Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Concentrations of sodium-transport inhibitors (STI) which block the sodium-potassium-ATPase pump are increased in the plasma and urine of volume-expanded and low-renin hypertensive humans and animals. To evaluate the physiologic relevance of STI to blood-pressure-raising mechanisms, we have examined the in vitro properties of STI extracted from the urine of human subjects. STI produced a significant (by ANOVA: P less than .01) dose-contraction response in the isolated rabbit femoral artery. Moreover, small noncontractile doses of STI in this in vitro preparation produced a fivefold leftward shift in the contraction dose-response curve of norepinephrine (P less than .01) and a threefold shift for angiotensin II (P less than .01); at lower, physiologic, concentrations of these vasoconstrictor hormones the amplifications in contraction caused by STI ranged from 100% to 500%. In studies in calcium-free tissue bath solutions, the direct contractile action of STI was abolished; however, its amplification of responses to norepinephrine remained, suggesting that this latter effect of STI is not entirely dependent upon calcium influx into vascular smooth muscle cells. The glycoside ouabain produced effects identical to those of STI in arteries, but its actions on a rabbit atrium preparation were different: ouabain stimulated powerful inotropic effects, whereas human STI failed to cause myocardial contractions even though the amounts of STI administered had the same sodium-transport inhibitory capacity as the ouabain. Thus, the actions of human STI are primarily in the peripheral circulation, where they directly produce arterial contractions and also enhance contractile responses to other pressor hormones, suggesting that they may have a role in regulating systemic blood pressure.
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PMID:Effects of a human-derived sodium transport inhibitor on in vitro vascular reactivity. 280 70

An endogenous sodium pump inhibitor, or digitalis-like factor (DLF), has been postulated to mediate essential hypertension. It may also play a role in preeclampsia. However, studies of this factor in hypertensive pregnancy have not provided consistent findings. Part of this may be due to the absence of subclassification of pregnant women with pregnancy-induced hypertension (PIH) when assessing these parameters. In this study we explored serum DLF and digoxin-like immunoreactive factor (DLIF) in insulin-dependent diabetic (IDDM) women with normotensive pregnancies or PIH, comparing them to each other and to nondiabetic pregnant women. Our results demonstrated that nondiabetic women with preeclampsia (PE, PIH with proteinuria) had significantly increased serum DLF and DLIF compared to normotensive pregnant women (NL BP). Women with transient hypertension of pregnancy (THP, PIH without proteinuria) had intermediate values (DLF. NL BP: 3.3 +/- 0.6, THP: 4.8 +/- 1.1, PE: 7.6 +/- 1.3% inhibition [Na,K]-ATPase, P < .05 ANOVA; DLIF. NL BP: 0.22 +/- 0.02, THP: 0.28 +/- 0.03, PE: 0.35 +/- 0.02 ng digoxin equivalents/mL, P < .05 ANOVA). Pregnant normotensive IDDM women had significantly higher serum DLF and DLIF activity than their nondiabetic counterparts (DLF. non-IDDM NL BP: 3.3 +/- 0.6 v IDDM NL BP: 8.8 +/- 1.2% inhibition [Na,K]-ATPase, P = .0008; DLIF. non-IDDM NL BP: 0.22 +/- 0.02 v IDDM NL BP: 0.31 +/- 0.02 ng digoxin equivalents/mL, P = .005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Digitalis-like factor and digoxin-like immunoreactive factor in diabetic women with preeclampsia, transient hypertension of pregnancy, and normotensive pregnancy. 873 86

In experimental endolymphatic hydrops (EEH) a decrease in the endocochlear potential (EP) has been reported and is thought to be due to decreased activity of the enzyme Na+/K(+)-ATPase in the stria vascularis. By stimulating Na+/K(+)-ATPase, the EP, and thereby cochlear function as a whole, might be restored. On the other hand, stimulation of stria vascularis Na+/K(+)-ATPase might result in excessive production of endolymph and thus produce or augment hydrops. In this study we have investigated the effect of intraperitoneally applied nimodipine on cochlear potentials and on Na+/K(+)-ATPase activity in the stria vascularis, both in normal cochleas (control) and in cochleas with EEH. Nimodipine is an L-type Ca(2+)-channel blocking agent with Na+/K(+)-ATPase stimulating properties at concentrations as low as 1.5 nM. The compound action potential (CAP), evoked by 2,4 and 8 kHz tone bursts was found to be depressed in the EEH ears with and without nimodipine treatment, and in the nimodipine treated control ears. Statistical analysis (ANOVA) showed that the effects of EEH and nimodipine on the CAP were additive. The negative summating potential (SP), measured extracochlearly at the apex, in response to 4 and 8 kHz tone bursts was significantly enhanced in the EEH ears. Nimodipine treatment did not affect the SP, neither in the control, nor in the EEH ears. Cytochemically, Na+/K(+)-ATPase activity appeared to be decreased in the oedematous stria vascularis of hydropic cochleas. No effect of nimodipine on Na+/K(+)-ATPase activity could be established ultracytochemically, neither in the controls nor in the EEH ears. In the lower turns of some of the nimodipine treated control cochleas a mild hydrops was seen during light-microscopic evaluation. Although it was not possible to prove a stimulatory effect of nimodipine on the enzyme Na+/K(+)-ATPase cytochemically, the finding of mild endolymphatic hydrops in nimodipine treated control ears suggests (a history of) increased endolymph production. This hydrops might be responsible for the depression of the CAP in the nimodipine treated ears.
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PMID:The effect of nimodipine on cochlear potentials and Na+/K(+)-ATPase activity in normal and hydropic cochleas of the albino guinea pig. 792 42

