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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We previously reported that Na(+)/H(+) exchanger type 3 (
NHE3
) and NaPi2 are acutely retracted from the proximal tubule (PT) microvilli (MV) during acute
hypertension
[
high blood pressure
(BP)] or parathyroid hormone (PTH) treatment. By subcellular membrane fractionation,
NHE3
and NaPi2 show indistinguishable redistribution patterns out of light-density into heavy-density membranes in response to either treatment consistent with a retraction from the apical MV to the intermicrovillar cleft region. This study aimed to examine the redistribution of PT
NHE3
vs. NaPi2 by confocal and electron microscopy during high BP and during PTH treatment to determine whether their respective destinations overlap or are distinct. High-BP protocol: systolic BP was increased 50-60 mmHg by increasing peripheral resistance for 20 min; PTH protocol: rats were infused with 6.6 microg/kg iv of PTH followed by 0.1 microg.kg(-1).min(-1) infusion for 1 h. For light microscopy, rats were infused with 25 mg of horseradish peroxidase (HRP) 10 min before kidney fixation. Kidney slices were dual labeled with either
NHE3
or NaPi2 and either clathrin-coated vesicle adaptor protein AP2 or endosome marker HRP. The results demonstrate retraction of
NHE3
from the MV to the base of MV during either high-BP or PTH treatment:
NHE3
staining did not retract below the AP2-stained domain or to HRP-labeled endosomes in either model. In comparison, NaPi2 was retracted from MV to below the AP2-stained region in both models, a little colocalizing with HRP staining. At the electron microscopic level with immunogold labeling, during high BP
NHE3
was concentrated in a distinct domain in the base of the MV while NaPi2 moved to endosomes. The results demonstrate that there are divergent routes of retraction of PT
NHE3
and NaPi2 from the MV during acute
hypertension
or PTH treatment:
NHE3
is not internalized but remains at the base of the MV while NaPi2 is internalized.
...
PMID:Differential traffic of proximal tubule Na+ transporters during hypertension or PTH: NHE3 to base of microvilli vs. NaPi2 to endosomes. 1526 67
The present study explores whether the development of
hypertension
in the Milan strain of rats (MHS) rats is preceded or paralleled by alterations of mRNA and/or protein levels of the major luminal Na+ transporters. MHS rats were studied at 23-25 days after birth; age-matched Milan normotensive (MNS) rats were used as controls. The glomerular filtration rate (GFR), measured by inulin clearance, was higher in MHS than in MNS rats, while the mean blood pressure was not different in the two strains of animals indicating that the MHS rats were still in the prehypertensive state. Type 3 sodium/hydrogen exchanger (
NHE3
), bumetanide-sensitive sodium-potassium-2 chloride cotransporter (NKCC2), sodium-chloride cotransporter (NCC) and alpha-ENaC mRNA abundances were quantified by competitive PCR. In MHS compared with MNS, mRNA abundance was unchanged for
NHE3
in proximal tubules, higher for NKCC2 in medullary thick ascending limbs of Henle's loops (TAL) and lower for NCC in distal convoluted tubules (DCT) and for alpha-ENaC along collecting ducts (CD). Western blot experiments revealed 1) unchanged
NHE3
; 2) a significant increase in NKCC2 in the outer medulla; 3) a significant decrease in NCC in the renal cortex and of alpha-ENaC in both the renal cortex and outer medulla, whereas beta- and gamma-ENaC remained unchanged. These data indicate that, in MHS rats, there is a strong upregulation of NKCC2 along the TAL associated with increased GFR, robust inhibition of NCC cotransporter along the DCT and modest downregulation of alpha-ENaC along the CD. The interplay of the various Na+ transporters may well explain why, at this age, the rats are still in the prehypertensive state.
...
PMID:Altered expression of renal apical plasma membrane Na+ transporters in the early phase of genetic hypertension. 1568 46
During acute
hypertension
, Na(+)/H(+) exchangers (
NHE3
) retract from top to base of proximal tubule microvilli (MV) and Na(+) reabsorption decreases in proximal tubule. This study aimed to determine whether the actin-based motor myosin VI coordinately retracts with
NHE3
in response to acute
hypertension
. BP was raised approximately 50 mmHg in rats for 20 to 30 min or sham treated, and kidneys were analyzed by subcellular fractionation or microscopy. During acute
hypertension
, myosin VI redistributed from low density apical MV-enriched membranes (from 23 +/- 2.4 to 11.4 +/- 2.2%) into higher density membranes (from 23.2 +/- 0.7 to 36.9 +/- 2.6%). By confocal microscopy, myosin VI was detected over the whole length of the MV in controls, then became completely focused at the base of MV during acute
hypertension
. For electron microscopic analysis using immunogold labeling, MV were divided into five zones from top (z1) to base (z5). In controls, myosin VI was evenly distributed through the five MV zones. In acute
hypertension
, myosin VI decreased in z1 (from 20.6 +/- 1.9 to 10.5 +/- 2.3%) and z2 (from 21.0 +/- 2.0 to 13.2 +/- 1.4%) and increased in z5 (from 21.1 +/- 3.3 to 38.6 +/- 3.0%). These results provide the first observation that acute
hypertension
causes myosin VI redistribution and support the idea that myosin VI may serve as the molecular motor for
NHE3
retraction from top to base of MV during acute
hypertension
.
