Activation of the epithelial Na+ channel in the collecting duct by vasopressin contributes to water reabsorption.
about
Epithelial Na(+) channel regulation by cytoplasmic and extracellular factorsThe role of transforming growth factor β1 in the regulation of blood pressureRegulation of nephron water and electrolyte transport by adenylyl cyclasesAf17 deficiency increases sodium excretion and decreases blood pressureBradykinin acutely inhibits activity of the epithelial Na+ channel in mammalian aldosterone-sensitive distal nephron.The influence of benzamil hydrochloride on the evolution of hyponatremic brain edema as assessed by in vivo MRI study in rats.Purinergic activation of Ca2+-permeable TRPV4 channels is essential for mechano-sensitivity in the aldosterone-sensitive distal nephron.Regulation of the epithelial sodium channel (ENaC) by membrane traffickingEffects of atorvastatin on systemic and renal NO dependency in patients with non-diabetic stage II-III chronic kidney diseaseEpithelial sodium channel abundance is decreased by an unfolded protein response induced by hyperosmolalityLow abundance of sweat duct Cl- channel CFTR in both healthy and cystic fibrosis athletes with exceptionally salty sweat during exercise.Antinatriuretic effect of vasopressin in humans is amiloride sensitive, thus ENaC dependent.Effect of volume expansion with hypertonic- and isotonic saline and isotonic glucose on sodium and water transport in the principal cells in the kidneyLocalization and vasopressin regulation of the Na⁺-K⁺-2Cl⁻ cotransporter in the distal colonic epithelium.Prolactin stimulates sodium and chloride ion channels in A6 renal epithelial cells.Angiotensin II increases activity of the epithelial Na+ channel (ENaC) in distal nephron additively to aldosterone.Changes in urinary excretion of water and sodium transporters during amiloride and bendroflumethiazide treatment.Collecting duct-specific endothelin B receptor knockout increases ENaC activity.Collecting duct cells that lack normal cilia have mislocalized vasopressin-2 receptors.Aldosterone-independent regulation of the epithelial Na+ channel (ENaC) by vasopressin in adrenalectomized mice.Activation of ENaC by AVP contributes to the urinary concentrating mechanism and dilution of plasma.Effects of urine composition on epithelial Na+ channel-targeted protease activity.Regulation of transport in the connecting tubule and cortical collecting ductDirect activation of ENaC by angiotensin II: recent advances and new insights.Adenylyl cyclase VI mediates vasopressin-stimulated ENaC activity.Renal tubular epithelial cell prorenin receptor regulates blood pressure and sodium transport.Vesicle-associated Membrane Protein 3 (VAMP3) Mediates Constitutive Trafficking of the Renal Co-transporter NKCC2 in Thick Ascending Limbs: ROLE IN RENAL FUNCTION AND BLOOD PRESSURE.The inhibitory effect of Gβγ and Gβ isoform specificity on ENaC activity.Cyclic-AMP regulates postnatal development of neural and behavioral responses to NaCl in rats.Vasopressin V2 receptors, ENaC, and sodium reabsorption: a risk factor for hypertension?Regulation of epithelial sodium transport via epithelial Na+ channel.In vivo and ex vivo analysis of tubule function.Molecular physiology of the medullary collecting duct.Vasopressin regulation of sodium transport in