Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Na(+)-H+ exchanger has important modulatory effects on vascular smooth muscle cell proliferation and contractility. Increased Na(+)-H+ exchange activity is a general property of many tissues, including mesenteric artery and cultured vascular smooth muscle cells, in the spontaneously hypertensive rat (SHR). In the present work, we investigated whether alterations in the steady-state levels of specific Na(+)-H+ exchanger mRNA isoforms (NHE-1 through NHE-4) are associated with the observed increases in exchanger activity. Poly(A+) mRNA prepared from 12-week-old hypertensive SHR and normotensive Wistar-Kyoto (WKY) aorta, kidney, and intestine was hybridized to cDNAs specific for each NHE isoform. By Northern blot analysis, NHE-1 was detected in all tissues as well as cultured vascular smooth muscle cells and was not regulated differently in SHR compared with WKY tissues. There was no expression of NHE-2, NHE-3, or NHE-4 in SHR and WKY aortas or in cultured vascular smooth muscle cells from SHR and WKY aortas. Stimulation of NHE-1 mRNA expression by growth factors was similar in cultured SHR and WKY vascular smooth muscle cells. We conclude that the previously observed increase in exchanger activity in blood vessels and cultured vascular smooth muscle cells of the SHR is not caused by induction of the NHE-2, NHE-3, and NHE-4 isoforms or by alterations in steady-state NHE-1 mRNA expression. These findings suggest that posttranslational regulation of the Na(+)-H+ exchanger is responsible for increased activity in the SHR.
Hypertension 1994 Dec
PMID:Na(+)-H+ exchanger expression in vascular smooth muscle of spontaneously hypertensive and Wistar-Kyoto rats. 799 31

Increased activity of the cellular Na(+)-H+ exchangers (NHEs), especially isoform 1 (NHE-1), is a recognized intermediate phenotype of hypertension. NHE activity has been demonstrated to be increased in proximal tubules of the spontaneously hypertensive rat (SHR). However, with the recent cloning of other members of this family of transporters, it is unclear which isoforms may contribute to this increased activity. We have used specific antibodies raised against glutathione-S-transferase fusion proteins of rat NHE-1 and NHE-3 to determine the relative contributions of these isoforms to the NHE activity in freshly isolated and cultured proximal tubule cells from SHR and Wistar-Kyoto (WKY) normotensive control rats. In freshly isolated proximal tubule cells, NHE activity was elevated almost 3-fold in SHR cells (P < .001), and in both rat strains, the contribution from NHE-1 and NHE-3 was approximately equal. Western blots of membranes from these cells showed equal amounts of NHE-1 protein in SHR and WKY cells. However, NHE-3 protein expression was increased 50% in SHR cells (P < .001), and this may account for the elevated activity of this isoform in SHR. The effect of culturing these cells in vitro was then examined. Although total NHE activity in both cell types was decreased during culture, this was mainly due to loss of expression of NHE-3 protein. NHE-1 activity was persistently elevated in the SHR cells in culture. These findings suggest that elevated NHE activity in SHR proximal tubules could be mediated by two mechanisms: (1) increased NHE-1 activity without any increased NHE-1 protein content that persists despite culture and may resemble those changes described for extrarenal tissues and (2) increased NHE-3 activity due to increased expression of NHE-3 protein. Disappearance of NHE-3 during culture implies that our culture conditions did not replicate the in vivo environment and may have removed the factors contributing to the increased NHE-3 expression in SHR cells.
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PMID:Activity and expression of Na(+)-H+ exchanger isoforms 1 and 3 in kidney proximal tubules of hypertensive rats. 916 88

There have been many reports of increased Na-H exchange (NHE) activity in the peripheral blood cells (erythrocytes, lymphocytes and platelets) of patients with diabetes mellitus compared to nondiabetic controls. This raised NHE activity has been hypothesized to reflect increased NHE activity in kidney and vascular smooth muscle. Raised NHE activity in these tissues could play a pathophysiological role in mediating hypertension, vascular smooth muscle cell proliferation and progressive renal impairment. It is now known that there are at least five NHE isoforms, but a specific study examining expression of NHE isoforms in peripheral blood cells has not been reported. This study used specific antisera to NHE isoforms 1, 3 and 4 to examine NHE expression by immunoblot analysis. Erythrocyte, lymphocyte and platelet membranes from both rabbit and rat were separated by standard methods. A monoclonal antibody to NHE-1 reacted with a 100-110 kDa band in rabbit and rat platelets and lymphocytes (identical to that observed in basolateral-enriched renal cortical vesicles) and a 100 kDa band in rabbit and rat erythrocytes. In both species, the intensity of the staining was greatest in platelet membranes. A polyclonal antibody to NHE-3, the isoform present on the apical membranes of renal proximal tubule, showed no evidence of staining in any of the peripheral blood cell preparations. Similarly there was no evidence of expression of NHE-4 in the peripheral blood cell preparations. Peripheral blood cells express NHE-1, which likely accounts for amiloride-sensitive Na-H exchange in these cells, playing a role in cell volume and pH regulation. However, there is no evidence that there is expression of NHE-3 or NHE-4 in peripheral blood cells. These data have implications for studies in hypertension and diabetes mellitus which measure peripheral blood cell Na-H exchange and hypothesize regarding a direct pathophysiological role for this increased activity.
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PMID:Sodium-hydrogen exchange isoform expression in blood cells: implications for studies in diabetes mellitus. 928 35