The Na+,K(+)-ATPase plays a key role in the regulation of ion fluxes and membrane repolarization in the CNS. We have studied glucocorticoid effects on biosynthesis of the Na+,K(+)-ATPase and on ouabain binding in the ventral horn of the spinal cord using intact rats, adrenalectomized (ADX) rats, and ADX rats receiving dexamethasone (ADX+DEX) during 4 days. Cryostat sections from spinal cords were incubated with a 35S-oligonucleotide coding for the alpha 3-subunit or a 3H-cDNA coding for the beta 1-subunit of the Na+,K(+)-ATPase using in situ hybridization techniques. In ventral horn motoneurons, grain density per cell and grain density per area of soma for both probes were slightly reduced in ADX rats but significantly increased in the ADX+DEX group, using ANOVA and the Bonferroni's test. Statistical analysis of frequency histograms of neuronal densities further indicated a significant shift to the right for intact rats compared with ADX rats for both probes. Concomitantly, [3H]ouabain binding to membrane preparations from ventral horns was reduced in ADX rats and restored to normal by DEX administration. No effect of adrenalectomy or DEX treatment was obtained in the dorsal horn. In conclusion, glucocorticoids positively modulate the mRNA for the alpha 3-subunit and the beta 1-subunit of the Na+,K(+)-ATPase and recover ouabain binding to normal values. The increments of the synthesis and activity of an enzyme affecting membrane repolarization and synaptic neurotransmission are consistent with the alleged stimulatory effect of glucocorticoids on spinal cord function.
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PMID:Dexamethasone increases adrenalectomy-depressed Na+,K(+)-ATPase mRNA and ouabain binding in spinal cord ventral horn. 793 53

Intracellular free sodium levels ([Na+]i) were assessed with 23Na nuclear magnetic resonance (NMR) spectroscopy in isolated, Langendorff-perfused normal, compensated hypertrophied, and hypertrophied failing guinea pig hearts under several conditions. Baseline [Na+]i measured with a shift reagent was significantly greater than normal in the compensated hypertrophied hearts (12.8 +/- 1.2 mmol/L v 6.4 +/- 0.7 mmol/L, means +/- SEM, P < .01), but not in the hypertrophied failing hearts (8.7 +/- 1.9 mmol/L, P = N.S.). Moreover, the highest levels of [Na+]i were seen just 3 to 4 weeks after aortic constriction. [Na+]i was inversely related to both time after aortic constriction (R = -0.71, P < .03) and to the degree of left ventricular hypertrophy (R = -0.79, P < .01), suggesting that the hypertrophied failing heart is capable of maintaining relatively normal [Na+]i. In addition, triple quantum filtered NMR measurements were made to assess changes in [Na+]i subsequent to altered perfusion or loading conditions. In hypertrophied failing hearts, but not normal hearts, low coronary perfusion pressure (60 cm H2O) was associated with relatively higher [Na+]i (ANOVA, P < .05), suggesting greater sensitivity of hypertrophied failing hearts to hypoperfusion. On the other hand, when all hearts were perfused at 90 cm H2O and intraventricular balloon volume was increased from 100 microL to 300 microL, [Na+]i increased significantly only in the normal guinea pig hearts (12.3 +/- 1.8%, P < .01). These findings suggest complex changes in the expression or modulation of proteins involved in Na+ regulation. Interpretation regarding the physiological significance of these changes depends on the specific mechanism(s) proposed. Previous work in this and other models of hypertrophy suggest that changes in the number or activity of both Na(+)-K(+)-ATPase and Na(+)-Ca2+ exchange proteins are involved.
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PMID:Effects of hypertrophy and heart failure on [Na+]i in pressure-overloaded guinea pig heart. 854 Oct 10

