Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
about
Interactions between adenosine, angiotensin II and nitric oxide on the afferent arteriole influence sensitivity of the tubuloglomerular feedbackMolecular and functional properties of P2X receptors--recent progress and persisting challengesMolecular mechanisms of renal blood flow autoregulationEpoxyeicosatrienoic acids, 20-hydroxyeicosatetraenoic acid, and renal microvascular functionPurinergic signalling in the kidney in health and diseasep66Shc regulates renal vascular tone in hypertension-induced nephropathy.Renal autoregulation in health and diseaseATP as a mediator of macula densa cell signallingMacula densa basolateral ATP release is regulated by luminal [NaCl] and dietary salt intakeAdenosine A(2) receptors modulate tubuloglomerular feedbackMolecular properties of P2X receptorsDisruption of lipid rafts inhibits P2X1 receptor-mediated currents and arterial vasoconstrictionConnexins 37 and 40 transduce purinergic signals mediating renal autoregulationEffect of P2X4 and P2X7 receptor antagonism on the pressure diuresis relationship in rats.Effect of epithelial sodium channel blockade on the myogenic response of rat juxtamedullary afferent arterioles.Multiphoton imaging of renal regulatory mechanisms.Regional vascular responses to ATP and ATP analogues in the rabbit kidney in vivo: roles for adenosine receptors and prostanoidsPentosan polysulfate treatment preserves renal autoregulation in ANG II-infused hypertensive rats via normalization of P2X1 receptor activation.Regulation of renal function and blood pressure control by P2 purinoceptors in the kidney.P2X(1) receptor blockade inhibits whole kidney autoregulation of renal blood flow in vivo.Maintained tubuloglomerular feedback responses during acute inhibition of P2 purinergic receptors in miceAdenosine A2A receptor activation attenuates tubuloglomerular feedback responses by stimulation of endothelial nitric oxide synthase.Mechanism of impaired afferent arteriole myogenic response in Dahl salt-sensitive rats: role of 20-HETEP2X1 receptor-mediated vasoconstriction of afferent arterioles in angiotensin II-infused hypertensive rats fed a high-salt diet.Renal autoregulation: new perspectives regarding the protective and regulatory roles of the underlying mechanisms.Purinergic control of vascular tone in the retina.The role of uridine adenosine tetraphosphate in the vascular system.Renal cell-to-cell communication via extracellular ATP.Interleukin 6 knockout prevents angiotensin II hypertension: role of renal vasoconstriction and janus kinase 2/signal transducer and activator of transcription 3 activation.P2 receptors in cardiovascular regulation and diseasePentosan polysulfate preserves renal microvascular P2X1 receptor reactivity and autoregulatory behavior in DOCA-salt hypertensive ratsCalcium dynamics in vascular smooth muscleTubuloglomerular feedback: mechanistic insights from gene-manipulated mice.Purinergic receptors contribute to early mesangial cell transformation and renal vessel hypertrophy during angiotensin II-induced hypertensionRole of adenosine 5'-triphosphate in regulating renal microvascular function and in hypertensionCalcium-permeable ion channels in the kidney.Rho-kinase inhibition reduces pressure-mediated autoregulatory adjustments in afferent arteriolar diameter.Purinergic dysregulation in pulmonary hypertensionPurinergic signaling in the lumen of a normal nephron and in remodeled PKD encapsulated cysts.Lewis K. Dahl Memorial Lecture. Mysteries of renal autoregulation
P2860
Q21129233-D2A092B3-5CD2-463F-A0AD-0D59CACB5EF0Q24617046-613030EB-586D-488F-B77A-720289798D23Q26825286-305E7A79-97A7-4AAD-9BDB-37863D64067FQ26849271-AEBD3D9E-356F-4E6E-9E8D-5776F05253E3Q26864669-FAE374F7-C028-4CD5-99E2-F8584C65DE07Q27333193-A4D2177C-B335-4E93-9CE4-0E5782148F02Q28082365-7E48AB6A-9382-45F5-8163-5515FDC58E82Q28239664-D72FAAF8-B300-4BEB-A130-0F57E35E2CB9Q28241285-C9B5581E-A0F0-4CDF-B123-5BF57978C6EAQ28284099-CE49063D-59CA-4FE5-AEC0-F4A624841FE1Q28306596-32FA06E6-1D14-4B34-BA07-AFE27EE4687EQ28572480-C0F77974-B04D-45D4-B8C6-15BFCD1D1DC1Q28583903-CD66AA1B-0703-447B-BAF1-569D3A00D1D4Q30447718-BD795CC0-B105-452A-9236-C82851B3A98EQ30491160-06528561-B71C-44AE-97E2-C9069EB0489BQ30665293-394FB9B6-FBB5-4C98-8E5C-4EF0599866E2Q33257858-A765DC1C-6289-4130-9303-8ED72B7D02BFQ33840559-5A22F63E-51FC-4F2F-BF0F-1DE4083A11A8Q33914825-93F93D06-790E-46DB-B5E0-AC041B50901AQ33917805-52A997E1-6FF6-4DC0-8C61-68E25D584151Q34599935-220D4C3B-B4A3-4FE2-9375-C2C78AAC35BCQ34599952-58462794-36E1-4119-9F07-8EFB51FDAE30Q34602047-90BDA124-4CD3-45DD-84C5-514C786F46A9Q34694333-0561E2A1-DEF0-45B0-AE49-311E5AA5EEB5Q35052652-3240E3B1-E76A-44C9-AB34-7A7DBDD334ABQ35052965-BD57FE12-6515-40B6-AFF9-B5E17AE348B9Q35504071-5F669794-FD58-4630-A43A-4F626B1F4C49Q36072687-FFCEF363-BD40-4EE6-ACDA-03562A11035AQ36406495-03F9B13B-95CA-4430-986A-EA820F329836Q36464824-ADA3C518-B5E4-42B7-A039-7A74853A08AFQ36698733-8F8CB5F2-82F3-4B4F-A07E-40FF2FC76690Q36836714-DDEFAE7A-BD5C-4D96-B8B1-CDAA1B89798DQ36926466-FE094BDD-DFCB-47C2-BB3B-220ACA8E1D8BQ36936578-D148EC16-2C0C-4CB1-A452-664DD7322DA8Q37062376-13811BCB-5507-4DDB-BC53-28AE8C25DA26Q37072422-2A32C8EC-33C4-4DED-95AD-8925FB18A15CQ37138832-ACDB4D51-1809-4C98-A3B0-1D3827384D3AQ37139591-C5532C65-AA39-40DF-A2DD-051875AF20D0Q37148393-7935F857-CE7A-462B-A21F-21A199FDD3F6Q37213419-4D05014A-1215-4DD0-992A-5D4C6846C441
P2860
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
description
2003 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2003
@ast
im Dezember 2003 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2003/12/01)
@sk
vědecký článek publikovaný v roce 2003
@cs
wetenschappelijk artikel (gepubliceerd op 2003/12/01)
@nl
наукова стаття, опублікована в грудні 2003
@uk
مقالة علمية (نشرت في ديسمبر 2003)
@ar
name
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@ast
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@en
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@nl
type
label
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@ast
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@en
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@nl
prefLabel
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@ast
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@en
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@nl
P2093
P2860
P356
P1476
Physiological role for P2X1 receptors in renal microvascular autoregulatory behavior
@en
P2093
Anthony K. Cook
Edward W. Inscho
John D. Imig
Richard J. Evans
P2860
P304
P356
10.1172/JCI18499
P407
P577
2003-12-01T00:00:00Z