Acute systolic arterial hypertension provokes a rapid decrease in proximal tubule sodium reabsorption and diuresis associated with inhibition of renal cortex Na,K-ATPase activity and redistribution of apical membrane Na/H exchanger (NHE-3) to heavier density membranes containing markers of intermicrovillar cleft and endosomes. Because cytochrome P-450-dependent arachidonate metabolites participate in the regulation of renal sodium transport and BP, this study tested the hypothesis that these renal responses to acute hypertension would be prevented if cytochrome P-450 metabolism were inhibited by cobalt chloride (CoCl2). Four groups of rats (n = 4 to 5) were studied: (1) sham-operated; (2) 50 mg of CoCl2/kg subcutaneously for 2 d; (3) acute hypertension by constricting arteries for 5 min; and (4) acute hypertension after CoCl2 treatment as in group 3. Renal cortex was analyzed after sorbitol density gradient fractionation. CoCl2 treatment alone did not significantly affect the rate of urine output, endogenous lithium clearance (an inverse measure of proximal tubule sodium reabsorption), maximal activity of Na,K-ATPase, or subcellular distribution of NHE-3-containing membranes. In non-CoCl2-treated animals, acute hypertension provoked a three- to fourfold increase in urine output and endogenous lithium clearance, 33% inhibition of renal cortex Na,K-ATPase activity, and redistribution of NHE-3 out of the apical membrane peak. In CoCl2-treated animals, acute urine output and endogenous lithium clearance increased only twofold during acute hypertension, there was no inhibition of Na,K-ATPase activity, and there was no redistribution of NHE-3 immunoreactivity to higher density membranes. These findings demonstrate that CoCl2 treatment both attenuates the inhibition of proximal tubule sodium reabsorption and diuresis and abolishes Na,K-ATPase inhibition and NHE-3 redistribution during acute hypertension, evidence that these responses may be mediated by cytochrome P-450 arachidonate metabolites.
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PMID:The cytochrome P-450 inhibitor cobalt chloride prevents inhibition of renal Na,K-ATPase and redistribution of apical NHE-3 during acute hypertension. 955 54

Prolonged stimulation with adrenocorticotropic hormone (ACTH) causes hypertension and increases Na+ intake and urine output in humans and animals. However, its biochemical basis remains to be established. Since renal Na+/H+ exchanger isoforms (NHE) and the sodium pump play an important role in this condition, their levels were examined in rats stimulated with ACTH. Male Wistar rats received daily sc injection of ACTH (30 microg/100 g of body wt) for 4 d. Half of the ACTH-stressed rats were kept for four additional days without injection of ACTH (poststimulation). In a third group, the animals were treated with dexamethasone (50 microg/100 g of body wt) daily for 4 d. A fourth group consisted of unstressed control animals. Levels of NHE proteins were measured by Western blot analysis. Sodium pump activity was assessed by the level of ouabain-sensitive K-stimulated p-nitrophenylphosphatase activity (PNP) in the renal cortex. ACTH caused a selective decrease in NHE-3, but not of NHE-1 or alpha-actin levels. Interestingly, this ACTH-induced change was not duplicated in the animals treated with dexamethasone. Immunofluorescence data demonstrated that NHE-3 is located in the renal proximal tubules. PNP activity, on the contrary, was increased in both the ACTH-stimulated and dexamethasone-treated animals. More important, these changes in NHE-3 and PNP activity returned to the control level poststimulation. In conclusion, while PNP upregulation may be mediated by adrenocortical glucocorticoid, a role for glucocorticoids in the suppression of NHE-3 is less clear. These changes might impair renal tubular Na+ reabsorption and hence increase Na+ and water excretion in ACTH stimulation, thus acting as a counterbalance to normalize blood pressure in ACTH-stimulated animals.
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PMID:Selective suppression of renal Na+/H+ exchanger isoform-3 by prolonged stimulation of rats with adrenocorticotropic hormone. 1195 62