Considerable, but as yet still controversial evidence indicates the presence, in mammalian tissues of endogenous digitalis-like factors (EDLFs) which inhibit cell membrane Na+, K(+)-adenosine triphosphatase (Na+, K(+)-ATPase) and which may cross-react with anti-digitalis antibodies. The aim of this study was to evaluate the effect of antibodies against cardiac glycosides on Na+, K(+)-ATPase in human erythrocytes. For this purpose, we measured the effect of antibodies against two different cardiac glycosides (anti-ouabain rabbit antiserum and anti-digoxin Fab fragments) on the activity of the Na+, K(+)-ATPase, as measured by erythrocyte rubidium-86 (86Rb) uptake, in subjects who had never come into contact with exogenous cardiac glycosides, and compared these results with the effect of two control rabbit sera: a normal serum and an antiserum to a non-related antigen. Anti-ouabain rabbit antiserum and anti-digoxin Fab fragments induced a significantly greater percentage change in 86Rb uptake in the erythrocytes than the two control sera (ANOVA followed by multiple comparison by the Games-Howell test). The average percentage change was +11.8 +/- 16.3% (n = 19) (mean +/- SD) for anti-ouabain antiserum +10.8 +/- 15.6% (n = 23) for anti-digoxin Fab fragments, -1.68 +/- 11.2% (n = 11) for anti-rhGM-CSF antiserum, and -5.8 +/- 11.7 (n = 10) for normal control serum. In a subgroup of ten subjects in whom the 3 antisera were tested simultaneously, the stimulation of erythrocyte 86Rb uptake induced by the two antidigitalis antibodies correlated significantly (r = 0.906, p = 0.001, n = 10).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The stimulatory effect on human erythrocyte rubidium-86 uptake by anti-cardiac-glycoside antibodies. 857 8

Age-related changes in the expression of Na, K-ATPase alpha1- and alpha3-isoform mRNAs were analyzed by in situ hybridization in the Fischer-344 rat hippocampus. Quantification of signal density with cRNA probes in rat hippocampus at 3 months of age showed (a) alpha1 content is 1.5 times higher in granule than in pyramidal cell layers, whereas alpha3 content shows the opposite ratio and (b) alpha3 label is found in large clusters related to mossy cells and basket cells and in medium clusters corresponding to interneurons within the dendritic fields of CA1-3. In the 24-month-old rats as compared with the young animals, the alpha1 signal is increased more than sevenfold in the dendritic fields and is not significantly changed in the perikaryal layers. The alpha3 signal is reduced about threefold (p<0.0001, ANOVA, n=6) in perikaryal layers, is almost completely absent over interneurons, basket cells, and mossy cells, and is not significantly changed in dendritic fields. These data indicate age-related, cell- and isoform-specific alterations in pretranslational regulation of Na,K-ATPase a isoforms. The striking changes in the dendritic fields, mossy cells, and GABAergic basket cells and interneurons may constitute early and sensitive markers for age related alterations in hippocampal function, before cell loss.
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PMID:In situ analysis of Na, K-ATPase alpha1- and alpha3-isoform mRNAs in aging rat hippocampus. 862 33

We have previously shown that angiotensin II (Ang II) has a role at the level of the eel gill chloride cell regulating sodium balance, and therefore osmoregulation; the purpose of the present study was to extend these findings to another important osmoregulatory organ, the kidney. By catalytic histochemistry Na(+)/K(+)ATPase activity was found in both sea water (SW)- and freshwater (FW)-adapted eel kidney, particularly at the level of both proximal and distal tubules. Quantitation of tubular cell Na(+)/K(+)ATPase activity, by imaging, gave values in SW-adapted eels which were double those found in FW-adapted eels (Student's t-test: P<0.0001). This was due to a reduced number of positive tubules present in FW-adapted eels compared with SW-adapted eels. By conventional enzymatic assay, the Na(+)/K(+)ATPase activity in isolated tubular cells from SW-adapted eels showed values 1.85-fold higher those found in FW-adapted eels (Student's ttest: P<0.0001). Perfusion of kidney for 20 min with 100 nM Ang II provoked a significant increase (1.8-fold) in Na(+)/K(+)ATPase activity in FW, due to up-regulation of Na(+)/K(+)ATPase activity in a significantly larger number of tubules (Student's t-test: P<0.0001). The effect of 100 nM Ang II in SW-adapted kidneys was not significant. Stimulation with increasing Ang II concentrations was performed on isolated kidney tubule cells: Ang II provoked a dose-dependent stimulation of the Na(+)/K(+)ATPase activity in FW-adapted eels, reaching a maximum at 100 nM (1.82-fold stimulation), but no significant effect was found in SW-adapted eels (ANOVA: P<0.001 and P>0.05 respectively). Isolated tubule cells stimulated with 100 nM Ang II showed a significant generation of inositol trisphosphate (InsP(3)) and an increment in calcium release from intracellular stores. In conclusion, our results suggest that tubular Na(+)/K(+)ATPase is modulated by environmental salinity, and that Ang II has a role in regulating its activity in FW-adapted eels, probably through an InsP(3)-dependent mechanism.
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PMID:Angiotensin II modulates the activity of the Na+/K+ATPase in eel kidney. 1075 45

