UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-one male children and 3 male adults with essential hypertension were infused with physiological saline solution (15 ml/kg/hr) for 1 hr after they had been supine for 90 min. The blood pressure and heart rate were monitored, and blood was taken twice before and after the infusion to measure the plasma Na-K ATPase inhibitor. After saline infusion, both the plasma Na-K ATPase inhibitor and blood pressure increased significantly in the hypertensive adults, and the number of Na pump sites decreased. However, such changes were not observed in the hypertensive children. These findings suggest that circulating Na-K ATPase inhibitor may not appear following acute saline infusion in hypertensive children unlike in hypertensive adults, and that the mechanisms regulating cell membrane sodium transport and high blood pressure may differ between hypertensive children and adults.
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PMID:Significant difference in the effect of acute saline loading on plasma Na-K ATPase inhibitor and blood pressure between children and adults with essential hypertension. 131 74

Vascular smooth muscle cell hypertrophy is a normal compensatory state that may play a pathogenic role in hypertension. Angiotensin II stimulates a hypertrophic response in cultured vascular smooth muscle cells. As part of the growth response, angiotensin II rapidly activates the Na(+)-H+ exchanger, increasing Na+ influx. Because Na+, K(+)-ATPase is the major cellular mechanism for regulating intracellular Na+, we studied the effects of angiotensin II-induced hypertrophy on Na+, K(+)-ATPase expression and activity. Angiotensin II caused rapid increases in both steady-state Na+, K(+)-ATPase activity (ouabain-sensitive 86Rb uptake) and intracellular [Na+]. Angiotensin II also caused a sustained increase in Na+, K(+)-ATPase at 24 hours with a 73% increase in maximal 86Rb uptake per milligram protein and a fourfold increase in Na+, K(+)-ATPase alpha-1 messenger RNA levels. Thus, angiotensin II hypertrophy was associated with rapid increases in Na+, K(+)-ATPase activity due to increased Na+ entry and sustained increases due to a specific increase in Na+, K(+)-ATPase expression. These data demonstrate dynamic regulation of Na+, K(+)-ATPase at the functional and molecular level and suggest that similar compensatory mechanisms should be present in vivo. Alterations in such compensatory pathways may be fundamental to the pathogenesis of hypertension.
Hypertension 1992 Aug
PMID:Na+, K(+)-adenosine triphosphatase regulation in hypertrophied vascular smooth muscle cells. 132 64

Principally to ascertain whether mineral metabolism is involved in weight regulation, the 40 most obese of 1,774 children, aged 10-11 years, screened for obesity were compared with 46 age-matched controls. The obese children had more 3H-Ouabain erythrocyte binding sites (p = 0.04), higher intracellular sodium (p = 0.04), and lower plasma sodium (p = 0.002). After exclusion of the non-Scandinavians, the p values were p = 0.02, p = 0.03, and p = 0.03, respectively. Analysis of variance also showed the differences to be more dependent on obesity than on gender or nationality. It is concluded that obese children have more 3H-Ouabain erythrocyte binding sites indicating an increase of the sodium-potassium adenosine triphosphatase activity. The increase of intracellular sodium may increase the risk of future hypertension.
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PMID:Red cell sodium-potassium adenosine triphosphatase sites and intracellular sodium increased in obese school children. 132 34

Ouabainlike factor (OLF) has been extracted from the hypothalamus and adrenals of the ox and rats of the Milan hypertensive strain (MHS) and their normotensive controls (MNS). OLF was identified by its ability to 1) inhibit ouabain-sensitive 86Rb uptake into human erythrocytes, 2) displace [3H]ouabain binding, and 3) inhibit purified dog kidney Na-K-adenosinetriphosphatase (ATPase). Rat and bovine OLF have similar characteristics. Those that are close to ouabain are 1) ligand conditions for maximal inhibitory activity, 2) high-performance liquid chromatography retention time, 3) reversibility of inhibitory activity on Na-K-ATPase, 4) reduced Na-K pump inhibitory activity by K, 5) high affinity for Na-K-ATPase, and 6) no activity on calcium ATPase. OLF does not resemble ouabain in the following characteristics: 1) the capacity of OLF to inhibit ouabain low-affinity Na-K-ATPase isoform is greater than that of ouabain and 2) the capacity of OLF to inhibit renal Na-K-ATPase isoforms is greater when the enzyme is obtained from adult rather than young rats. The yield of OLF is greater from MHS than MNS. These findings represent the first direct evidence that a higher amount of OLF is present in tissues from genetically hypertensive rats than from their inbred normotensive controls, maintained under the same dietary and environmental conditions. This further supports previous observations on the role of OLF in the pathogenesis of MHS hypertension.
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PMID:Ouabainlike factor in Milan hypertensive rats. 132 60