Na+/H+ exchangers (NHEs) extrude protons from, and take up sodium ions into cells. Six isoforms, NHE-1 - NHE-6, have been cloned. NHE proteins are composed of an N-terminal domain, which most likely crosses the cell membrane 12 times and constitutes the cation exchange machinery, and a C-terminal tail, which modulates the exchanger by interacting with protein kinases and regulatory factors. The "house-keeping" NHE-1 is located at the basolateral membrane of most renal tubule cells; NHE-2 is located apically in selected nephron segments. As suggested from data with NHE-1 and NHE-2 deficient mice, both isoforms play a minor role in renal salt and water handling. NHE-3 is located at the apical membrane of proximal tubule and thick ascending limb cells, is involved in Na+ absorption, and is responsible for the majority of bicarbonate absorption. NHE-3 is modulated by the NHE regulating factor, which interacts with further proteins, protein kinases, and the cytoskeleton. Downregulation of NHE-3 by parathyroid hormone, dopamine, and by an increase in blood pressure leads to saluresis/diuresis. The failure of dopamine to downregulate NHE-3 may cause hypertension through renal salt and water retention. NHE-3 knockouts are hypotonic and can not survive on low salt diet. In chronic acidosis, NHE-3 is upregulated possibly through increased local endothelin production. NHE4 has been found mostly in renal medulla. The precise function of this isoform, which is activated by hypertonicity and can perform K+/H+ exchange, is not clear. The segmental location and function of NHE-5 and NHE-6 in the kidney are unknown at present.
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PMID:The Na+/H+ exchanger gene family. 1202 19

Garlic causes reduction in blood pressure (BP), however the role of Na/H exchanger (NHE) which mediates hypertension and related tissue-damage is poorly understood. In this study the effect of an established dose of raw garlic extract was investigated on the expression of NHE-1 and -3 and sodium pump activity in a 2K-1C model of hypertension in rats. 2K-1C animals showed high BP, increased serum concentration of PGE2 and TxB2, hypertrophy of the unclipped kidneys, but not in the clipped kidneys In addition, NHE-1 and NHE-3 isoforms were increased in both the 2K-1C kidneys, whereas alpha-actin was increased in the clipped but not in unclipped kidneys. Sodium pump activity was decreased in the clipped kidneys, but remained unchanged in the unclipped kidneys. Garlic treatment reduced the induction of NHE-1 only in the unclipped 2K-1C kidneys, whereas garlic treatment increased the sodium pump activity in both the 2K-1C kidneys. These findings demonstrate that the antihypertensive action of garlic is associated with a reversal of NHE-1 induction in the unclipped kidneys. Induction of NHE isoforms together with a reduced sodium pump activity might cause necrosis in the 2K-1C clipped kidneys due to cellular retention of Na+. On the other hand, activation of sodium pump by garlic extract in the kidneys should reduce intracellular Na+ concentration and normalize BP. These findings signify the use of garlic in the treatment of hypertension.
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PMID:Mechanism of garlic (Allium sativum) induced reduction of hypertension in 2K-1C rats: a possible mediation of Na/H exchanger isoform-1. 1290 30

The purpose of this study was to compare the expression of BSC-1 (bumetanide-sensitive Na+-K+-2Cl- cotransporter) in kidneys of spontaneously hypertensive rats (SHR) versus Wistar-Kyoto (WKY) rats by immunoblotting and reverse transcription-polymerase chain reaction. To determine the specificity of any observed changes in BSC-1 expression, we also compared expression of the thiazide sensitive Na+-Cl- cotransporter (TSC), the type-3 Na+-H+ exchanger (NHE-3), Na+-K+-ATPase-alpha1, the inwardly rectifying K+ channel (ROMK-1), the type-1 Na+-HCO3- cotransporter (NBC-1), aquaporin-1, and aquaporin-2. Analyses were performed on outer cortex, outer medulla, and inner medulla. BSC-1 protein was detected in outer medulla and was markedly (6-fold) higher in SHR. TSC protein was detected in the cortex and was not overexpressed in SHR. Aquaporin-1 protein was detected in all three regions and was not overexpressed in SHR. Aquaporin-2 and ROMK-1 proteins were detected in all three regions, but were moderately elevated (2-fold) only in the SHR inner medulla. Na+-K+-ATPase and NHE-3 proteins were detected in all three regions. Na+-K+-ATPase-alpha1 was modestly (25%) increased in SHR outer and inner medulla, whereas NHE-3 was moderately (2-fold) increased in the SHR cortex and inner medulla. NBC-1 protein was detected only in the cortex and was higher (2-fold) in SHR. mRNA levels of BSC-1, aquaporin-2, and ROMK-1 were not elevated in SHR, indicating a post-translational mechanism of protein overexpression. High-dose furosemide increased fractional sodium excretion more in SHR than WKY (3-fold). We conclude that increased expression of BSC-1, and to a lesser extent, aquaporin-2, ROMK-1, NHE-3, and NBC-1 may contribute to the pathogenesis of hypertension in the SHR.
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PMID:Increased expression of the sodium transporter BSC-1 in spontaneously hypertensive rats. 1534 4