Essential hypertension is a common disease the genetic determinants of which have been difficult to unravel because of its clinical heterogeneity and complex, multifactorial, polygenic etiology. Based on our observations that alpha(1)-Na,K-ATPase (ATP1A1) and renal-specific, bumetanide-sensitive Na,K,2Cl-cotransporter (NKCC2) genes interactively increase susceptibility to hypertension in the Dahl salt-sensitive hypertensive (Dahl S) rat model, we investigated whether parallel molecular genetic mechanisms might exist in human essential hypertension in a relatively genetic homogeneous cohort in northern Sardinia. Putative ATP1A1-NKCC2 gene interaction was tested by comparing hypertensive patients (blood pressure [BP] >165/95 mm Hg) with normotensive controls age >60 years with BP <140/85 mm Hg. Genotype analysis with microsatellite markers revealed conformation to Hardy-Weinberg proportions for 6 alleles of both ATP1A1 (D1S453) and NKCC2 (NKCGT7) markers, respectively. Two-by-six chi(2) analysis of alleles identified overrepresentation of ATP1A1 No. 4 and NKCC2 No. 4 alleles, respectively, in hypertensives compared with controls. With a qualitative trait framework, single-gene analysis detected association of both the ATP1A1 No. 4 allele (P=0.004, chi(2)=8.094, df=1) and the NKCC2 No. 4 allele (P=0.0002, chi(2)=14.279, df=1) with moderate to severe hypertension. Digenic analysis revealed that ATP1A1 No. 4-NKCC2 No. 4 allele interaction increases susceptibility to hypertension (P<0.0001, chi(2)=22.3, df=1) beyond levels obtained in single-gene analysis. Analysis was also performed in a quantitative trait framework with BP as the continuous trait parameter. Digenic analysis of ATP1A1 No. 4-NKCC2 No. 4 allele interaction revealed significant association with systolic (1-way ANOVA, P=0.000076) and diastolic (P=0.00099) BP. Interaction was corroborated by 2x2 factorial ANOVA for interaction (systolic BP interaction term, P<0.05, diastolic BP interaction term, P=0.035). The data are compelling that ATP1A1 and NKCC2 genes are candidate interacting hypertension-susceptibility loci in human essential hypertension and affirm gene interaction as an important genetic mechanism underlying hypertension susceptibility. Although corroboration in other cohorts and identification of functionally significant mutations are imperative next steps, the data provide a genotype-stratification scheme, with 4-fold predictive value (odds ratio, 4.28; 95% confidence interval, 2.29 to 8.0), which could help decipher the complex genetics of essential hypertension.
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PMID:Interaction of alpha(1)-Na,K-ATPase and Na,K,2Cl-cotransporter genes in human essential hypertension. 1150 77

The effects of in vivo chronic treatment and in vitro addition of imipramine, a tricyclic antidepressant, or fluoxetine, a selective serotonin reuptake inhibitor, on the cortical membrane-bound Na+,K+-ATPase activity were studied. Adult Wistar rats received daily intraperitoneal injections of 10 mg/kg of imipramine or fluoxetine for 14 days. Twelve hours after the last injection rats were decapitated and synaptic plasma membranes (SPM) from cerebral cortex were prepared to determine Na+,K+-ATPase activity. There was a significant decrease (10%) in enzyme activity after imipramine but fluoxetine treatment caused a significant increase (27%) in Na+,K+-ATPase activity compared to control (P<0.05, ANOVA; N = 7 for each group). When assayed in vitro, the addition of both drugs to SPM of naive rats caused a dose-dependent decrease in enzyme activity, with the maximal inhibition (60-80%) occurring at 0.5 mM. We suggest that a) imipramine might decrease Na+,K+-ATPase activity by altering membrane fluidity, as previously proposed, and b) stimulation of this enzyme might contribute to the therapeutic efficacy of fluoxetine, since brain Na+,K+-ATPase activity is decreased in bipolar patients.
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PMID:In vivo and in vitro effect of imipramine and fluoxetine on Na+,K+-ATPase activity in synaptic plasma membranes from the cerebral cortex of rats. 1159


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