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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The syndrome of inappropriate
antidiuretic hormone
(SIADH) is associated with water retention and hyponatremia. The kidney adapts via a transient natriuresis and persistent diuresis, i.e.,
vasopressin
escape. Previously, we showed an increase in the whole kidney abundance of aldosterone-sensitive proteins, the alpha- and gamma (70-kDa-band)-subunits of the epithelial Na(+) channel (
ENaC
), and the thiazide-sensitive Na-Cl cotransporter (NCC) in our rat model of SIADH. Here we examine mean arterial pressure via radiotelemetry, aldosterone activity, and cortical vs. medullary
ENaC
subunit and 11beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD-2) protein abundances in escape. Eighteen male Sprague-Dawley rats (300 g) were sham operated (n = 6) or infused with desmopressin (dDAVP; n = 12, a V(2) receptor-selective analog of AVP). After 4 days, one-half of the rats receiving dDAVP were switched to a liquid diet, i.e., water loaded (WL) for 5-7 additional days. The WL rats had a sustained increase in urine volume and blood pressure (122 vs. 104 mmHg, P < 0.03, at 7 days). Urine and plasma aldosterone levels were increased in the WL group to 844 and 1,658% of the dDAVP group, respectively. NCC and alpha- and gamma-
ENaC
(70-kDa band) were increased significantly in the WL group (relative to dDAVP), only in the cortex. Beta- and gamma-
ENaC
(85-kDa band) were increased significantly by dDAVP in cortex and medulla relative to control. 11beta-HSD-2 was increased by dDAVP in the cortex and not significantly affected by water loading. These changes may serve to attenuate Na(+) losses and ameliorate hyponatremia in
vasopressin
escape.
...
PMID:Increased blood pressure, aldosterone activity, and regional differences in renal ENaC protein during vasopressin escape. 1522 53
In the distal tubule, Na(+) resorption is mediated by epithelial Na(+) channels (
ENaC
). Hormones such as aldosterone,
vasopressin
, and insulin modulate
ENaC
membrane targeting, assembly, and/or kinetic activity, thereby regulating salt and water homeostasis. Insulin binds to a receptor on the basal membrane to initiate a signal transduction cascade that rapidly results in an increase in apical membrane
ENaC
. Current models of this signaling pathway envision diffusion of signaling intermediates from the basal to the apical membrane. This necessitates diffusion of several high-molecular-weight signaling elements across a three-dimensional space. Transduction of the insulin signal involves the phosphoinositide pathway, but how and where this lipid-based signaling pathway controls
ENaC
activity is not known. We used tagged channels, biosensor lipid probes, and intravital imaging to investigate the role of lipids in insulin-stimulated Na(+) flux. Insulin-stimulated delivery of intracellular
ENaC
to apical membranes was concurrent with plasma membrane-limited changes in lipid composition. Notably, in response to insulin, phosphatidylinositol 3,4,5-trisphosphate (PIP(3)) formed in the basolateral membrane, rapidly diffused within the bilayer, and crossed the tight junction to enter the apical membrane. This novel signaling pathway takes advantage of the fact that the lipids of the plasma membrane's inner leaflet are not constrained by the tight junction. Therefore, diffusion of PIP(3) as a signal transduction intermediate occurs within a planar surface, thus facilitating swift responses and confining and controlling the signaling pathway.
...
PMID:Real-time three-dimensional imaging of lipid signal transduction: apical membrane insertion of epithelial Na(+) channels. 1528 93
Liddle's syndrome is a genetic form of hypertension linked to Na(+) retention caused by activating mutations in the COOH terminus of the beta or gamma subunit of the epithelial sodium channel (
ENaC
). In this study, we used the short-circuit current (I(sc)) method to investigate the effects of deamino-8-d-arginine vasopressin (dDAVP) on Na(+) and Cl(-) fluxes in primary cultures of cortical collecting ducts (CCDs) microdissected from the kidneys of mice with Liddle's syndrome carrying a stop codon mutation, corresponding to the beta-
ENaC
R(566) stop mutation (L) found in the original pedigree. Compared to wild-type (+/+) CCD cells, untreated L/+ and L/L CCD cells exhibited 2.7- and 4.2-fold increases, respectively, in amiloride-sensitive (Ams) I(sc), reflecting
ENaC
-dependent Na(+) absorption. Short-term incubation with dDAVP caused a rapid and significant increase (approximately 2-fold) in Ams I(sc) in +/+, but not in L/+ or L/L CCD cells. In sharp contrast, dDAVP induced a greater increase in 5-nitro-2-(3-phenylpropamino)benzoate (NPPB)-inhibited apical Cl(-) currents in amiloride-treated L/L and L/+ cells than in their +/+ counterparts. I(sc) recordings performed under apical ion substituted conditions revealed that the dDAVP-stimulated apical secretion of Cl(-), which was absent in cultured CCDs lacking CFTR, was 1.8-fold greater in L/+ and 3.7-fold greater in L/L CCD cells than in their +/+ CCD counterparts. After the basal membrane had been permeabilized with nystatin and a basal-to-apical Cl(-) gradient had been imposed, dDAVP also stimulated larger Cl(-) currents across L/L and L/+ CCD layers than +/+ CCD layers. These findings demonstrate that
vasopressin
stimulates greater apical CFTR Cl(-) conductance in the renal CCD cells of mice with Liddle's syndrome than in wild-type mice. This effect could contribute to the enhanced NaCl reabsorption observed in the distal nephron of patients with Liddle's syndrome.
