Mechanotransduction through the endothelial cytoskeleton: mediation of flow- but not agonist-induced EDRF release.
about
Flow (shear stress)-induced endothelium-dependent dilation is altered in mice lacking the gene encoding for dystrophinMechanotransduction in vascular physiology and atherogenesis.Nitric oxide-mediated arteriolar dilation after endothelial deformation.Cytoskeletal regulation of the L-arginine/NO pathway in pulmonary artery endothelial cells.Release of vasoactive substances from endothelial cells by shear stress and purinergic mechanosensory transduction.Vascular control in humans: focus on the coronary microcirculation.Isometric contraction induces the Ca2+-independent activation of the endothelial nitric oxide synthase.Role of shear stress in nitric oxide-dependent modulation of renal angiotensin II vasoconstrictionCell senescence reduced the mechanotransduction sensitivity of porcine angular aqueous plexus cells to elevation of pressureNanoscale intracellular organization and functional architecture mediating cellular behavior.Mitochondrial reactive oxygen species-mediated signaling in endothelial cells.Life history of eNOS: partners and pathways.Impaired flow-induced dilation in mesenteric resistance arteries from mice lacking vimentin.Role of the cytoskeleton in flow (shear stress)-induced dilation and remodeling in resistance arteries.How steroid hormones act on the endothelium--insights by atomic force microscopy.Endothelial cytoskeletal elements are critical for flow-mediated dilation in human coronary arteriolesLoss of syndecan-1 induces a pro-inflammatory phenotype in endothelial cells with a dysregulated response to atheroprotective flow.Oscillatory fluid flow influences primary cilia and microtubule mechanics.Differential inhibition by hyperglycaemia of shear stress- but not acetylcholine-mediated dilatation in the iliac artery of the anaesthetized pig.Reduction of renal mass is lethal in mice lacking vimentin. Role of endothelin-nitric oxide imbalanceDisassembly of actin filaments by botulinum C2 toxin and actin-filament-disrupting agents induces assembly of microtubules in human leukaemia cell lines.Endothelial basement membrane laminin 511 is essential for shear stress responseAbsence of dystrophin in mice reduces NO-dependent vascular function and vascular density: total recovery after a treatment with the aminoglycoside gentamicin.Hemoglobin mediated contraction of the isolated rat thoracic aorta: why is precontraction necessary?Endothelial microtubule disruption blocks flow-dependent dilation of arterioles.Microtubule-active agents modify nitric oxide production in pulmonary artery endothelial cells.Luminal flow induces eNOS activation and translocation in the rat thick ascending limb.Disruption of microtubular network attenuates histamine-induced dilation in rat mesenteric vessels.AMP-Activated Protein Kinase and Sirtuin 1 Coregulation of Cortactin Contributes to Endothelial Function.Peroxynitrite reduces the endothelium-derived hyperpolarizing factor component of coronary flow-mediated dilation in PECAM-1-knockout mice.Flow relaxation is not ATP-mediated in the rabbit ear artery.Development affects in vitro vascular tone and calcium sensitivity in ovine cerebral arteries.
P2860
Q28348557-5F8611D9-E4FC-4286-895C-39EE7A755AAEQ30439086-49936AA3-132B-4794-81D9-5F4F4FA7952DQ31833735-04B0F463-FCA2-4BD7-8790-A8F992B87B31Q31834346-A49331A9-42CE-4EF6-9808-9867437071AEQ33674255-8B2BADD2-6D3C-4ECD-BC62-255294130452Q34606668-C1CDDE68-4E39-4968-A28D-2DDF927DE0E2Q34959141-02318EF1-C0A5-409C-8B64-C60F65702D83Q35029251-CCEC8B97-994C-41BA-80C5-C250875E7DAAQ36098906-84CEC2A5-9773-4638-9861-A38AFDFFBE49Q36386080-3FA3B718-D11A-4D17-9584-63D697D9CA03Q36712703-35A842CA-A767-4BA4-90C1-07907AECAC0FQ36805328-8E7F82CE-A9B3-4ED9-BFED-E67C5EEC9A7EQ36894216-27681DEF-2BC2-41DB-91EE-057104BE3DECQ36935093-20245D34-07C1-48B6-85BA-14488D4EFE82Q37049071-44448272-ACD1-455B-B958-380EE84B7B6EQ37242016-F4972D37-AAAA-4164-A834-A84933EDD26FQ37683359-33E5A85E-1FB5-4456-B9E2-A32550AABEBFQ38973454-B61F2D72-245E-4C15-AF1B-BBEE9555B776Q39133016-53299A44-672B-4624-8B79-5196A55E00E1Q39790972-B75F012A-5296-4818-882D-F5C3EB7C5A5AQ40215254-9270563B-C5DA-4ECD-94F3-A4DB16F46CD4Q41864998-6BA10DF3-3D36-40E1-BD75-52AEBDC83969Q41952585-5A20287A-FD5E-405C-BA54-884B2B3DD04AQ42475581-427E772D-5A87-4507-98E9-B3B22D126E94Q42502713-9F72FBD9-57FA-40BE-A468-BD37CFC546DCQ43988473-A4C5FBE8-8A3D-4FC8-B901-8D183B80823AQ44833669-A9BA0CCD-805D-43BA-BDFB-706B6C5D087CQ45106164-BC9D400C-2AF8-4408-BC01-DCBF78BED7F0Q46044599-920C9217-4910-42D6-B269-60B39EF9FD9AQ46706026-55A71EEA-A836-4524-8C21-DAD22237C9F2Q50531551-B0AA606F-9C4A-474F-A61E-96052DBED9A2Q53896121-435E4511-3ECB-450C-BF53-07DD3DFEE7B8
P2860
Mechanotransduction through the endothelial cytoskeleton: mediation of flow- but not agonist-induced EDRF release.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
1996年论文
@zh
1996年论文
@zh-cn
name
Mechanotransduction through th ...... agonist-induced EDRF release.
@en
Mechanotransduction through th ...... agonist-induced EDRF release.
@nl
type
label
Mechanotransduction through th ...... agonist-induced EDRF release.
@en
Mechanotransduction through th ...... agonist-induced EDRF release.
@nl
prefLabel
Mechanotransduction through th ...... agonist-induced EDRF release.
@en
Mechanotransduction through th ...... agonist-induced EDRF release.
@nl
P2860
P921
P1476
Mechanotransduction through th ...... agonist-induced EDRF release.
@en
P2093
Griffith TM
Hutcheson IR
P2860
P304
P356
10.1111/J.1476-5381.1996.TB15459.X
P407
P577
1996-06-01T00:00:00Z