...
PMID:Redistribution of myosin VI from top to base of proximal tubule microvilli during acute hypertension. 1610 81
Angiotensin-converting enzyme (ACE) inhibitors such as captopril, which block ANG II formation, are commonly used for treatment of
hypertension
. There is substantial evidence that the proximal tubule (PT) is a primary target site for captopril but the molecular mechanisms for its action in PT are not well defined. The aim of this study was to determine the physiological and molecular changes in PT provoked by acute captopril treatment in the absence of changes in blood pressure or glomerular filtration rate (GFR). Captopril (infused at 12 microg/min for 20 min) did not change blood pressure or GFR but induced an immediate (<10 min) increase in PT flow measured with a nonobstructive optical method (to 117 +/- 14% of baseline) along with a rapid diuresis from 2.1 +/- 0.6 mg/min (baseline) to 3.7 +/- 0.9 mg/min (captopril). Captopril also provoked a significant retraction of PT Na(+)/H(+) exchanger isoform 3 (
NHE3
), NHE regulatory factor (NHERF)-1, myosin-VI, and Na(+)-P(i) cotransporter type 2 (NaPi2), but not ACE, out of apical microvillus-enriched membranes. Proteomic analysis with MALDI-TOF MS revealed an additional eight abundant membrane-associated proteins that redistributed out of the microvillus-enriched membrane during captopril treatment: megalin, myosin II-A, clathrin, aminopeptidase N, DPPIV, ezrin, moesin, and vacuolar H(+)-ATPase subunit beta(2). In summary, captopril can rapidly depress PT reabsorption in the absence of a change in GFR or BP and provokes the redistribution of a set of transporters and transporter-associated proteins that likely participate in the decrease in PT reabsorption and may also contribute to the blood pressure-lowering effect of ACE inhibitors.
...
PMID:Effects of ACE inhibition on proximal tubule sodium transport. 1626 8
Ouabain, a cardiotonic steroid and a specific inhibitor of the Na(+)-K(+)-ATPase, has been shown to significantly inhibit transcellular Na(+) transport without altering the intracellular Na(+) concentration ([Na(+)](i)) in the epithelial cells derived from the renal proximal tubules. We therefore studied whether ouabain affects the activity and expression of Na(+)/H(+) exchanger isoform 3 (
NHE3
) representing the major route of apical Na(+) reabsorption in LLC-PK(1) cells. Chronic basolateral, but not apical, exposure to low-concentration ouabain (50 and 100 nM) did not change [Na(+)](i) but significantly reduced
NHE3
activity,
NHE3
protein, and mRNA expression. Inhibition of c-Src or phosphoinositide 3-kinase (PI3K) with PP2 or wortmannin, respectively, abolished ouabain-induced downregulation of
NHE3
activity and mRNA expression. In caveolin-1 knockdown LLC-PK(1) cells, ouabain failed to downregulate
NHE3
mRNA expression and
NHE3
promoter activity. Ouabain response elements were mapped to a region between -450 and -1,194 nt, where decreased binding of thyroid hormone receptor (TR) and Sp1 to their cognate cis-elements was documented in vitro and in vivo by protein/DNA array analysis, EMSA, supershift, and chromatin immunoprecipitation. These data suggest that, in LLC-PK(1) cells, ouabain-induced signaling through the Na(+)-K(+)-ATPase-Src pathway results in decreased Sp1 and TR DNA binding activity and consequently in decreased expression and activity of
NHE3
. These novel findings may represent the underlying mechanism of cardiotonic steroid-mediated renal compensatory response to volume expansion and/or
hypertension
.
...
