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K-ras/PI3K-Akt信号通路对于斑马鱼的造血作用和血管生成至关重要。

K-ras/PI3K-Akt signaling is essential for zebrafish hematopoiesis and angiogenesis.

作者信息

Liu Lihui, Zhu Shizhen, Gong Zhiyuan, Low Boon Chuan

机构信息

Department of Biological Sciences, Cell Signaling and Developmental Biology Laboratory, The National University of Singapore, Singapore, The Republic of Singapore.

出版信息

PLoS One. 2008 Aug 6;3(8):e2850. doi: 10.1371/journal.pone.0002850.

DOI:10.1371/journal.pone.0002850
PMID:18682746
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2483249/
Abstract

The RAS small GTPases orchestrate multiple cellular processes. Studies on knock-out mice showed the essential and sufficient role of K-RAS, but not N-RAS and H-RAS in embryonic development. However, many physiological functions of K-RAS in vivo remain unclear. Using wild-type and fli1:GFP transgenic zebrafish, we showed that K-ras-knockdown resulted in specific hematopoietic and angiogenic defects, including the impaired expression of erythroid-specific gene gata1 and sse3-hemoglobin, reduced blood circulation and disorganized blood vessels. Expression of either K-rasC40 that links to phosphoinositide 3-kinase (PI3K) activation, or Akt2 that acts downstream of PI3K, could rescue both hematopoietic and angiogenic defects in the K-ras knockdown. Consistently, the functional rescue by k-ras mRNA was significantly suppressed by wortmannin, a PI3K-specific inhibitor. Our results provide direct evidence that PI3K-Akt plays a crucial role in mediating K-ras signaling during hematopoiesis and angiogenesis in vivo, thus offering new targets and alternative vertebrate model for studying these processes and their related diseases.

摘要

RAS小GTP酶调控多种细胞过程。对基因敲除小鼠的研究表明,K-RAS在胚胎发育中具有重要且充分的作用,但N-RAS和H-RAS并非如此。然而,K-RAS在体内的许多生理功能仍不清楚。利用野生型和fli1:GFP转基因斑马鱼,我们发现敲低K-ras会导致特定的造血和血管生成缺陷,包括红系特异性基因gata1和sse3-血红蛋白的表达受损、血液循环减少以及血管紊乱。与磷酸肌醇3激酶(PI3K)激活相关的K-rasC40或PI3K下游的Akt2的表达,均可挽救K-ras敲低所致的造血和血管生成缺陷。同样,PI3K特异性抑制剂渥曼青霉素可显著抑制k-ras mRNA的功能挽救作用。我们的结果提供了直接证据,表明PI3K-Akt在体内造血和血管生成过程中介导K-ras信号传导中起关键作用,从而为研究这些过程及其相关疾病提供了新的靶点和替代脊椎动物模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3f33/2483249/2d6f27c2a2ec/pone.0002850.g001.jpg

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