The beta adrenergic-modulated Na+/K+ ATPase pump rate of red blood cells was measured in vitro in 18 non diabetic obese patients. After challenge of erythrocytes with beta adrenergic selective agonist Salbutamol, the decrement of the K+ concentration in the suspending medium was assumed to be related to the Na+/K+ ATPase pump rate or to the number of beta 2 receptors. The mean K+ uptake was markedly increased in the erythrocytes of obese patients (1.58 mEq/l SD 0.18) if compared with 38 normal subjects (1.30 mEq/l SD 0.11) and with a population of 30 atopic patients that we have previously reported to have a reduced red cells beta 2 receptor activity (1.09 mEq/L SD 0.11). These results are not consistent with the hypothesis that a reduction in the Na+/K+ ATPase pump rate (at least in red blood cells) may be responsible for decreased metabolic rates leading to obesity. Since the autonomic nervous system is involved in the regulation of the cardiovascular system, it is conceivable that an increased Na+ ATPase pump rate (or supersensitivity) may be responsible of the increased incidence of hypertension, congestive heart failure and unexplained sudden death associated with obesity in some patients.
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PMID:Catecholamine-stimulated potassium transport in erythrocytes from normal and obese subjects. 133 39

Aldosterone, like other steroid hormones, initiates its effects by binding to intracellular receptors; these receptors are then able to control the transcription of several genes. The products of these genes eventually modulate the activity of ionic transport systems located in the apical and the basolateral membrane of specialized epithelial cells, thereby modulating the excretion of Na+ and K+ ions. Considerable progress has been made recently in understanding these mechanisms and the structure of the proteins involved in these processes. A novel principle has been discovered to explain the selective effect of aldosterone on its target epithelia. These tissues exclude competing glucocorticoid hormones by the activity of the 11 beta-hydroxysteroid dehydrogenase to allow aldosterone, an enzyme-resistant steroid, to bind to its receptors. Aldosterone induces numerous changes in the activity of membrane ion transport systems and enzymes and cell morphology. Although the enhancement of Na,K-ATPase synthesis and the increase of the number of active Na+ channels in the apical membrane appear as both direct and primary effects, the mechanisms of the other effects remain to be determined. The knowledge of the primary structure of several elements of the aldosterone response system (e.g., mineralocorticoid receptor and Na,K-ATPase) allows us to understand abnormal regulation of Na+ balance at the molecular level and, potentially, to identify genetic alterations responsible for these defects.
Hypertension 1992 Mar
PMID:Aldosterone regulation of gene transcription leading to control of ion transport. 137 88

To study the diastolic properties of the heart includes examining active relaxation, passive ventricular stiffness and atrial contraction. (i) The main determinant of active relaxation is the adenosine triphosphate (ATP) concentration. Relaxation needs to occur so that the ATP content of the cell can be decreased by activation of the myosin ATPase, which in turn depends upon an intracellular messenger, elevation of the calcium transient. In a model of cardiac hypertrophy active relaxation is always slower. This slowing accompanies a slowing of the calcium transient, a diminution in the activity of the Na+/Ca2+ exchanger, a change in the properties of Na+, K+ ATPase and a decreased concentration of Ca2+ ATPase in the sarcoplasmic reticulum. (ii) Chamber stiffness is likely to be increased only in relation to the degree of ventricular hypertrophy. The main, if not unique, determinant of ventricular diastolic tissue stiffness is the structure and concentration of the collagen. Consequently tissue stiffness is augmented in cardiac hypertrophy in which the ventricular collagen concentration is elevated. It is important that both clinically and experimentally cases of cardiac hypertrophy, even those resulting from pressure overload in which myocardial stiffness and cardiac collagen concentration remain unchanged, have been documented. A good example of this is the DOCA-salt model of arterial hypertension. (iii) Atrial contraction is normally more rapid than ventricular contraction, the biological basis for which is the difference in isomyosin content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biological basis of diastolic dysfunction of the hypertensive heart. 139 55

