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本文引用的文献

1
ChIP-seq reveals cell type-specific binding patterns of BMP-specific Smads and a novel binding motif.ChIP-seq 揭示了 BMP 特异性 Smads 的细胞类型特异性结合模式和一个新的结合基序。
Nucleic Acids Res. 2011 Nov 1;39(20):8712-27. doi: 10.1093/nar/gkr572. Epub 2011 Jul 15.
2
Distinct signalling pathways regulate sprouting angiogenesis from the dorsal aorta and the axial vein.不同的信号通路调节背主动脉和中轴静脉的芽生血管生成。
Nat Cell Biol. 2011 Jun;13(6):686-92. doi: 10.1038/ncb2232. Epub 2011 May 15.
3
BMP signaling orchestrates photoreceptor specification in the zebrafish pineal gland in collaboration with Notch.BMP 信号与 Notch 协同作用,调控斑马鱼松果腺中的感光细胞特化。
Development. 2011 Jun;138(11):2293-302. doi: 10.1242/dev.060988.
4
Targeting activin receptor-like kinase 1 inhibits angiogenesis and tumorigenesis through a mechanism of action complementary to anti-VEGF therapies.靶向激活素受体样激酶 1 通过与抗 VEGF 治疗作用机制互补的方式抑制血管生成和肿瘤发生。
Cancer Res. 2011 Feb 15;71(4):1362-73. doi: 10.1158/0008-5472.CAN-10-1451. Epub 2011 Jan 6.
5
Endothelial cells dynamically compete for the tip cell position during angiogenic sprouting.内皮细胞在血管生成芽生过程中动态竞争尖端细胞位置。
Nat Cell Biol. 2010 Oct;12(10):943-53. doi: 10.1038/ncb2103. Epub 2010 Sep 26.
6
Dynamics of endothelial cell behavior in sprouting angiogenesis.血管生成中内皮细胞行为的动力学。
Curr Opin Cell Biol. 2010 Oct;22(5):617-25. doi: 10.1016/j.ceb.2010.08.010.
7
Signaling by members of the TGF-beta family in vascular morphogenesis and disease.TGF-β 家族成员在血管形态发生和疾病中的信号转导。
Trends Cell Biol. 2010 Sep;20(9):556-67. doi: 10.1016/j.tcb.2010.06.006. Epub 2010 Jul 23.
8
Hes1 regulates embryonic stem cell differentiation by suppressing Notch signaling.Hes1 通过抑制 Notch 信号通路来调节胚胎干细胞分化。
Genes Cells. 2010 Jun;15(7):689-98. doi: 10.1111/j.1365-2443.2010.01413.x. Epub 2010 Jun 10.
9
Tipping the balance: robustness of tip cell selection, migration and fusion in angiogenesis.打破平衡:血管生成中尖端细胞选择、迁移和融合的稳健性。
PLoS Comput Biol. 2009 Oct;5(10):e1000549. doi: 10.1371/journal.pcbi.1000549. Epub 2009 Oct 30.
10
The cyclic gene Hes1 contributes to diverse differentiation responses of embryonic stem cells.环状基因Hes1有助于胚胎干细胞产生多种分化反应。
Genes Dev. 2009 Aug 15;23(16):1870-5. doi: 10.1101/gad.1823109.

肌成纤维细胞表型取决于 Notch 和 Smad1/5 信号级联的整合。

Stalk cell phenotype depends on integration of Notch and Smad1/5 signaling cascades.

机构信息

VIB11 Center for the Biology of Disease, Laboratory of Developmental Signaling, VIB and Center for Human Genetics, KU Leuven, 3000 Leuven, Belgium.

出版信息

Dev Cell. 2012 Mar 13;22(3):501-14. doi: 10.1016/j.devcel.2012.01.007. Epub 2012 Feb 23.

DOI:10.1016/j.devcel.2012.01.007
PMID:22364862
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4544746/
Abstract

Gradients of vascular endothelial growth factor (VEGF) induce single endothelial cells to become leading tip cells of emerging angiogenic sprouts. Tip cells then suppress tip-cell features in adjacent stalk cells via Dll4/Notch-mediated lateral inhibition. We report here that Smad1/Smad5-mediated BMP signaling synergizes with Notch signaling during selection of tip and stalk cells. Endothelium-specific inactivation of Smad1/Smad5 in mouse embryos results in impaired Dll4/Notch signaling and increased numbers of tip-cell-like cells at the expense of stalk cells. Smad1/5 downregulation in cultured endothelial cells reduced the expression of several target genes of Notch and of other stalk-cell-enriched transcripts (Hes1, Hey1, Jagged1, VEGFR1, and Id1-3). Moreover, Id proteins act as competence factors for stalk cells and form complexes with Hes1, which augment Hes1 levels in the endothelium. Our findings provide in vivo evidence for a regulatory loop between BMP/TGFβ-Smad1/5 and Notch signaling that orchestrates tip- versus stalk-cell selection and vessel plasticity.

摘要

血管内皮生长因子(VEGF)梯度诱导单个内皮细胞成为新出现的血管生成芽的领先尖端细胞。然后,尖端细胞通过 Dll4/Notch 介导的侧向抑制来抑制相邻茎细胞中的尖端细胞特征。我们在这里报告,Smad1/Smad5 介导的 BMP 信号与 Notch 信号在尖端和茎细胞的选择过程中协同作用。在小鼠胚胎中特异性敲除 Smad1/Smad5 会导致 Dll4/Notch 信号受损,并增加尖端细胞样细胞的数量,而牺牲茎细胞。在培养的内皮细胞中下调 Smad1/5 会降低 Notch 的几个靶基因和其他富含茎细胞的转录本(Hes1、Hey1、Jagged1、VEGFR1 和 Id1-3)的表达。此外,Id 蛋白作为茎细胞的竞争因子,并与 Hes1 形成复合物,从而增加内皮细胞中的 Hes1 水平。我们的发现为 BMP/TGFβ-Smad1/5 和 Notch 信号之间的调节环提供了体内证据,该调节环协调尖端细胞与茎细胞的选择和血管可塑性。