Dietary Cl(-) restriction upregulates pendrin expression within the apical plasma membrane of type B intercalated cells.
about
It is chloride depletion alkalosis, not contraction alkalosisMolecular mechanisms and regulation of urinary acidificationCollecting duct intercalated cell function and regulationAngiotensin II acts through the angiotensin 1a receptor to upregulate pendrin.Transcriptional regulation of the pendrin gene.Two cases of eating disorder revealed by the breakout of acute kidney injury after angiotensin II receptor blocker administration.Deletion of the anion exchanger Slc26a4 (pendrin) decreases apical Cl(-)/HCO3(-) exchanger activity and impairs bicarbonate secretion in kidney collecting duct.Pendrin modulates ENaC function by changing luminal HCO3-Regulation of two renal chloride transporters, AE1 and pendrin, by electrolytes and aldosteroneContractile force is enhanced in Aortas from pendrin null mice due to stimulation of angiotensin II-dependent signaling.Pendrin gene ablation alters ENaC subcellular distribution and open probabilityDeletion of the Cl-/HCO3- exchanger pendrin downregulates calcium-absorbing proteins in the kidney and causes calcium wasting.The pendrin anion exchanger gene is transcriptionally regulated by uroguanylin: a novel enterorenal linkPendrin localizes to the adrenal medulla and modulates catecholamine releaseA new look at electrolyte transport in the distal tubuleAngiotensin II activates H+-ATPase in type A intercalated cells.Nitric oxide reduces Cl⁻ absorption in the mouse cortical collecting duct through an ENaC-dependent mechanism.The role of pendrin in blood pressure regulation.Role of pendrin in iodide balance: going with the flowCortical distal nephron Cl(-) transport in volume homeostasis and blood pressure regulation.Molecular and functional characterization of human pendrin and its allelic variants.The anion exchanger pendrin (SLC26A4) and renal acid-base homeostasis.Uriniferous tubule: structural and functional organization.Pendrin, a novel transcriptional target of the uroguanylin system.The hidden hand of chloride in hypertension.Molecular mechanisms of epithelial cell-specific expression and regulation of the human anion exchanger (pendrin) gene.Proximal tubule H-ferritin mediates iron trafficking in acute kidney injury.Integrated compensatory network is activated in the absence of NCC phosphorylationPendrin in the mouse kidney is primarily regulated by Cl- excretion but also by systemic metabolic acidosis.Small-Molecule Inhibitors of Pendrin Potentiate the Diuretic Action of Furosemide.Renal intercalated cells and blood pressure regulation.Versatility of NaCl transport mechanisms in the cortical collecting duct.Acute genetic ablation of pendrin lowers blood pressure in mice.Reduced ENaC protein abundance contributes to the lower blood pressure observed in pendrin-null mice.Chronic furosemide or hydrochlorothiazide administration increases H+-ATPase B1 subunit abundance in rat kidney
P2860
Q24599801-8F44983F-E80A-4D55-93BE-BE459C21F2B0Q26823086-C88EE3BB-D32E-44B7-96AE-B0EC5F758FF8Q27007175-37D00D1B-5C33-48AA-BF60-0579FCE5D383Q30423556-A1D85AC8-3ECE-478D-9D09-BC5D74145039Q30451832-5EEF2258-693A-4F08-8821-7E7C9FD1CFC2Q33622076-AC455F6F-C8DA-4031-827D-57514E95B26BQ33995586-CE1DC0C6-145A-49DC-9808-6BEDE480B247Q34457061-91EBF2EC-90A1-41DB-AF0E-78C2CEFC0F24Q34576321-4188C9D0-11ED-490D-8FA0-B87CE04D35C2Q35229772-A9E68708-2C25-4AA0-B10F-466AB38C6A16Q35859144-58725FA3-909A-4C36-B531-0EA77914C562Q35861449-8F7D5614-1DEF-44D4-91C3-5A29DC7958C2Q35964499-DE5885C5-7F67-45BB-A227-DC69A58B3F29Q36066575-E44FE888-33DC-46E9-9988-4D6E77B7E7B3Q36082775-A9D4216A-8372-4AA6-8F08-37C49C9662EDQ36667133-98109BAD-A0C2-4DB5-A06F-AC780BBCA015Q36923671-5686AD80-0648-40FD-A348-9B413BADD912Q36955344-F5C26552-1E56-45BE-BA06-3B8D354D656EQ37417246-C38002CE-6F62-4363-8AD9-7B1FADDD31CFQ37476558-740D09A6-B1E8-4F88-B504-53B53CAAD773Q37960781-EF65C9C6-A500-4C91-AB2F-051A0078E521Q37960784-78EAA865-675D-4E6E-81CD-7613E17F30E3Q38130285-F07DFDC2-D98E-4655-B342-8A9599C0E669Q38178827-95640C7E-AA36-4D5D-A8E1-E537028123C9Q38331720-2094A047-3F3C-4355-910A-20A5F8837A76Q40005533-DC569B6C-1583-44A9-9106-EB964A928FDBQ41815546-D4AE9924-1525-4DA0-81EE-18573628036FQ42103841-99646A26-FE24-44E9-B8F5-982E2F39EF70Q46275835-568392E9-6268-4465-A3F2-09CCA3BE225EQ46541740-34DDF960-8410-44BF-B3D3-62D040AAA28AQ47110655-B70981A2-12E1-4B40-8557-B53F712BA0DDQ47709256-6B74BD54-49E0-4298-8087-DF91B25B56C5Q48876534-952CCD57-0778-40EE-8A37-6C9F08098C9AQ50670408-2FBE04F5-A713-44BC-840A-A01623600D7FQ58008927-D33244D0-95F9-4FAF-8E9E-19999E2B51DE
P2860
Dietary Cl(-) restriction upregulates pendrin expression within the apical plasma membrane of type B intercalated cells.
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
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-hant
name
Dietary Cl
@nl
Dietary Cl(-) restriction upre ...... of type B intercalated cells.
@en
type
label
Dietary Cl
@nl
Dietary Cl(-) restriction upre ...... of type B intercalated cells.
@en
prefLabel
Dietary Cl
@nl
Dietary Cl(-) restriction upre ...... of type B intercalated cells.
@en
P2093
P2860
P1476
Dietary Cl(-) restriction upre ...... of type B intercalated cells.
@en
P2093
Jill W Verlander
Kathryn A Hassell
Lorraine Everett
Sharon W Matthews
Susan M Wall
Truyen Derek Pham
William H Beierwaltes
Wonkyong Shin
Young Hee Kim
P2860
P304
P356
10.1152/AJPRENAL.00474.2005
P577
2006-05-02T00:00:00Z