Sox17下游基因Rasip1参与妊娠中期小鼠胚胎主动脉内造血簇的造血活性。 - Suppr | 超能文献

BACKGROUND

During mouse embryonic development, definitive hematopoiesis is first detected around embryonic day (E) 10.5 in the aorta-gonad-mesonephros (AGM) region. Hematopoietic stem cells (HSCs) arise in the dorsal aorta's intra-aortic hematopoietic cell clusters (IAHCs). We have previously reported that a transcription factor Sox17 is expressed in IAHCs, and that, among them, CD45c-Kit cells have high hematopoietic activity. Furthermore, forced expression of Sox17 in this population of cells can maintain the formation of hematopoietic cell clusters. However, how Sox17 does so, particularly downstream signaling involved, remains poorly understood. The purpose of this study is to search for new Sox17 targets which contribute to cluster formation with hematopoietic activity.

METHODS

RNA-sequencing (RNA-seq) analysis was done to identify genes that are upregulated in Sox17-expressing IAHCs as compared with Sox17-negative ones. Among the top 7 highly expressed genes, Rasip1 which had been reported to be a vascular-specific regulator was focused on in this study, and firstly, the whole-mount immunostaining was done. We conducted luciferase reporter assay and chromatin immunoprecipitation (ChIP) assay to examine whether Sox17 regulates Rasip1 gene expression via binding to its enhancer element. We also analyzed the cluster formation and the multilineage colony-forming ability of Rasip1-transduced cells and Rasip1-knockdown Sox17-transduced cells.

RESULTS

The increase of the Rasip1 expression level was observed in Sox17-positive CD45c-Kit cells as compared with the Sox17-nonexpressing control. Also, the expression level of the Rasip1 gene was increased by the Sox17-nuclear translocation. Rasip1 was expressed on the membrane of IAHCs, overlapping with the endothelial cell marker, CD31, and hematopoietic stem/progenitor marker (HSPC), c-Kit. Rasip1 expression was observed in most part of c-KitSox17 cells in IAHCs. Luciferase reporter assay and ChIP assay indicated that one of the five putative Sox17-binding sites in the Rasip1 enhancer region was important for Rasip1 expression via Sox17 binding. Rasip1 knockdown in Sox17-transduced cells decreased the cluster formation and diminished the colony-forming ability, while overexpression of Rasip1 in CD45c-Kit cells led to a significant but transient increase in hematopoietic activity.

CONCLUSIONS

Rasip1 knockdown in Sox17-transduced CD45c-Kit cells displayed a significant decrease in the multilineage colony-forming ability and the cluster size. Rasip1 overexpression in Sox17-untransduced CD45c-Kit cells led to a significant but transient increase in the multilineage colony-forming ability, suggesting the presence of a cooperating factor for sustained hematopoietic activity.

摘要

背景

在小鼠胚胎发育过程中，约在胚胎第10.5天，在主动脉 - 性腺 - 中肾（AGM）区域首次检测到确定性造血。造血干细胞（HSCs）出现在背主动脉的主动脉内造血细胞簇（IAHCs）中。我们之前报道过转录因子Sox17在IAHCs中表达，其中CD45c - Kit细胞具有高造血活性。此外，在这群细胞中强制表达Sox17可维持造血细胞簇的形成。然而，Sox17如何做到这一点，特别是涉及的下游信号通路，仍知之甚少。本研究的目的是寻找有助于形成具有造血活性的细胞簇的新Sox17靶点。

方法

进行RNA测序（RNA - seq）分析，以鉴定与Sox17阴性的IAHCs相比，在表达Sox17的IAHCs中上调的基因。在7个高表达基因中，本研究聚焦于已报道为血管特异性调节因子的Rasip1，首先进行了全胚胎免疫染色。我们进行了荧光素酶报告基因检测和染色质免疫沉淀（ChIP）检测，以检查Sox17是否通过结合其增强子元件来调节Rasip1基因表达。我们还分析了转导Rasip1的细胞和敲低Rasip1的Sox17转导细胞的细胞簇形成和多系集落形成能力。

结果

与不表达Sox17的对照相比，在Sox17阳性的CD45c - Kit细胞中观察到Rasip1表达水平增加。此外，Sox17核转位使Rasip1基因表达水平升高。Rasip1在IAHCs的细胞膜上表达，与内皮细胞标志物CD31和造血干/祖细胞标志物（HSPC）c - Kit重叠。在IAHCs中大多数c - KitSox17细胞中观察到Rasip1表达。荧光素酶报告基因检测和ChIP检测表明，Rasip1增强子区域中五个推定的Sox17结合位点之一对于通过Sox17结合实现Rasip1表达很重要。在Sox17转导的细胞中敲低Rasip1会降低细胞簇形成并减弱集落形成能力，而在CD45c - Kit细胞中过表达Rasip1会导致造血活性显著但短暂增加。

结论

在Sox17转导的CD45c - Kit细胞中敲低Rasip1显示多系集落形成能力和细胞簇大小显著降低。在未转导Sox17的CD45c - Kit细胞中过表达Rasip1会导致多系集落形成能力显著但短暂增加，这表明存在持续造血活性的协同因子。