scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1042170135 |
P356 | DOI | 10.1038/KI.2010.290 |
P3181 | OpenCitations bibliographic resource ID | 4162781 |
P698 | PubMed publication ID | 20720527 |
P5875 | ResearchGate publication ID | 45708517 |
P2093 | author name string | Ewout J Hoorn | |
Robert A Fenton | |||
Robert Zietse | |||
Nils van der Lubbe | |||
Marcel E Meima | |||
Christina H Lim | |||
Alexander H Jan Danser | |||
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Molecular physiology of the thiazide-sensitive sodium-chloride cotransporter | Q24598213 | ||
Angiotensin II signaling increases activity of the renal Na-Cl cotransporter through a WNK4-SPAK-dependent pathway | Q24648927 | ||
An SGK1 site in WNK4 regulates Na+ channel and K+ channel activity and has implications for aldosterone signaling and K+ homeostasis | Q24669948 | ||
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The physiological impact of the serum and glucocorticoid-inducible kinase SGK1 | Q33904863 | ||
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The thiazide-sensitive Na-Cl cotransporter is an aldosterone-induced protein | Q36738674 | ||
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Effects of adrenalectomy and chronic adrenal corticosteroid replacement on potassium transport in rat kidney | Q40927262 | ||
Angiotensin II directly stimulates ENaC activity in the cortical collecting duct via AT(1) receptors | Q43964515 | ||
Sgk1 gene expression in kidney and its regulation by aldosterone: spatio-temporal heterogeneity and quantitative analysis | Q43964524 | ||
Time course of renal Na-K-ATPase, NHE3, NKCC2, NCC, and ENaC abundance changes with dietary NaCl restriction | Q44129267 | ||
Dual influence of aldosterone on AQP2 expression in cultured renal collecting duct principal cells | Q44378791 | ||
Long-term regulation of ENaC expression in kidney by angiotensin II. | Q44394499 | ||
Antidiuretic effect of hydrochlorothiazide in lithium-induced nephrogenic diabetes insipidus is associated with upregulation of aquaporin-2, Na-Cl co-transporter, and epithelial sodium channel | Q45124311 | ||
Nongenomic effects of aldosterone in the human heart: interaction with angiotensin II. | Q46689526 | ||
ANG II provokes acute trafficking of distal tubule Na+-Cl(-) cotransporter to apical membrane | Q46774246 | ||
Increased AQP2 targeting in primary cultured IMCD cells in response to angiotensin II through AT1 receptor. | Q51149601 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | phosphorylation | Q242736 |
P304 | page(s) | 66-76 | |
P577 | publication date | 2011-01-01 | |
P1433 | published in | Kidney International | Q6404823 |
P1476 | title | Angiotensin II induces phosphorylation of the thiazide-sensitive sodium chloride cotransporter independent of aldosterone | |
P478 | volume | 79 |
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Q36425591 | A minor role of WNK3 in regulating phosphorylation of renal NKCC2 and NCC co-transporters in vivo |
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Q44603759 | Advancement in integrated models of renal function: closing the gap between simulation and real life |
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Q37565068 | Albuminuria enhances NHE3 and NCC via stimulation of mitochondrial oxidative stress/angiotensin II axis |
Q47665436 | Aldosterone Is Essential for Angiotensin II-Induced Upregulation of Pendrin. |
Q34348908 | Aldosterone acutely stimulates NCC activity via a SPAK-mediated pathway. |
Q29346960 | Aldosterone and angiotensin II induce protein aggregation in renal proximal tubules |
Q41966666 | Aldosterone does not require angiotensin II to activate NCC through a WNK4-SPAK-dependent pathway |
Q37864472 | Aldosterone paradox: differential regulation of ion transport in distal nephron. |
Q40328947 | Alternative splice variant of the thiazide-sensitive NaCl cotransporter: a novel player in renal salt handling |
Q89006965 | Angiotensin II Signal Transduction: An Update on Mechanisms of Physiology and Pathophysiology |
Q34442402 | Angiotensin II signaling via protein kinase C phosphorylates Kelch-like 3, preventing WNK4 degradation |
Q84228081 | Angiotensin II-induced phosphorylation of the sodium chloride cotransporter |
Q92356843 | Azilsartan causes natriuresis due to its sympatholytic action in kidney disease |
Q38163817 | Cardiorenal syndrome--current understanding and future perspectives |
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Q48639974 | Characterization of a novel phosphorylation site in the sodium-chloride cotransporter, NCC. |
Q36427915 | Chronic Metabolic Acidosis Activates Renal Tubular Sodium Chloride Cotransporter through Angiotension II-dependent WNK4-SPAK Phosphorylation Pathway |
Q51035556 | Constitutively Active SPAK Causes Hyperkalemia by Activating NCC and Remodeling Distal Tubules. |
Q38723454 | Context-dependent mechanisms modulating aldosterone signaling in the kidney |
Q37476558 | Cortical distal nephron Cl(-) transport in volume homeostasis and blood pressure regulation |
Q34111828 | Deletion of the angiotensin II type 1 receptor-associated protein enhances renal sodium reabsorption and exacerbates angiotensin II-mediated hypertension |