Cytochrome P450 represents the third metabolic pathway of arachidonic acid giving rise to several biologically active compounds, such as 19-HETE, 20-HETE and EETs and their corresponding DHETs. The kidney is the rich source of these metabolites which have some important biologic actions within the kidney. These metabolites have a wide and contrasting spectrum of biological and renal effects, from vasodilation to vasoconstriction and from inhibition to stimulation of Na-K-ATPase, their relative production rates may influence not only renal hemodynamics but also pro- and anti-hypertensive mechanisms of hypertension. There is increasing evidence that the abnormality of these metabolites in animal models of hypertension. However, sufficient evidence of the physiological and pathophysiological roles of hypertension in man is still lacking.
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PMID:Roles of renal cytochrome P450-dependent arachidonic acid metabolites in hypertension. 141 50

Ouabain has recently been reported to be an endogenous Na, K-ATPase inhibitor. To evaluate whether it exerts hypertensive action itself or amplifies the hypertensive action of small doses of mineralocorticoids, 5 mg deoxycorticosterone acetate (DOCA), 1 mg ouabain, or a combination of both were injected into mononephrectomized rats weekly for 6 weeks, and changes in blood pressure were evaluated. The blood pressures of control, DOCA-treated, ouabain-treated, and the combination treatment group at the sixth week were 138 +/- 3 (SE), 160 +/- 6, 144 +/- 6, and 201 +/- 14 mmHg, respectively. The blood pressure of rats given DOCA or ouabain alone was not significantly different from that of controls. In contrast, the blood pressure of rats given the combination of DOCA and ouabain was significantly higher than that of control rats and those given DOCA or ouabain separately. Cardionephromegaly and histopathological changes found in rats given the combination of DOCA and ouabain were consistent with the effects of an elevation of blood pressure. Further evaluation revealed that the amplification effect of ouabain on the hypertensive action of DOCA was dose dependent, with the minimum dose that caused the amplification effect being 0.25 mg/week. These results indicate that ouabain, although devoid of hypertensive action itself, amplifies the hypertensive action of small doses of DOCA and can cause a hypertensive state similar to that induced by larger doses of DOCA. It is inferred that the amplification effect of ouabain on mineralocorticoids is important in the genesis of hypertension.
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PMID:Ouabain as an amplifier of mineralocorticoid-induced hypertension. 144 41

Chick embryos rendered calcium (Ca) deficient by shell-less (SL) culture develop hypertension and tachycardia. Since hypocalcemia is accompanied by hypernatremia systemically but not by lower cellular Ca (Koide and Tuan, 1989), we speculate that cellular Ca handling may be altered in the SL embryo, perhaps involving Na transport. Using erythrocytes (RBC) from day-14 SL and normal (NL) embryos as the experimental cell, cellular Ca handling was studied under varying extracellular osmotic and ionic conditions by analyzing 45Ca uptake and cell volume regulation. Two agents, p-chloromercuriphenylsulfonate (PCM), and inosine/iodoacetamide (INI) were used to treat the RBCs to modify plasma membrane ion permeability and to deplete cellular ATP, respectively. Other cellular functions and activities related to Ca homeostasis, including ATP content and Ca(2+)-ATPase activity, were also analyzed. These analyses showed: (1) in NaCl, Ca uptake was similar in NL and SL cells, except after INI treatment, which resulted in slower Ca uptake by the SL cells, (2) in choline and sucrose, Ca uptake by SL RBCs was higher, (3) Ca uptake by RBCs of both embryos changed depending on the osmotic agent (Na < K < or = choline < sucrose), (4) Ca(2+)-ATPase activity was higher in SL RBC, although there was no change in the size or charge of the enzyme, and (5) in any osmotic agent, cellular Na was significantly lower, whereas cellular K was higher, in SL RBC. Based on these results, three features of RBC Ca handling were apparent: (1) Na-Ca exchange was functional and was more active in SL RBCs, (2) Ca uptake was dependent on the total ionic electrochemical gradient but not on bulk H2O movement, and (3) Ca pumping out capacity was directly correlated with Ca(2+)-ATPase activity. Elevated Ca uptake in sucrose-treated SL RBC is therefore indicative of its greater ion permeability. Taken together, these findings indicate that cellular Ca handling of the RBCs of SL chick embryos is characterized by a more active Na-Ca exchange system, greater ion permeability, and higher Ca pumping out capacity, thereby suggesting an up-regulated Ca handling function in the SL RBCs. The abnormal cellular Ca handling may be a direct result of the systemic Ca deficiency of the SL chick embryo and may be functionally related to its hypertension and tachycardia.
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PMID:Alterations in cellular calcium handling as a result of systemic calcium deficiency in the developing chick embryo: I. Erythrocytes. 144 22

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