Faculty Opinions recommendation of Na delivery and ENaC mediate flow regulation of collecting duct endothelin-1 production.

Collecting duct (CD) endothelin-1 (ET-1) is an important autocrine inhibitor of Na and water transport. CD ET-1 production is stimulated by extracellular fluid volume expansion and tubule fluid flow, suggesting a mechanism coupling CD Na delivery and ET-1 synthesis. A mouse cortical CD cell line, mpkCCDc14, was subjected to static or flow conditions for 2 h at 2 dyn/cm2, followed by determination of ET-1 mRNA content. Flow with 300 mosmol/l NaCl increased ET-1 mRNA to 65% above that observed under static conditions. Increasing perfusate osmolarity to 450 mosmol/l with NaCl or Na acetate increased ET-1 mRNA to ∼184% compared with no flow, which was not observed when osmolarity was increased using mannitol or urea. Reducing Na concentration to 150 mosmol/l while maintaining total osmolarity at 300 mosmol/l with urea or mannitol decreased the flow response. Inhibition of epithelial Na channel (ENaC) with amiloride or benzamil abolished the flow response, suggesting involvement of ENaC in flow-regulated ET-1 synthesis. Aldosterone almost doubled the flow response. Since Ca2+ enhances CD ET-1 production, the involvement of plasma membrane and mitochondrial Na/Ca2+ exchangers (NCX) was assessed. SEA0400 and KB-R7943, plasma membrane NCX inhibitors, did not affect the flow response. However, CGP37157, a mitochondrial NCX inhibitor, abolished the response. In summary, the current study indicates that increased Na delivery, leading to ENaC-mediated Na entry and mitochondrial NCX activity, is involved in flow-stimulated CD ET-1 synthesis. This constitutes the first report of either ENaC or mitochondrial NCX regulation of an autocrine factor in any biologic system.

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Renomedullary Interstitial Cell Endothelin A Receptors Regulate BP and Renal Function

Journal of the American Society of Nephrology ◽

10.1681/asn.2020020232 ◽

2020 ◽

Vol 31 (7) ◽

pp. 1555-1568

Author(s):

Chunyan Hu ◽

Jayalakshmi Lakshmipathi ◽

Deborah Stuart ◽

Janos Peti-Peterdi ◽

Georgina Gyarmati ◽

...

Keyword(s):

Renal Function ◽

Knockout Mice ◽

Interstitial Cell ◽

Collecting Duct ◽

Interstitial Cells ◽

Water Excretion ◽

Endothelin 1 ◽

Enhanced Production ◽

Endothelin A Receptor ◽

Endothelin A

BackgroundThe physiologic role of renomedullary interstitial cells, which are uniquely and abundantly found in the renal inner medulla, is largely unknown. Endothelin A receptors regulate multiple aspects of renomedullary interstitial cell function in vitro.MethodsTo assess the effect of targeting renomedullary interstitial cell endothelin A receptors in vivo, we generated a mouse knockout model with inducible disruption of renomedullary interstitial cell endothelin A receptors at 3 months of age.ResultsBP and renal function were similar between endothelin A receptor knockout and control mice during normal and reduced sodium or water intake. In contrast, on a high-salt diet, compared with control mice, the knockout mice had reduced BP; increased urinary sodium, potassium, water, and endothelin-1 excretion; increased urinary nitrite/nitrate excretion associated with increased noncollecting duct nitric oxide synthase-1 expression; increased PGE2 excretion associated with increased collecting duct cyclooxygenase-1 expression; and reduced inner medullary epithelial sodium channel expression. Water-loaded endothelin A receptor knockout mice, compared with control mice, had markedly enhanced urine volume and reduced urine osmolality associated with increased urinary endothelin-1 and PGE2 excretion, increased cyclooxygenase-2 protein expression, and decreased inner medullary aquaporin-2 protein content. No evidence of endothelin-1–induced renomedullary interstitial cell contraction was observed.ConclusionsDisruption of renomedullary interstitial cell endothelin A receptors reduces BP and increases salt and water excretion associated with enhanced production of intrinsic renal natriuretic and diuretic factors. These studies indicate that renomedullary interstitial cells can modulate BP and renal function under physiologic conditions.