the distal nephron and collecting duct.EHD4 is a novel regulator of urinary water homeostasis.Involvement of ENaC in the development of salt-sensitive hypertension.Prenatal Testosterone Exposure Decreases Aldosterone Production but Maintains Normal Plasma Volume and Increases Blood Pressure in Adult Female Rats.Dysregulation of epithelial Na+ absorption induced by inhibition of the kinases TORC1 and TORC2.Recording ion channels in isolated, split-opened tubules.Salt-dependent inhibition of epithelial Na+ channel-mediated sodium reabsorption in the aldosterone-sensitive distal nephron by bradykinin
P2860
Q26825006-7936DCCA-CDA0-4C14-931E-F38818D49080Q26998564-AAC2B8D9-898A-4A40-B5E0-174242299710Q27023655-98D75ECC-D6F8-4405-9B6B-8A76814F735CQ28590130-7D3F7433-D493-41FA-80FA-B188240E6FE9Q30467940-2725296E-E100-403A-A881-E88DDE218752Q33857231-06747045-9237-43C9-B391-D7D64077E996Q33995597-40E497A3-0EE5-4921-9111-6E1D8A856A90Q34065172-3F762EB6-5755-439A-A029-216AB500B04DQ34554416-7425EDFB-FA42-4055-85F4-F6EF0DB324CFQ34631876-9BD8C111-F2C4-4FF2-BCD6-71371948C742Q34720109-A632335D-CCB0-4B47-B5C3-7ADB617B06EFQ34751826-896AF668-E41B-4F91-8BAC-DD1EA17A7103Q34997788-3340C32A-EB69-45D4-9240-54A796BADE78Q35159966-0213D99A-2DE0-473C-9934-04FD624805E8Q35274029-101A923F-ED8A-4235-9718-F8EFBE15541FQ35643832-67EEDD5E-CB3F-4918-9947-CC02E578D1E2Q35819447-233026A3-87D5-4343-A7B1-A7038C7F8F1BQ35895704-BA869FD8-CB4C-4B29-B653-B2A1287C4AE5Q35924536-A38AC27E-8EA2-484B-91E9-FE1323A573CCQ36056435-FAD37C71-8707-402D-96D0-DE439460D6EAQ36132542-1D27DE04-1AF8-4A97-8EBF-D7BB8361707EQ36357542-0CF09420-C4C2-4332-9521-9A29D848652AQ36450027-4B524427-0AD2-4694-9A71-8849EC8CE03DQ36532749-A750490F-E5F9-422A-91D7-6B8B9260CD52Q36574749-1FDC0DB7-8068-4AF3-8D45-2E0517BD4D07Q37139445-CBE8C2C7-FD23-4D62-B218-C482864FBE81Q37338882-9E6E23C8-4A52-41D8-98D9-ECFB11DEC950Q37342021-2DB4C09D-DE44-4BB7-A11E-5E1607E65ECAQ37638985-361A5CEE-D178-4186-B6DC-4CB3EB9277FFQ37786447-36A1798E-5F80-472C-953D-261C2E546726Q37949585-D66CE3A3-5A8B-4218-8936-1887CDC1062DQ38110495-72E4F4AF-DB5F-4803-A67C-C01AABEF2C4EQ38112062-6F6990A6-15DC-47CA-A5CE-7839959DBC54Q38515104-5FE0AF70-BA37-4B7C-94C0-9EC6E40C07E5Q38639810-8117E6C8-14AC-4254-8714-094D98952B7BQ38779559-B2EE71D5-4C91-46E6-BD40-5383DA78199DQ41132055-9EAE1CF2-616C-4026-A18C-06C218AFCCF2Q41485386-77296FF6-BDEE-484E-9242-0F8CCB0A34A4Q41874110-7A768D6E-311B-4EEC-903C-64975F78CAEDQ42276007-CE19EC4E-37F5-471C-81F1-33FFC851334A
P2860
Activation of the epithelial Na+ channel in the collecting duct by vasopressin contributes to water reabsorption.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 19 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Activation of the epithelial N ...... ributes to water reabsorption.
@en
Activation of the epithelial N ...... ributes to water reabsorption.
@nl
type
label
Activation of the epithelial N ...... ributes to water reabsorption.
@en
Activation of the epithelial N ...... ributes to water reabsorption.
@nl
prefLabel
Activation of the epithelial N ...... ributes to water reabsorption.
@en
Activation of the epithelial N ...... ributes to water reabsorption.
@nl
P2860
P1476
Activation of the epithelial N ...... tributes to water reabsorption
@en
P2093
Oleh Pochynyuk
Vladislav Bugaj
P2860
P304
P356
10.1152/AJPRENAL.00371.2009
P577
2009-08-19T00:00:00Z