明存在一组共同的靶基因。此外，我们发现 LY6D(+) CLPs 中 EBF1 表达的耗竭严重影响 FOXO1 mRNA 丰度，而 LY6D(+) CLPs 中 FOXO1 活性的耗竭则使 EBF1 转录本水平失活。我们从 EBF1 和 FOXO1 缺失的 CLPs 衍生的 EBF1 和 FOXO1 全基因组转录因子占据和转录特征生成了一个全局调控网络。该分析表明，EBF1 和 FOXO1 以正反馈电路的形式作用，以促进和稳定向 B 细胞谱系的特化。

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