Q38307745 | Dietary potassium and the renal control of salt balance and blood pressure |
Q37476592 | Differential regulation of Na+ transporters along nephron during ANG II-dependent hypertension: distal stimulation counteracted by proximal inhibition |
Q36532749 | Direct activation of ENaC by angiotensin II: recent advances and new insights. |
Q52975643 | Distal convoluted tubule. |
Q36170621 | Double knockout of pendrin and Na-Cl cotransporter (NCC) causes severe salt wasting, volume depletion, and renal failure |
Q36654263 | Effects of ACE inhibition and ANG II stimulation on renal Na-Cl cotransporter distribution, phosphorylation, and membrane complex properties |
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Q36853518 | Enhanced angiotensin receptor-associated protein in renal tubule suppresses angiotensin-dependent hypertension |
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Q36896661 | Impact of Angiotensin Type 1A Receptors in Principal Cells of the Collecting Duct on Blood Pressure and Hypertension |
Q49165671 | In Primary Aldosteronism, Mineralocorticoids Influence Exosomal Sodium-Chloride Cotransporter Abundance |
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Q37193739 | Insulin increases the functional activity of the renal NaCl cotransporter |
Q42103841 | Integrated compensatory network is activated in the absence of NCC phosphorylation |
Q27687594 | Integrated control of Na transport along the nephron |
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Q47678208 | K+-induced natriuresis is preserved during Na+ depletion and accompanied by inhibition of the Na+-Cl- cotransporter |
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Q36775665 | Maintaining K+ balance on the low-Na+, high-K+ diet |
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Q38618838 | Mini-review: regulation of the renal NaCl cotransporter by hormones |
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Q35900778 | Molecular physiology of SPAK and OSR1: two Ste20-related protein kinases regulating ion transport |
Q54964058 | Mycophenolate Mofetil Attenuates DOCA-Salt Hypertension: Effects on Vascular Tone. |
Q54591529 | NKCC2 is activated in Milan hypertensive rats contributing to the maintenance of salt-sensitive hypertension. |
Q36699698 | Norepinephrine-evoked salt-sensitive hypertension requires impaired renal sodium chloride cotransporter activity in Sprague-Dawley rats. |
Q64295725 | Novel zebrafish behavioral assay to identify modifiers of the rapid, nongenomic stress response |
Q42323955 | Phosphorylation by PKC and PKA regulate the kinase activity and downstream signaling of WNK4. |
Q38813066 | Physiological role of SLC12 family members in the kidney. |
Q36746113 | Potassium and Its Discontents: New Insight, New Treatments |
Q35849478 | Potassium excretion during antinatriuresis: perspective from a distal nephron model |
Q86215259 | Rapid dephosphorylation of the renal sodium chloride cotransporter in response to oral potassium intake in mice |
Q36494423 | Regulation of the renal Na+-Cl- cotransporter by phosphorylation and ubiquitylation |
Q34174710 | Regulation of with-no-lysine kinase signaling by Kelch-like proteins |
Q27012509 | Regulatory roles of nitric oxide and angiotensin II on renal tubular transport |
Q28397667 | Renal NCC is unchanged in the midpregnant rat and decreased in the late pregnant rat despite avid renal Na+ retention |
Q26827777 | Renal angiotensin-converting enzyme and blood pressure control |
Q46774064 | Renal tubular NHE3 is required in the maintenance of water and sodium chloride homeostasis |
Q42626447 | Renal tubular angiotensin converting enzyme is responsible for nitro-L-arginine methyl ester (L-NAME)-induced salt sensitivity |
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Q38383563 | Revisiting the NaCl cotransporter regulation by with-no-lysine kinases. |
Q34988698 | SPAK deficiency corrects pseudohypoaldosteronism II caused by WNK4 mutation |
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Q35436934 | SPAK-mediated NCC regulation in response to low-K+ diet |
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Q37857562 | The WNK kinase network regulating sodium, potassium, and blood pressure |
Q91893550 | The WNK signaling pathway and salt-sensitive hypertension |
Q36802752 | The absence of intrarenal ACE protects against hypertension |
Q91361416 | The interplay of renal potassium and sodium handling in blood pressure regulation: critical role of the WNK-SPAK-NCC pathway |
Q27025017 | The intrarenal generation of angiotensin II is required for experimental hypertension |
Q87333060 | The mineralocorticoid receptor (MR) regulates ENaC but not NCC in mice with random MR deletion |
Q38169097 | The sodium chloride cotransporter SLC12A3: new roles in sodium, potassium, and blood pressure regulation |
Q41847172 | Through a glass darkly: salt transport by the distal tubule |
Q38130285 | Uriniferous tubule: structural and functional organization |
Q37992360 | WNK kinases and the kidney |
Q45361616 | WNK3 abrogates the NEDD4-2-mediated inhibition of the renal Na+-Cl- cotransporter |
Q41781994 | WNK4 is an essential effector of anterior formation in FGF signaling |
Q52758605 | Why Diuretics Fail Failing Hearts. |
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