Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
about
Mitral valve disease--morphology and mechanisms.Regulation of valve endothelial cell vasculogenic network architectures with ROCK and Rac inhibitors.Ligand-specific function of transforming growth factor beta in epithelial-mesenchymal transition in heart developmentFine-tuning vascular fate during endothelial-mesenchymal transition.Thymosin beta4 regulates cardiac valve formation via endothelial-mesenchymal transformation in zebrafish embryos.Differential functions of genes regulated by VEGF-NFATc1 signaling pathway in the migration of pulmonary valve endothelial cellsDrosophila Abelson kinase mediates cell invasion and proliferation through two distinct MAPK pathways.Loss of β-catenin promotes chondrogenic differentiation of aortic valve interstitial cellsCyclic strain induces dual-mode endothelial-mesenchymal transformation of the cardiac valve.Laminin Peptide-Immobilized Hydrogels Modulate Valve Endothelial Cell Hemostatic Regulation.Valvular interstitial cells suppress calcification of valvular endothelial cells.Inflammatory cytokines promote mesenchymal transformation in embryonic and adult valve endothelial cellsThe contribution of cellular mechanotransduction to cardiomyocyte form and function.Cardiac repair and regeneration: the Rubik's cube of cell therapy for heart disease.Active adaptation of the tethered mitral valve: insights into a compensatory mechanism for functional mitral regurgitation.Heterogeneous susceptibility of valve endothelial cells to mesenchymal transformation in response to TNFα.Progenitor cells confer plasticity to cardiac valve endothelium.Alternative origins of stroma in normal organs and disease.Mitral valve endothelial cells with osteogenic differentiation potential.Soluble VEGFR1 reverses BMP2 inhibition of intramembranous ossification during healing of cortical bone defects.Silencing of hHS6ST2 inhibits progression of pancreatic cancer through inhibition of Notch signalling.Long form of latent TGF-β binding protein 1 (Ltbp1L) regulates cardiac valve development.Mesenchymal state of intimal cells may explain higher propensity to ascending aortic aneurysm in bicuspid aortic valves.Developmental vascular regression is regulated by a Wnt/β-catenin, MYC, P21 (CDKN1A) pathway that controls cell proliferation and cell death.Cross Talk between NOTCH Signaling and Biomechanics in Human Aortic Valve Disease Pathogenesis.
P2860
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P2860
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@en
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@nl
type
label
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@en
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@nl
prefLabel
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@en
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@nl
P2860
P1476
Opposing actions of Notch1 and VEGF in post-natal cardiac valve endothelial cells
@en
P2093
Jeong-Hee Yang
Jill Wylie-Sears
P2860
P304
P356
10.1016/J.BBRC.2008.07.057
P407
P577
2008-07-21T00:00:00Z