...
PMID:Vasopressin-stimulated CFTR Cl- currents are increased in the renal collecting duct cells of a mouse model of Liddle's syndrome. 1551 33
In addition to its effect on water permeability,
vasopressin
, through its V2 receptors (AVPR2), stimulates Na reabsorption in the collecting duct by increasing the activity of the amiloride-sensitive sodium channel
ENaC
. This study evaluated whether dDAVP (a potent AVPR2 agonist) reduces sodium excretion in healthy humans (n = 6) and in patients with central (C; n = 2) or nephrogenic (N) diabetes insipidus (DI) as a result of mutations of either the aquaporin 2 gene (AQP2; n = 3) or AVPR2 (n = 10). dDAVP was infused intravenously (0.3 microg/kg body wt in 20 min), and urine was collected for 60 min before (basal) and 150 min after the infusion. dDAVP markedly reduced both urine flow rate and sodium excretion in healthy individuals. A reduction in sodium excretion was also observed in CDI and NDI-AQP2 patients but not in NDI-AVPR2 patients. The magnitude of the fall in sodium excretion correlated with the rise in urine osmolality and the fall in urine output but not with the simultaneously observed fall in mean BP. These results suggest that the dDAVP-induced antinatriuresis is due to a direct V2 receptor-dependent stimulation of sodium reabsorption in the collecting duct and is not secondary to a hemodynamic effect. In conclusion, this study reveals a potent V2-dependent antinatriuretic effect of
vasopressin
in humans. The possibility that an inappropriate stimulation of
ENaC
by
vasopressin
might lead to significant sodium retention in chronic situations remains to be determined.
...
PMID:Vasopressin-V2 receptor stimulation reduces sodium excretion in healthy humans. 1588 62
Reabsorption of sodium by the epithelial sodium channel (
ENaC
) is essential for maintaining the volume of the extracellular compartment and blood pressure. The function of
ENaC
is regulated primarily by aldosterone,
antidiuretic hormone
[arginine vasopressin (AVP)], and insulin, but the molecular mechanisms that increase channel activity are still poorly understood. It has been proposed that the related serine/threonine kinases serum- and glucocorticoid-induced kinase (Sgk1) and protein kinase B (Akt) mediate activation of
ENaC
. Here, we addressed the question of whether there is functional specificity of these kinases for the activation of
ENaC
in epithelial cells of the distal renal tubule. We demonstrate that Akt does not increase
ENaC
function under basal conditions or after stimulation with aldosterone, insulin, or AVP. In contrast, under the same experimental conditions, Sgk1 increases
ENaC
activity by 10-fold. The effect of Sgk1 is additive to that of aldosterone, whereas, in the presence of active Sgk1, cells do not further respond to insulin or AVP. We conclude that, in cells expressing both kinases, modulation of
ENaC
activity is mediated by Sgk1 but not by Akt1.
...
PMID:Functional specificity of Sgk1 and Akt1 on ENaC activity. 1595 81
The epithelial Na(+) channel (
ENaC
) is a pathway for Na(+) transport across epithelia, including the kidney collecting duct, lung, and distal colon.
ENaC
is critical for Na(+) homeostasis and blood pressure control; defects in
ENaC
function and regulation are responsible for inherited forms of hypertension and hypotension and may contribute to the pathogenesis of cystic fibrosis and other lung diseases. An emerging theme is that epithelial Na(+) transport is regulated in large part through trafficking mechanisms that control
ENaC
expression at the cell surface.