This study compared renal hemodynamics, the expression of CYP4A isoforms [the enzymes for 20-hydroxyeicosatetraenoic acid (20-HETE) production], and tubular sodium transporters in male rats fed a high-fat (HF) or control diet for 10 weeks. We also studied the effect of treatment with clofibrate, a CYP4A inducer, on sodium retention and renal function and on CYP4A expression in HF rats. HF rats had higher blood pressure (BP), renal plasma flow, and glomerular filtration rate (GFR), but no significant change in renal vascular resistance. Reverse transcription-polymerase chain reaction analysis showed that CYP4A1 and CYP4A8 expression was significantly decreased in the renal cortex of HF rats. Western blot analysis showed up-regulation of expression of the alpha-subunit of the epithelial sodium channel (alpha-ENaC), the beta-subunit of the epithelial sodium channel (beta-ENaC), sodium/hydrogen exchanger (NHE)-3, and the renal outer medulla K(+) channel (ROMK) in HF rats, whereas expression of the gamma-subunit of the epithelial sodium channel and the alpha1-subunit of Na(+)-K(+)-ATPase remained unchanged. Thus, HF treatment caused the reduction of renal CYP4A1 and CYP4A8 expression, whereas the increases in alpha-ENaC, beta-ENaC, NHE-3, and ROMK expression in renal tubules may have contributed sodium retention and hypertension in HF rats. Furthermore, clofibrate treatment (240 mg/kg/day) caused the decrease of BP and GFR and the attenuation of cumulative sodium balance in HF rats. The attenuation of sodium retention by clofibrate treatment is linked to decreased expression of NHE-3 in renal cortex. Clofibrate induction of CYP4A expression occurred in proximal tubules and in the thick ascending limb of the loop of Henle but not in renal microvessels. This induction correlated with the expression of peroxisome proliferator-activated receptor (PPARalpha) in renal tubules. Therefore, these results suggest that the effects of clofibrate on sodium retention and blood pressure regulation in HF rats may be due to the induction of renal tubular 20-HETE production through the PPARalpha pathway.
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PMID:Induction of renal 20-hydroxyeicosatetraenoic acid by clofibrate attenuates high-fat diet-induced hypertension in rats. 1633 92

Increased expression of Na(+)/H(+) exchanger (NHE) and Na(+),K(+)-ATPase activity have been demonstrated in diabetic nephropathy and are implicated in the development of hypertension. The aim of this study was to investigate the effect of a synthetic manganese porphyrin SOD mimic and peroxynitrite scavenger, Mn(III) 5,10,15,20-tetrakis(N-methylpyridinium-2-yl)porphyrin (MnTM-2-PyP) on the expression of NHE and Na(+),K(+)-ATPase activity in the kidneys of streptozotocin (STZ) diabetic rats. MnTM-2-PyP administration (1 mg/kg/day) started immediately after STZ and lasted 2 months. Glucose and glycosylated hemoglobin levels were measured in blood. NHE-1 and NHE-3 isoform expression, Na(+),K(+)-ATPase activity, and markers of ROS/RNS-induced damage were determined in kidney homogenates. Diabetes caused lipid peroxidation, inactivation of aconitase, and increase of nitrotyrosine, which paralleled an increase in NHE-1 and NHE-3 expression and Na(+),K(+)-ATPase activity. MnTM-2-PyP treatment had no effect on blood glucose and glycosylated hemoglobin, but suppressed lipid peroxidation and nitrotyrosine, protected aconitase against inactivation, and reversed the induction of NHE-1 and NHE-3 isoforms. Na(+)/H(+) exchanger is under the control of redox-based cellular transcriptional activity, including members of the SP family of transcription factors. Mn(III) alkylpyridylporphyrins were previously found to inhibit activation of major transcription factors, including SP-1 via scavenging of signaling ROS/RNS. Therefore, our data suggest that, by reducing the levels of ROS/RNS, MnTM-2-PyP might interfere with signaling pathways responsible for NHE up-regulation.
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PMID:Effect of potent redox-modulating manganese porphyrin, MnTM-2-PyP, on the Na(+)/H(+) exchangers NHE-1 and NHE-3 in the diabetic rat. 2000 8


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