Department of Molecular Physiology, National Cerebral and Cardiovascular Center Research Institute, 5-7-1 Fujishiro-dai, Suita, Osaka, 565-8565, Japan.
Graduate School of Medical Sciences, Nara Medical University, Kashihara, Nara, Japan.
Angiogenesis. 2018 May;21(2):415-423. doi: 10.1007/s10456-018-9605-x. Epub 2018 Feb 24.
Bone morphogenetic protein 9 (BMP9)/BMP10-ALK1 receptor signaling is essential for endothelial differentiation and vascular morphogenesis. Mutations in ALK1/ACVRL1 and other signal-related genes are implicated in human vascular diseases, and the Alk1/Acvrl1 deletion in mice causes severe impairment of vascular formation and embryonic lethality. In the microarray screen to search for novel downstream genes of ALK1 signaling, we found that the mRNA and protein expression of serum/glucocorticoid-regulated kinase 1 (SGK1) was rapidly up-regulated by the BMP9 stimulation of cultured human endothelial cells. The increase in SGK1 mRNA was completely blocked by the transcriptional inhibitor actinomycin D and significantly suppressed by the siRNA treatment against the co-SMAD transcription factor SMAD4. Upon the BMP9 treatment of endothelial cells, phosphorylated SMAD1/5/9 bound to a consensus site upstream of the SGK1 gene, which was necessary for BMP9-dependent increment of the luciferase reporter activity driven by the SGK1 proximal enhancer. The Sgk1 mRNA expression in mouse embryos was enriched in vascular endothelial cells at embryonic day 9.0-9.5, at which Sgk1 null mice showed embryonic lethality due to abnormal vascular formation, and its mRNA as well as protein expression was clearly reduced in Alk1/Acvrl1 null embryos. These results indicate that SGK1 is a novel target gene of BMP9/BMP10-ALK1 signaling in endothelial cells and further suggest a possibility that down-regulation of the Sgk1 expression may be involved in the mechanisms of vascular defects by the ALK1 signaling deficiency.
骨形态发生蛋白 9(BMP9)/BMP10-ALK1 受体信号对于内皮细胞分化和血管形态发生至关重要。ALK1/ACVRL1 及其他信号相关基因突变与人类血管疾病有关,而 Alk1/Acvrl1 缺失的小鼠则导致严重的血管形成障碍和胚胎致死。在寻找 ALK1 信号下游新基因的基因芯片筛选中,我们发现 BMP9 刺激培养的人内皮细胞后,SGK1 的 mRNA 和蛋白表达迅速上调。转录抑制剂放线菌素 D 完全阻断 SGK1mRNA 的增加,而针对共 SMAD 转录因子 SMAD4 的 siRNA 处理则显著抑制。在 BMP9 处理内皮细胞后,磷酸化的 SMAD1/5/9 与 SGK1 基因上游的一个共有序列结合,这是 BMP9 依赖性增强子驱动的 SGK1 荧光素酶报告基因活性所必需的。在胚胎第 9.0-9.5 天的小鼠胚胎中,Sgk1 mRNA 在血管内皮细胞中富集,而 Sgk1 缺失小鼠由于血管形成异常而出现胚胎致死,ALK1/Acvrl1 缺失胚胎中 Sgk1 的 mRNA 和蛋白表达明显降低。这些结果表明,SGK1 是内皮细胞中 BMP9/BMP10-ALK1 信号的一个新的靶基因,并进一步表明 Sgk1 表达的下调可能参与了 ALK1 信号缺陷导致的血管缺陷机制。
