Nitric oxide and atrial natriuretic factor stimulate cGMP-dependent membrane insertion of aquaporin 2 in renal epithelial cells.
about
Bypassing vasopressin receptor signaling pathways in nephrogenic diabetes insipidusAltered Nitric Oxide System in Cardiovascular and Renal DiseasesThe Trafficking of the Water Channel Aquaporin-2 in Renal Principal Cells-a Potential Target for Pharmacological Intervention in Cardiovascular DiseasesA novel therapeutic effect of statins on nephrogenic diabetes insipidusRelocalization of the V-ATPase B2 subunit to the apical membrane of epididymal clear cells of mice deficient in the B1 subunitHeat shock protein 70 interacts with aquaporin-2 and regulates its traffickingAquaporin-2 downregulation in kidney medulla of aging rats is posttranscriptional and is abolished by water deprivationHuman defensin alpha-1 causes Trypanosoma cruzi membrane pore formation and induces DNA fragmentation, which leads to trypanosome destruction.Identification of new signaling components in the sensory epithelium of human saccule.A fluorimetry-based ssYFP secretion assay to monitor vasopressin-induced exocytosis in LLC-PK1 cells expressing aquaporin-2.Regulation of proximal tubule vacuolar H(+)-ATPase by PKA and AMP-activated protein kinase.Phosphorylation of aquaporin-2 regulates its endocytosis and protein-protein interactions.Interaction of nitric oxide and the cytochrome P-450 system on blood pressure and renal function in the rat: dependence on sodium intake.Effect of vasopressin antagonism on renal handling of sodium and water and central and brachial blood pressure during inhibition of the nitric oxide system in healthy subjects.Vacuolar H+-ATPase apical accumulation in kidney intercalated cells is regulated by PKA and AMP-activated protein kinaseCombination of secretin and fluvastatin ameliorates the polyuria associated with X-linked nephrogenic diabetes insipidus in mice.Effects of Reactive Oxygen Species on Tubular Transport along the NephronUse of LC-MS/MS and Bayes' theorem to identify protein kinases that phosphorylate aquaporin-2 at Ser256.Renal response to L-arginine in diabetic rats. A possible link between nitric oxide system and aquaporin-2Differential, phosphorylation dependent trafficking of AQP2 in LLC-PK1 cellsHigh-throughput chemical screening identifies AG-490 as a stimulator of aquaporin 2 membrane expression and urine concentrationAMP-activated protein kinase inhibits KCNQ1 channels through regulation of the ubiquitin ligase Nedd4-2 in renal epithelial cells.Calcitonin has a vasopressin-like effect on aquaporin-2 trafficking and urinary concentrationRenal phenotype of UT-A urea transporter knockout mice.Effects of atorvastatin on systemic and renal NO dependency in patients with non-diabetic stage II-III chronic kidney diseaseVasopressin-independent targeting of aquaporin-2 by selective E-prostanoid receptor agonists alleviates nephrogenic diabetes insipidus.Simvastatin enhances aquaporin-2 surface expression and urinary concentration in vasopressin-deficient Brattleboro rats through modulation of Rho GTPase.Effects of slow, sustained, and rate-tunable nitric oxide donors on human aortic smooth muscle cells proliferation.ANP-induced signaling cascade and its implications in renal pathophysiologyNew insights into the dynamic regulation of water and acid-base balance by renal epithelial cells.Clinical update on renal aquaporins.Characterization of the putative phosphorylation sites of the AQP2 C terminus and their role in AQP2 trafficking in LLC-PK1 cells.Effect of tolvaptan on renal water and sodium excretion and blood pressure during nitric oxide inhibition: a dose-response study in healthy subjectsHeterologous downregulation of vasopressin type 2 receptor is induced by transferrinNephrogenic diabetes insipidus: essential insights into the molecular background and potential therapies for treatment.The phosphorylation state of serine 256 is dominant over that of serine 261 in the regulation of AQP2 trafficking in renal epithelial cells.Effect of detrusor overactivity on the expression of aquaporins and nitric oxide synthase in rat urinary bladder following bladder outlet obstruction.Acute hypertonicity alters aquaporin-2 trafficking and induces a MAPK-dependent accumulation at the plasma membrane of renal epithelial cells.Water and ion channels: crucial in the initiation and progression of apoptosis in central nervous system?Physiology and pathophysiology of the vasopressin-regulated renal water reabsorption.