PMID:Cardiac glycoside downregulates NHE3 activity and expression in LLC-PK1 cells. 1660 Dec 99
Injection of 50 microl 10% phenol into rat renal cortex activates renal sympathetic nerve activity which provokes acute
hypertension
that persists for weeks. We have previously shown with membrane fractionation that phenol injury caused a redistribution of the main proximal tubule (PT) apical transporter
NHE3
(Na+/H+ exchanger isoform 3) to low density membranes enriched in apical microvilli. The aim of this study was to determine whether phenol injury increases PT apical Na+/H+ exchanger (NHE) activity. NHE activity was measured in vivo as the initial rate of change in intracellular pH (dpH(i)/dt) during luminal Na+ removal in PT preloaded with the pH-sensitive fluorescence dye BCECF. Injection of 50 microl 10% phenol increased blood pressure from 113 +/- 5.2 to 130 +/- 4.6 mmHg without changing glomerular filtration rate or urine output. NHE activity increased 2.6-fold by 70 min after phenol injury. The increase of NHE activity was accompanied with an increase of tubular reabsorption. Total NHE activity/
NHE3
protein in cortical brush-border membrane (BBM) vesicles, measured by acridine orange quench and immunoblot, respectively, was unchanged by phenol injury. In conclusion, acute phenol injury provokes coincident increases in PT apical NHE activity, redistribution of
NHE3
into low density apical membranes, and
hypertension
. The increase in NHE activity may contribute to the lack of pressure-diuresis and the maintenance of chronic
hypertension
in this model.
...
PMID:Phenol injury-induced hypertension stimulates proximal tubule Na+/H+ exchanger activity. 1639 Aug 65
Cyclosporin A (CyA) causes renal Na(+) retention which may lead to arterial
hypertension
. The apical Na(+)/H(+) exchanger (
NHE3
) is responsible for bulk proximal tubular Na(+) reabsorption. The aim of this study was to investigate the effects of CyA on the
NHE3
of polarized proximal tubular cells to evaluate cellular mechanisms of CyA-associated arterial
hypertension
. The change of the intracellular pH (Delta-[pH](i)/min) was determined as a measure of the activity of the NHE in LLC-PK(1)/PKE(20) cells using 2',7'-bis-(2-carboxyethyl)-5-(and-6)-carboxyfluorescein (BCECF). The NHE activity was identified as the apical
NHE3
since it could be inhibited by the inhibitor S3226, but not by inhibitors of the basolateral isoform (NHE1) amiloride or HOE 694. CyA stimulated the
NHE3
activity dose dependently. The mean increase stimulated by relevant CyA concentrations was 61+/-11%. A 24-h application of CyA also stimulated an increase of
NHE3
activity which did not seem to be mediated by an increase of
NHE3
RNA expression. The less immunosuppressive derivatives cyclosporin H and cyclosporin G caused
NHE3
activation as well. Carbachol and ATP, which both induce a Ca(2+) release from internal Ca(2+) stores, also increased the
NHE3
activity. The Ca(2+) chelator 1,2-bis-(2-aminophenoxy)-ethane-N,N,-N',N'-tetraacetic acid tetraacetoxymethyl ester (BAPTA-AM) abolished the CyA-associated
NHE3
stimulation, whereas low extracellular Ca(2+) had no effect. CyA-associated effects did not seem to be mediated via inhibition of protein kinase C (PKC). CyA had no additive effects on the angiotensin II-associated
NHE3
stimulation. Concurrent application of losartan did not impair the CyA-induced
NHE3
stimulation. In conclusion CyA stimulates the apical
NHE3
in proximal tubular cells. This is mediated by Ca(2+) release from intracellular stores but is independent of the action of angiotensin II or PKC.
...
PMID:Cyclosporin A stimulates apical Na+/H+ exchange in LLC-PK1/PKE20 proximal tubular cells. 1677 4
Prenatal administration of dexamethasone causes
hypertension
in rats when they are studied as adults. Although an increase in tubular sodium reabsorption has been postulated to be a factor programming
hypertension
, this has never been directly demonstrated. The purpose of this study was to examine whether prenatal programming by dexamethasone affected postnatal proximal tubular transport. Pregnant Sprague-Dawley rats were injected with intraperitoneal dexamethasone (0.2 mg/kg) daily for 4 days between the 15th and 18th days of gestation. Prenatal dexamethasone resulted in an elevation in systolic blood pressure when the rats were studied at 7-8 wk of age compared with vehicle-treated controls: 131 +/- 3 vs. 115 +/- 3 mmHg (P < 0.001). The rate of proximal convoluted tubule volume absorption, measured using in vitro microperfusion, was 0.61 + 0.07 nl.mm(-1).min(-1) in control rats and 0.93+ 0.07 nl.mm(-1).min(-1) in rats that received prenatal dexamethasone (P < 0.05). Na(+)/H(+) exchanger activity measured in perfused tubules in vitro using the pH-sensitive dye BCECF showed a similar 50% increase in activity in proximal convoluted tubules from rats treated with prenatal dexamethasone. Although there was no change in abundance of
NHE3
mRNA, the predominant luminal proximal tubule Na(+)/H(+) exchanger, there was an increase in
NHE3
protein abundance on brush-border membrane vesicles in 7- to 8-wk-old rats receiving prenatal dexamethasone. In conclusion, prenatal administration of dexamethasone in rats increases proximal tubule transport when rats are studied at 7-8 wk old, in part by stimulating Na(+)/H(+) exchanger activity. The increase in proximal tubule transport may be a factor mediating the
hypertension
by prenatal programming with dexamethasone.