ENaC
trafficking is regulated at multiple steps. Delivery of channels to the cell surface is regulated by aldosterone (and corticosteroids) and
vasopressin
, which increase
ENaC
synthesis and exocytosis, respectively. Conversely, endocytosis and degradation is controlled by a sequence located in the C terminus of alpha, beta, and gammaENaC (PPPXYXXL). This sequence functions as an endocytosis motif and as a binding site for Nedd4-2, an E3 ubiquitin protein ligase that targets
ENaC
for degradation. Mutations that delete or disrupt this motif cause accumulation of channels at the cell surface, resulting in Liddle's syndrome, an inherited form of hypertension. Nedd4-2 is a central convergence point for
ENaC
regulation by aldosterone and
vasopressin
; both induce phosphorylation of a common set of three Nedd4-2 residues, which blocks Nedd4-2 binding to
ENaC
. Thus, aldosterone and
vasopressin
regulate epithelial Na(+) transport in part by altering
ENaC
trafficking to and from the cell surface.
...
PMID:Minireview: regulation of epithelial Na+ channel trafficking. 1615 Aug 99
Lithium-induced nephrogenic diabetes insipidus (Li-NDI) is associated with increased urinary sodium excretion and decreased responsiveness to aldosterone and
vasopressin
. Dysregulation of the epithelial sodium channel (
ENaC
) is thought to play an important role in renal sodium wasting. The effect of 7-day aldosterone and spironolactone treatment on regulation of
ENaC
in rat kidney cortex was investigated in rats with 3 wk of Li-NDI. Aldosterone treatment of rats with Li-NDI decreased fractional excretion of sodium (0.83 +/- 0.02), whereas spironolactone did not change fractional excretion of sodium (1.10 +/- 0.11) compared with rats treated with lithium alone (1.11 +/- 0.05). Plasma lithium concentration was decreased by aldosterone (0.31 +/- 0.03 mmol/l) but unchanged with spironolactone (0.84 +/- 0.18 mmol/l) compared with rats treated with lithium alone (0.54 +/- 0.04 mmol/l). Immunoblotting showed increased protein expression of alpha-
ENaC
, the 70-kDa form of gamma-
ENaC
, and the Na-Cl cotransporter (NCC) in kidney cortex in aldosterone-treated rats, whereas spironolactone decreased alpha-
ENaC
and NCC compared with control rats treated with lithium alone. Immunohistochemistry confirmed increased expression of alpha-
ENaC
in the late distal convoluted tubule and connecting tubule and also revealed increased apical targeting of all three
ENaC
subunits (alpha, beta, and gamma) in aldosterone-treated rats compared with rats treated with lithium alone. Aldosterone did not, however, affect alpha-
ENaC
expression in the cortical collecting duct (CCD), which showed weak and dispersed labeling similar to that in rats treated with lithium alone. Spironolactone did not affect
ENaC
targeting compared with rats treated with lithium alone. This study shows a segment specific lack of aldosterone-mediated alpha-
ENaC
regulation in the CCD affecting both alpha-
ENaC
protein expression and trafficking, which may explain the increased sodium wasting associated with chronic lithium treatment.
...
PMID:Lithium-induced NDI in rats is associated with loss of alpha-ENaC regulation by aldosterone in CCD. 1633 30
Previously, we demonstrated that rats undergoing
vasopressin
escape had increased mean arterial blood pressure (MAP), plasma and urine aldosterone, and increased renal protein abundance of the alpha-subunit of the epithelial sodium channel (
ENaC
), the thiazide-sensitive Na-Cl cotransporter (NCC), and the 70-kDa band of gamma-
ENaC
(Song J, Hu X, Khan O, Tian Y, Verbalis JG, and Ecelbarger CA. Am J Physiol Renal Physiol 287: F1076-F1083, 2004; Ecelbarger CA, Knepper MA, and Verbalis JG. J Am Soc Nephrol 12: 207-217, 2001). Here, we determine whether changes in these renal proteins and MAP require elevated aldosterone levels. We performed adrenalectomies (ADX) or sham surgeries on male Sprague-Dawley rats. Corticosterone and aldosterone were replaced to clamp these hormone levels. MAP was monitored by radiotelemetry. Rats were infused with 1-deamino-[8-D-arginine]-
vasopressin
(dDAVP) via osmotic minipumps (5 ng/h). At day 3 of dDAVP infusion, seven rats in each group were offered a liquid diet [water load (WL)] or continued on a solid diet (SD). Plasma aldosterone and corticosterone and urine aldosterone were increased by WL in sham rats. ADX-WL rats escaped, as assessed by early natriuresis followed by diuresis; however, urine volume and natriuresis were somewhat blunted. WL did not reduce the abundance or activity of 11-beta-hydroxsteroid dehydrogenase type 2. Furthermore, the previously observed increase in renal aldosterone-sensitive proteins and escape-associated increased MAP persisted in clamped rats. The densitometry of immunoblots for NCC, alpha- and gamma-70 kDa
ENaC
, respectively, were (% sham-SD): sham-WL, 159, 278, 233; ADX-SD, 69, 212, 171; ADX-WL, 116, 302, 161. However, clamping corticosteroids blunted the rise at least for NCC and gamma-
ENaC
(70 kDa). Overall, the increase in aldosterone observed in
vasopressin
escape is not necessary for the increased expression of NCC, alpha- or gamma-
ENaC
or increased MAP associated with "escape."
