Regulation of arterial-venous differences in tumor necrosis factor responsiveness of endothelial cells by anatomic context
about
Participation of blood vessel cells in human adaptive immune responsesEndomucin prevents leukocyte-endothelial cell adhesion and has a critical role under resting and inflammatory conditions.Role of Excessive Autophagy Induced by Mechanical Overload in Vein Graft Neointima Formation: Prediction and PreventionDirect-contact co-culture between smooth muscle and endothelial cells inhibits TNF-alpha-mediated endothelial cell activation.Effects of disturbed flow on vascular endothelium: pathophysiological basis and clinical perspectivesMEK5 is activated by shear stress, activates ERK5 and induces KLF4 to modulate TNF responses in human dermal microvascular endothelial cellsInnovations in studying in vivo cell behavior and pharmacology in complex tissues--microvascular endothelial cells in the spotlight.Venous endothelial injury in central nervous system diseasesFlow cessation triggers endothelial dysfunction during organ cold storage conditions: strategies for pharmacologic interventionHeterogenic endothelial responses to inflammation: role for differential N-glycosylation and vascular bed of origin.Targeted siRNA delivery to diseased microvascular endothelial cells: cellular and molecular concepts.Tannic acid as a plant-derived polyphenol exerts vasoprotection via enhancing KLF2 expression in endothelial cells.Endothelial Msx1 transduces hemodynamic changes into an arteriogenic remodeling responseHuman Organ Culture: Updating the Approach to Bridge the Gap from In Vitro to In Vivo in Inflammation, Cancer, and Stem Cell Biology.Leukocyte rolling and adhesion via ICAM-1 signals to endothelial permeability. Focus on "Leukocyte rolling and adhesion both contribute to regulation of microvascular permeability to albumin via ligation of ICAM-1".Suberanilohydroxamic Acid as a Pharmacological Kruppel-Like Factor 2 Activator That Represses Vascular Inflammation and Atherosclerosis.Ficoll-Paque versus Lymphoprep: a comparative study of two density gradient media for therapeutic bone marrow mononuclear cell preparations.
P2860
Q27021141-CEEF8C41-F7FD-40C2-A16A-82A634E2F7BEQ27335094-D2B5B2E6-64AB-4E21-86F5-3037B51B84D3Q27339530-BF8AA167-A12F-4E4C-8052-8FF8DF885B75Q34092833-8123FB7C-F850-405E-9CCE-A38E076BB924Q34159834-D4023CE6-90F7-42A3-ACCB-659594618509Q34787891-8A48ADC5-EA81-4025-AAA5-19899D923F98Q35000486-7B9F9C73-7FD4-453D-95AC-0F063DEB0DA1Q35042424-25877FAA-1511-493D-A853-05EC6CDE8762Q35908364-C39E61C0-F4A0-4DB4-832B-F05F56AC5559Q37310515-716AB4A1-64E1-4C1D-8BA3-B3E43BFAD81AQ37902117-45594689-C1B5-41C8-B82F-69148F3B1742Q41158648-AAB02A80-3C45-44CB-A195-7907E5162B18Q41661866-C49DF146-860B-4C4C-B45F-CDDD298FE55BQ41684168-62C2C93F-3F67-4DAE-9A56-0689406DE7C8Q42937078-78216E81-83C3-4A42-AD40-04BADEFE8EB4Q47345095-4D3E5032-E28E-4F62-8E1F-D7CD3C416017Q50597172-22DC5A20-8252-4084-B87F-A9B736D4F936
P2860
Regulation of arterial-venous differences in tumor necrosis factor responsiveness of endothelial cells by anatomic context
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
Regulation of arterial-venous ...... lial cells by anatomic context
@ast
Regulation of arterial-venous ...... lial cells by anatomic context
@en
type
label
Regulation of arterial-venous ...... lial cells by anatomic context
@ast
Regulation of arterial-venous ...... lial cells by anatomic context
@en
prefLabel
Regulation of arterial-venous ...... lial cells by anatomic context
@ast
Regulation of arterial-venous ...... lial cells by anatomic context
@en
P2093
P2860
P1476
Regulation of arterial-venous ...... lial cells by anatomic context
@en
P2093
Alessio D'Alessio
Guillermo García-Cardeña
Jordan S Pober
Martin S Kluger
P2860
P304
P356
10.2353/AJPATH.2008.070603
P407
P577
2008-02-21T00:00:00Z