P2860
Q24650150-79CA255E-5B4C-4A21-9071-2795CBA4B793Q26745608-B41E6860-BB15-427A-8623-ADCE680FAE37Q26768170-4A19A15F-4C4D-4FEA-BE53-1599DDE07207Q27005638-21FCA179-016F-4972-BA94-A91E7BC173ABQ28512781-4D51C8E4-9EA4-4787-B9EE-A0D85D35E633Q28565453-7D396B9A-3F87-4740-9299-25029602EBDFQ28574015-B6825A90-0907-4BDC-8929-6D04F170935DQ30179435-42DA7093-FBC3-4807-93E6-0EDC8B97ACEDQ30474417-9961CDCE-56BE-4287-87BD-CFE11AE619D1Q30485052-80E6D51D-D8F9-4419-B9E8-7C383D91C8F6Q33568911-D47D039E-E32B-421E-8D57-FEFDE9BF7023Q33591562-2AB339F9-75C5-41DA-914D-69FD1389C705Q33745639-BDC123B5-3CAC-486B-82C0-64C584B140A4Q33838160-1885EC56-F596-403B-80AC-B726A3F619CBQ33840526-D68765AB-1F52-4F8B-9F98-8FBC1A52366DQ33840550-8C4C760C-2D71-4910-B917-5E8CA4CB0DBDQ33845007-A759E5F3-A9D9-4974-B476-EEC7D16E9A68Q33913030-DB3A22E0-3FA5-4E48-9E2C-37DCF529C550Q34027943-0366C8B8-70CC-4B50-B7C1-2A1296C57EECQ34189252-C1AA83E6-CAF0-47C0-810B-3C6A4FA6A694Q34295359-7314E6F2-BE4F-497B-BE88-8F8F9E570CFFQ34426341-1A45989D-2E2D-4B47-8BFF-722011394464Q34457240-99FCD153-BA92-460B-9F34-FA6E661FF431Q34537295-CD95EB7F-8326-4C4F-AC98-773A62253EA1Q34554416-E335BD24-BB68-4CC9-934E-5F582E0C1F54Q35149581-BF519328-DF27-498C-A827-59619A01BC30Q35159559-E6CCBEC0-34DB-4FE6-B9E5-BAD7E01DC671Q35209508-961D976D-1803-4659-9D1F-18198FC66F00Q35622455-B765A513-B15B-4ECB-A79D-8B0860DF1E44Q35993741-4C1A39B9-95EE-4A6E-A7A1-77E6BBEC891EQ36131354-D890F5A8-561E-4FC7-AD14-9158898D950EQ36174490-EEF4D48E-5A13-4AE1-9275-12C9FBBFC677Q36306545-7F2C3716-1EFC-44AF-8027-ED09B7EBF6B3Q36699899-B73CD0BD-978C-4486-B5A2-457962EA1B55Q36724058-F866F854-8B5F-463B-861A-A7672A199365Q36807071-9E0BA52F-67E4-418C-8DE9-B0E2C3FA69EAQ36889422-42B2A590-4DFD-4B81-BBC9-BB84F4300786Q36897645-9F784C45-66BC-46E5-9808-76B4C1B4367FQ37108106-E8843982-2824-4C05-8452-B18AA45CF8C6Q37145917-C1DFF979-117E-4959-8555-917D048A8B56
P2860
Nitric oxide and atrial natriuretic factor stimulate cGMP-dependent membrane insertion of aquaporin 2 in renal epithelial cells.
description
2000 nî lūn-bûn
@nan
2000 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@ast
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@en
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@nl
type
label
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@ast
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@en
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@nl
prefLabel
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@ast
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@en
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@nl
P2093
P2860
P356
P1476
Nitric oxide and atrial natriu ...... n 2 in renal epithelial cells.
@en
P2093
D A Ausiello
M McLaughlin
P2860
P304
P356
10.1172/JCI9594
P407
P577
2000-11-01T00:00:00Z