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Expression and Localization of Renal Endothelin-1, Endotehlin Receptors and Endothelin Converting Enzyme in Human Renal Biopsy with Rejection after Kidney Transplantation

Microscopy and Microanalysis ◽

10.1017/s1431927600035546 ◽

2000 ◽

Vol 6 (S2) ◽

pp. 610-611

Author(s):

M. Kinjo ◽

J. Papadimitriou ◽

C. Drachenberg ◽

M. R. Weir ◽

C. Wei

Keyword(s):

Kidney Transplantation ◽

Mesangial Cells ◽

Collecting Duct ◽

Enzyme Level ◽

Tissue Level ◽

Renal Tissue ◽

Endothelin Receptors ◽

Converting Enzyme ◽

Endothelin 1 ◽

Endothelin Converting Enzyme

Endothelin (ET-1) is a potent renal and systemic vasoconstrictor and sodium regulating peptide. Endothelin synthesis in the kidney have been reported in glomerulus endothelial, epithelial and mesangial cells as well as in inner medullary collecting duct. Factors stimulating the production of endothelin include shear stress, hypoxia, vasoactive agents and cytokines. Endothelin binding to ET-A receptor in vascular smooth muscle cells stimulates vasoconstriction.Renal graft rejection is a major problem after kidney transplantation with severe renal damage and renal vasoconstriction. We hypothesized that renal tissue level of endothelin-1, endothelin receptors and endothelin converting enzyme (ECE) may increase in renal tissue with rejection after kidney transplantation. Therefore, the current study was designed to determine the endothelin-1 and endothelin receptors (ET-A and ET-B) as well as endothelin converting enzyme level by immunohistochemical staining (IHCS) in human renal tissue with rejection after kidney transplantation.

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Autocrine role of endothelin in rat IMCD: inhibition of AVP-induced cAMP accumulation

AJP Renal Physiology ◽

10.1152/ajprenal.1993.265.1.f126 ◽

1993 ◽

Vol 265 (1) ◽

pp. F126-F129 ◽

Cited By ~ 6

Author(s):

D. E. Kohan ◽

A. K. Hughes

Keyword(s):

Arginine Vasopressin ◽

Collecting Duct ◽

Camp Accumulation ◽

Semipermeable Membranes ◽

Endothelin 1 ◽

Cyclic Monophosphate ◽

Nephron Segment ◽

Specific Receptors ◽

Medullary Collecting Duct

Exogenous endothelin-1 (ET-1) inhibits arginine vasopressin (AVP)-induced adenosine 3',5'-cyclic monophosphate (cAMP) accumulation in the inner medullary collecting duct (IMCD). Since ET-1 is produced by, and binds to specific receptors on, the IMCD, the possibility exists that ET-1 is an autocrine regulator of AVP action in this nephron segment. To test this hypothesis, rat IMCD cells grown on semipermeable membranes were exposed to rabbit anti-ET antisera or nonimmune rabbit sera (NRS). AVP (10(-9)M) caused a significantly greater accumulation of cAMP in confluent IMCD monolayers preincubated in ET-1 antisera compared with NRS. ET-1 (10(-8) M) inhibited the AVP-induced rise in cAMP by 65% in cells preincubated in ET-1 antisera, but had no effect in NRS-treated cells. Finally, 125I-ET-1 (30 pM) binding was increased sixfold in IMCD preincubated in anti-ET-1 antisera. These data indicate that ET causes tonic autocrine inhibition of AVP responsiveness in the IMCD.

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Role of Endothelin-1 in Choroidal Blood Flow Regulation during Isometric Exercise in Healthy Humans

Investigative Opthalmology & Visual Science ◽

10.1167/iovs.02-0372 ◽

2003 ◽

Vol 44 (2) ◽

pp. 728 ◽

Cited By ~ 52

Author(s):

Gabriele Fuchsja¨ger-Mayrl ◽

Alexandra Luksch ◽

Magdalena Malec ◽

Elzbieta Polska ◽

Michael Wolzt ◽

...

Keyword(s):

Blood Flow ◽

Isometric Exercise ◽

Flow Regulation ◽

Choroidal Blood Flow ◽

Endothelin 1 ◽

Healthy Humans ◽

Blood Flow Regulation

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microRNA regulation of endothelin-1 mRNA in renal collecting duct cells

Life Sciences ◽

10.1016/j.lfs.2014.03.003 ◽

2014 ◽

Vol 118 (2) ◽

pp. 195-199 ◽

Cited By ~ 5

Author(s):

Mollie E. Jacobs ◽

Lauren A. Jeffers ◽

Amanda K. Welch ◽

Charles S. Wingo ◽

Brian D. Cain

Keyword(s):

Collecting Duct ◽

Microrna Regulation ◽

Endothelin 1 ◽

Duct Cells ◽

Collecting Duct Cells ◽

Renal Collecting Duct

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Collecting duct-specific knockout of endothelin-1 alters vasopressin regulation of urine osmolality

AJP Renal Physiology ◽

10.1152/ajprenal.00432.2004 ◽

2005 ◽

Vol 288 (5) ◽

pp. F912-F920 ◽

Cited By ~ 82

Author(s):

Yuqiang Ge ◽

Dowahn Ahn ◽

Peter K. Stricklett ◽

Alisa K. Hughes ◽

Masashi Yanagisawa ◽

...