...
PMID:Prenatal programming of rat proximal tubule Na+/H+ exchanger by dexamethasone. 1709 46
The H(+)-electrochemical gradient was originally considered as a driving force for solute transport only across cellular membranes of bacteria, plants and yeast. However, in the mammalian small intestine, a H(+)-electrochemical gradient is present at the epithelial brush-border membrane in the form of an acid microclimate. Over recent years, a large number of H(+)-coupled cotransport mechanisms have been identified at the luminal membrane of the mammalian small intestine. These transporters are responsible for the initial stage in absorption of a remarkable variety of essential and non-essential nutrients and micronutrients, including protein digestion products (di/tripeptides and amino acids), vitamins, short-chain fatty acids and divalent metal ions. Proton-coupled cotransporters expressed at the mammalian small intestinal brush-border membrane include: the di/tripeptide transporter PepT1 (SLC15A1); the proton-coupled amino-acid transporter PAT1 (SLC36A1); the divalent metal transporter DMT1 (SLC11A2); the organic anion transporting polypeptide OATP2B1 (SLC02B1); the monocarboxylate transporter MCT1 (SLC16A1); the proton-coupled folate transporter PCFT (SLC46A1); the sodium-glucose linked cotransporter SGLT1 (SLC5A1); and the excitatory amino acid carrier EAAC1 (SLC1A1). Emerging research demonstrates that the optimal intestinal absorptive capacity of certain H(+)-coupled cotransporters (PepT1 and PAT1) is dependent upon function of the brush-border Na(+)-H(+) exchanger
NHE3
(SLC9A3). The high oral bioavailability of a large number of pharmaceutical compounds results, in part, from absorptive transport via the same H(+)-coupled cotransporters. Drugs undergoing H(+)-coupled cotransport across the intestinal brush-border membrane include those used to treat bacterial infections, hypercholesterolaemia,
hypertension
, hyperglycaemia, viral infections, allergies, epilepsy, schizophrenia, rheumatoid arthritis and cancer.
...
PMID:H+-coupled nutrient, micronutrient and drug transporters in the mammalian small intestine. 1746 5
The present study examines the renal and intestinal expression of Na(+)-dependent amino acid transporter B(0)AT1 during the development of
hypertension
in the spontaneous hypertensive rats (SHR) and its normotensive control (Wistar-Kyoto rat; WKY), and evaluates whether the expression of renal B(0)AT1 correlates with changes in the expression of Na(+) transporters, type 3 Na(+)/H(+) exchanger (
NHE3
) and Na(+)-K(+)-ATPase, known to occur in the SHR. The effect of high salt (HS) intake on the expression of renal and intestinal B(0)AT1 transcript abundance was also evaluated. For this purpose, the cloning of rat homolog of B(0)AT1 was performed. Rat B(0)AT1 shows high sequence homology to the mouse ortholog. Renal B(0)AT1 transcript abundance was lower in SHR than WKY at both 4 and 12 weeks of age. No significant differences between strains were observed in terms of intestinal expression of B(0)AT1. The decreased B(0)AT1 expression in SHR kidney was accompanied with an increase in
NHE3
expression, suggesting an impaired Na(+) uptake. HS intake decreased renal B(0)AT1 mRNA in SHR and WKY at 4 weeks of age. In 12-week-old SHR, HS intake increased renal B(0)AT1 transcript abundance. Intestinal B(0)AT1 transcript was significantly increased by HS intake, though the effect was considerably more pronounced in the SHR. It is concluded, that underexpression of B(0)AT1 in the SHR kidney is organ specific, precedes the onset of
hypertension
and correlates negatively with the renal tubular transport of Na(+). The regulation of B(0)AT1 gene transcription appears to be under the influence of Na(+) delivery, being organ specific.
...
PMID:Organ specific underexpression renal of Na+-dependent B0AT1 in the SHR correlates positively with overexpression of NHE3 and salt intake. 1764 27
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