Combination of Ca2+ -activated K+ channel blockers inhibits acetylcholine-evoked nitric oxide release in rat superior mesenteric artery.
about
Down-regulation of KCa2.3 channels causes erectile dysfunction in miceUpregulation of SK3 and IK1 channels contributes to the enhanced endothelial calcium signaling and the preserved coronary relaxation in obese Zucker rats.Role of in vivo vascular redox in resistance arteriesInhibition of Myogenic Tone in Rat Cremaster and Cerebral Arteries by SKA-31, an Activator of Endothelial KCa2.3 and KCa3.1 Channels.Tuning electrical conduction along endothelial tubes of resistance arteries through Ca(2+)-activated K(+) channelsDevelopmental conditioning of endothelium-derived hyperpolarizing factor-mediated vasorelaxationSKA-31, a novel activator of SK(Ca) and IK(Ca) channels, increases coronary flow in male and female rat heartsA mathematical model of vasoreactivity in rat mesenteric arterioles: I. Myoendothelial communicationOleanolic acid induces relaxation and calcium-independent release of endothelium-derived nitric oxide.Openers of SKCa and IKCa channels enhance agonist-evoked endothelial nitric oxide synthesis and arteriolar vasodilationCalcium-activated potassium channels and endothelial dysfunction: therapeutic options?Endothelial Ca+-activated K+ channels in normal and impaired EDHF-dilator responses--relevance to cardiovascular pathologies and drug discoveryEDHF: an update.Calcium-activated potassium channels - a therapeutic target for modulating nitric oxide in cardiovascular disease?Endothelial calcium-activated potassium channels as therapeutic targets to enhance availability of nitric oxide.Calcium-activated potassium channels in ischemia reperfusion: a brief update.Estrogen and the Ca2+-mobilizing agonist ATP evoke acute NO synthesis via distinct pathways in an individual human vascular endothelium-derived cell.Levosimendan induces NO production through p38 MAPK, ERK and Akt in porcine coronary endothelial cells: role for mitochondrial K(ATP) channel.Myoendothelial coupling in the mesenteric arterial bed; segmental differences and interplay between nitric oxide and endothelin-1.Characteristics of ACh-induced hyperpolarization and relaxation in rabbit jugular vein.Small and Intermediate Calcium-Activated Potassium Channel Openers Improve Rat Endothelial and Erectile Function.Openers of small conductance calcium-activated potassium channels selectively enhance NO-mediated bradykinin vasodilatation in porcine retinal arterioles.Generation of nitric oxide from nitrite by carbonic anhydrase: a possible link between metabolic activity and vasodilation.Intracoronary intermedin 1-47 augments cardiac perfusion and function in anesthetized pigs: role of calcitonin receptors and beta-adrenoreceptor-mediated nitric oxide release.Exchange protein activated by cAMP (Epac) induces vascular relaxation by activating Ca2+-sensitive K+ channels in rat mesenteric artery.Endothelium-derived hyperpolarizing factor as an in vivo back-up mechanism in the cutaneous microcirculation in old mice.The vascular endothelium: A regulator of arterial tone and interface for the immune system.Chronic cystamine treatment inhibits small artery remodelling in rats.Preserved regulation of renal perfusion pressure by small and intermediate conductance KCa channels in hypertensive mice with or without renal failure.
P2860
Q33812566-BDA6CB9D-82BD-4148-A9D6-1BCAA8B4A15FQ34323409-6C021E31-24A6-46C5-8A70-328E37C300EDQ34716357-FC9ED976-AD92-4C1F-986B-98F9534675A7Q35847147-4F55EFEB-0931-4B2A-8BAF-21E56816856EQ36307734-898E9F1E-E5FF-471F-96BD-577D4C12F5DDQ36518157-AA72A72B-CB5A-4BF4-9660-039B6FF82CF3Q36529014-7332B381-4866-46D6-B1E2-9269B4519B59Q36541303-4824C38C-4CE7-4B65-A80F-E4CED32CA8CCQ36964950-AA1664A1-244F-4170-88E9-47E154D9EBA4Q37139803-29957A96-D3B4-4B07-94EA-F6B0DE2874CCQ37230725-04C6B778-9571-4720-8BB3-08D113EAB5ACQ37255287-9D74EE8A-6F39-4502-8601-5D50922F2C29Q37551123-61F5DE14-D2BF-4F32-A031-0C7E78B1462BQ37766237-54CDBE79-2171-4DA6-8EBD-519001B34AA1Q38012853-15A13A53-7D48-4668-AE93-292778FCCF51Q38262120-E948396A-CF0B-474A-9CEE-1FBBD219CCDBQ39998327-BB702679-EECA-4E21-A9B3-140B8130302EQ41413471-70600DE3-B9EE-4290-ACB5-6BAFA913B75CQ41426344-D0512825-6EB0-4827-8CA8-D38ED6EEA309Q42326802-9E9DD7FA-FB45-4DB3-B4D2-0EF6BB067882Q42366404-DED40199-4745-4891-8B58-F4C6EB74DF7FQ42427172-3D0B73D5-23C2-4AD7-8C53-946C8D62FC06Q43263730-C6E31B0C-3CCA-4D9E-95D9-B75FF2D0F829Q43288568-36FDA9E5-882A-4766-9F6B-578A404F7B4BQ43862835-38409DE3-67CC-4A21-A7F2-F6442D4A606EQ46954384-C4DC5C62-39F5-43BC-9772-C0F19293A228Q48102017-0B0C2419-AB22-4C9A-B891-CEA74CAD05EEQ50950117-2E920C3B-7DF2-445A-8D8B-B57C88189A54Q51135816-091E8E07-C5CA-46B5-9ED8-46DAC5B10B60
P2860
Combination of Ca2+ -activated K+ channel blockers inhibits acetylcholine-evoked nitric oxide release in rat superior mesenteric artery.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@ast
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@en
type
label
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@ast
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@en
prefLabel
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@ast
Combination of Ca2+ -activated ...... at superior mesenteric artery.
@en
P2093
P2860
P356
P1476
Combination of Ca2+ -activated ...... rat superior mesenteric artery
@en
P2093
E Stankevicius
Ulf Simonsen
V Lopez-Valverde
P2860
P304
P356
10.1038/SJ.BJP.0706886
P407
P577
2006-09-11T00:00:00Z