Keyword(s):

Collecting Duct ◽

Urine Volume ◽

Urine Osmolality ◽

Water Metabolism ◽

Urinary Osmolality ◽

Water Load ◽

Endothelin 1 ◽

Normal Water

In vitro studies suggest that endothelin-1 (ET-1) inhibits vasopressin (AVP)-stimulated water permeability in the collecting duct (CD). To evaluate the role of CD-derived ET-1 in regulating renal water metabolism, the ET-1 gene was selectively disrupted in the CD (CD ET-1 KO). During normal water intake, urinary osmolality (Uosm), plasma Na concentration, urine volume, and renal aquaporin-2 (AQP2) levels were unchanged, but plasma AVP concentration was reduced in CD ET-1 KO animals. CD ET-1 KO mice had impaired ability to excrete an acute, but not a chronic, water load, and this was associated with increased CD ET-1 mRNA in control, but not CD ET-1 KO, mice. In response to continuous infusion of 1-desamino-8-d-arginine vasopressin, CD ET-1 KO mice had greater increases in Uosm, V2 and AQP2 mRNA, and phosphorylation of AQP2. CD suspensions from CD ET-1 KO mice had enhanced AVP- and forskolin-stimulated cAMP accumulation. These data indicate that CD ET-1 KO increases renal sensitivity to the urinary concentrating effects of AVP and suggest that ET-1 functions as a physiological autocrine regulator of AVP action in the CD.

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Role of prostaglandins in collecting duct-derived endothelin-1 regulation of blood pressure and water excretion

AJP Renal Physiology ◽

10.1152/ajprenal.00307.2007 ◽

2007 ◽

Vol 293 (6) ◽

pp. F1805-F1810 ◽

Cited By ~ 18

Author(s):

Yuqiang Ge ◽

Kevin A. Strait ◽

Peter K. Stricklett ◽

Tianxin Yang ◽

Donald E. Kohan

Keyword(s):

Blood Pressure ◽

Collecting Duct ◽

Urine Volume ◽

Mrna Levels ◽

Water Excretion ◽

Salt Loading ◽

Endothelin 1 ◽

Cox 2 ◽

Cox 1

Collecting duct (CD)-derived endothelin-1 (ET-1) exerts natriuretic, diuretic, and hypotensive effects. In vitro studies have implicated cyclooxygenase (COX) metabolites, and particularly PGE2, as important mediators of CD ET-1 effects. However, it is unknown whether PGE2 mediates CD-derived ET-1 actions in vivo. To test this, CD ET-1 knockout (KO) and control mice were studied. During normal salt and water intake, urinary PGE2 excretion was unexpectedly increased in CD ET-1 KO mice compared with controls. Salt loading markedly increased urinary PGE2 excretion in both groups of mice; however, the levels remained relatively higher in KO animals. Acutely isolated inner medullary collecting duct (IMCD) from KO mice also had increased PGE2 production. The increased IMCD PGE2 was COX-2 dependent, since NS-398 blocked all PGE2 production. However, increased CD ET-1 KO COX-2 protein or mRNA could not be detected in inner medulla or IMCD, respectively. Inner medullary COX-1 mRNA and protein levels and IMCD COX-1 mRNA levels were unaffected by Na intake or CD ET-1 KO. KO mice on a normal or high-Na diet had elevated blood pressure compared with controls; this difference was not altered by indomethacin or NS-398 treatment. However, indomethacin or NS-398 did increase urine osmolality and reduce urine volume in KO, but not control, animals. In summary, IMCD COX-2-dependent PGE2 production is increased in CD ET-1 KO mice, indicating that CD-derived ET-1 is not a primary regulator of IMCD PGE2. Furthermore, the increased PGE2 in CD ET-1 KO mice partly compensates for loss of ET-1 with respect to maintaining urinary water excretion, but not in blood pressure control.

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