缺乏Fbw7 F-box蛋白的小鼠心血管发育缺陷及细胞周期蛋白E和Notch蛋白水平升高。

Defective cardiovascular development and elevated cyclin E and Notch proteins in mice lacking the Fbw7 F-box protein.

作者信息

Tetzlaff Michael T, Yu Wei, Li Mamie, Zhang Pumin, Finegold Milton, Mahon Kathleen, Harper J Wade, Schwartz Robert J, Elledge Stephen J

机构信息

Department of Human and Molecular Genetics, Texas Children's Hospital, Houston, TX 77030, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Mar 9;101(10):3338-45. doi: 10.1073/pnas.0307875101. Epub 2004 Feb 6.

DOI:10.1073/pnas.0307875101

PMID:14766969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC373463/

Abstract

The mammalian F-box protein Fbw7 and its Caenorhabditis elegans counterpart Sel-10 have been implicated in the ubiquitin-mediated turnover of cyclin E as well as the Notch/Lin-12 family of transcriptional activators. Both unregulated Notch and cyclin E promote tumorigenesis, and inactivating mutations in human Fbw7 suggest that it may be a tumor suppressor. To generate an in vivo system to assess the consequences of such unregulated signaling, we generated mice deficient for Fbw7. Fbw7-null mice die around 10.5 days post coitus because of a combination of deficiencies in hematopoietic and vascular development and heart chamber maturation. The absence of Fbw7 results in elevated levels of cyclin E, concurrent with inappropriate DNA replication in placental giant trophoblast cells. Moreover, the levels of both Notch 1 and Notch 4 intracellular domains were elevated, leading to stimulation of downstream transcriptional pathways involving Hes1, Herp1, and Herp2. These data suggest essential functions for Fbw7 in controlling cyclin E and Notch signaling pathways in the mouse.

摘要

哺乳动物的F-box蛋白Fbw7及其秀丽隐杆线虫的对应物Sel-10已被证明参与泛素介导的细胞周期蛋白E的周转以及Notch/Lin-12转录激活因子家族。不受调控的Notch和细胞周期蛋白E都促进肿瘤发生，人类Fbw7的失活突变表明它可能是一种肿瘤抑制因子。为了建立一个体内系统来评估这种不受调控的信号传导的后果，我们培育了Fbw7基因缺失的小鼠。Fbw7基因缺失的小鼠在交配后约10.5天死亡，原因是造血和血管发育以及心腔成熟存在缺陷。Fbw7的缺失导致细胞周期蛋白E水平升高，同时胎盘巨大滋养层细胞中出现不适当的DNA复制。此外，Notch 1和Notch 4细胞内结构域的水平都升高，导致涉及Hes1、Herp1和Herp2的下游转录途径受到刺激。这些数据表明Fbw7在控制小鼠细胞周期蛋白E和Notch信号通路中具有重要功能。

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