...
PMID:Increased renal alpha-ENaC and NCC abundance and elevated blood pressure are independent of hyperaldosteronism in vasopressin escape. 1644 57
To identify novel gene targets of
vasopressin
regulation in the renal medulla, we performed a cDNA microarray study on the inner medullary tissue of mice following a 48-h water restriction protocol. In this study, 4,625 genes of the possible approximately 12,000 genes on the array were included in the analysis, and of these 157 transcripts were increased and 63 transcripts were decreased by 1.5-fold or more. Quantitative, real-time PCR measurements confirmed the increases seen for 12 selected transcripts, and the decreases were confirmed for 7 transcripts. In addition, we measured transcript abundance for many renal collecting duct proteins that were not represented on the array; aquaporin-2 (AQP2), AQP3, Pax-8, and alpha- and beta-Na-K-ATPase subunits were all significantly increased in abundance; the beta- and gamma-subunits of
ENaC
and the
vasopressin
type 1A receptor were significantly decreased. To correlate changes in mRNA expression with changes in protein expression, we carried out quantitative immunoblotting. For most of the genes examined, changes in mRNA abundances were not associated with concomitant protein abundance changes; however, AQP2 transcript abundance and protein abundance did correlate. Surprisingly, aldolase B transcript abundance was increased but protein abundance was decreased following 48 h of water restriction. Several transcripts identified by microarray were novel with respect to their expression in mouse renal medullary tissues. The steroid hormone enzyme 3beta-hydroxysteroid dehydrogenase 4 (3betaHSD4) was identified as a novel target of
vasopressin
regulation, and via dual labeling immunofluorescence we colocalized the expression of this protein to AQP2-expressing collecting ducts of the kidney. These studies have identified several transcripts whose abundances are regulated in mouse inner medulla in response to an increase in endogenous
vasopressin
levels and could play roles in the regulation of salt and water excretion.
...
PMID:Effects of water restriction on gene expression in mouse renal medulla: identification of 3betaHSD4 as a collecting duct protein. 1647 74
Previous studies revealed that chronic (days)
vasopressin
treatment stimulates amiloride-sensitive sodium transport in isolated renal cortical collecting ducts and increases the abundance of beta- and gamma-subunits of the epithelial sodium channel (
ENaC
) in the kidney. The aim of the present work was to investigate in vivo the cellular basis of these effects. The long-term effect of V2
vasopressin
agonist (1-deamino-8-D-arginine vasopressin (dDAVP)) on the abundance and subcellular localization of
ENaC
along the rat renal collecting system was determined by immunohistochemistry and laser confocal microscopy. Moreover, we studied by real-time reverse transcriptase-polymerase chain reaction the effect of
vasopressin
on proteins implicated in the regulation of
ENaC
(Nedd4-2, prostasin, Sgk1). After 5 days of administration, dDAVP markedly increased the intracellular pool of the beta- and gamma-
ENaC
subunits in the principal cells, with an increasing gradient from connecting tubule to the outer medullary collecting duct, but did not increase any subunit at the cell surface. The apical immunostaining of
ENaC
increased in response to sodium restriction, as expected, but dDAVP did not further enhance this apical labelling. dDAVP increased the gene expression of prostasin in the cortex but not that of Nedd4-2 and Sgk1. These findings suggest that the previously reported increase in sodium transport induced by sustained stimulation of vasopressin V2 receptor is probably mediated by other mechanism than an increase in the apical density of
ENaC
.
...
PMID:Long-term effects of vasopressin on the subcellular localization of ENaC in the renal collecting system. 1652 52
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