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

Four situations in which membrane transport is altered by disease are discussed: (a) non-specific leaks induced by poreforming agents; (b) glucose transport and cellular stress; (c) Ca2+-ATPase and hypertension; (d) Na+ channels and HSV infection.
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PMID:Membrane transport and disease. 256 Jan 40

In order to identify a specific endogenous Na+,K+-ATPase inhibitor which could possibly be related to salt-dependent hypertension, we looked for substances in the methanol extract of bovine whole adrenal which show all of the following properties: (i) inhibitory activity for Na+,K+-ATPase; (ii) competitive displacing activity against [3H]ouabain binding to the enzyme; (iii) inhibitory activity for 86Rb uptake into intact human erythrocytes; and (iv) cross-reactivity with sheep anti-digoxin-specific antibody. After stepwise fractionation of the methanol extract of bovine adrenal glands by chromatography on a C18 open column, a 0-15% acetonitrile fraction was fractionated by high-performance liquid chromatography on a Zorbax octadecylsilane column. One of the most active fractions in 0-15% acetonitrile was found to exhibit all of the four types of the activities. It was soluble in water and was distinct from various substances which have been known to inhibit Na+,K+-ATPase such as unsaturated free fatty acids, lysophosphatidylcholines, vanadate, dihydroxyeicosatrienoic acid, dehydroepiandrosterone sulfate, dopamine, lignan, ascorbic acid, etc. This substance was further purified by using an additional five steps of high-performance liquid chromatography with five different types of columns. Molecular mass was estimated as below 350 by fast atom bombardment mass spectroscopy and ultrafiltration. Heat treatment at 250 degrees C for 2 h and acid treatment with 6 N HCl at 115 degrees C for 21 h almost completely destroyed the inhibitory activity of the purified substance for Na+ pump activity. Additionally, alkaline treatment with 0.2 N NaOH at 23 degrees C for 2 h destroyed approximately 70% of the inhibitory activity, whereas boiling for 10 min and various enzyme digestion did not destroy the activity. The dose dependency for the four types of the activities for this substance paralleled those of ouabain, spanning 2 orders of magnitude in concentration range. The inhibitory potencies of the purified substance for Na+,K+-ATPase, Na+ pump, and ouabain binding activities were diminished with increasing K+ concentration, exhibiting a characteristic typical of cardiac glycosides. This substance had no effect on the Ca2+-ATPase activity or the Ca2+ loading rate into the vesicle prepared from skeletal muscle sarcoplasmic reticulum. These results strongly suggest that this water-soluble nonpeptidic Na+,K+-ATPase inhibitor may be a specific endogenous regulator for the ATPase.
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PMID:Isolation and characterization of a specific endogenous Na+,K+-ATPase inhibitor from bovine adrenal. 284 24

Specific atrial natriuretic factor (ANF) analogues have been found to have inhibitory activity in vitro in a calmodulin-dependent, human red blood cell membrane Ca2+-adenosine triphosphatase (ATPase) model. Studied at 10(-8) to 10(-6) M concentrations, atriopeptin I (residues 127-147 of rat prepro-ANF sequence) and atriopeptin III (residues 127-150) progressively inhibited Ca2+-ATPase activity by up to 20% (p less than 0.001). This degree of inhibition was consistent with activities of other (calmodulin-independent) enzyme inhibitors in this model. Therefore, the C-terminal Phe-Arg-Tyr sequence (residues 148-150) is unnecessary for atriopeptin action on Ca2+-ATPase. Human and rat atrial peptides with amino acids 123-150 were inactive, indicating that the 123-126 sequence (Ser-Leu-Arg-Arg) must be cleaved to activate atriopeptins in this system. Human ANF fragment 129-150 also had no effect on Ca2+-ATPase, defining the importance of residues 127-128 (Ser-Ser) proximal to the disulfide bridge (joining 129 to 145). The addition of purified calmodulin to red blood cell membranes in the presence of inhibitory ANF did not restore Ca2+-ATPase activity to normal levels, indicating that the ANF effect on this enzyme is calmodulin-independent. Atriopeptin I and atriopeptin III had no effect on red blood cell Na+, K+-ATPase activity in vitro. Thus, the structure-activity relationships of ANF analogues in this novel human cell membrane model are highly specific. Although the inhibitory action of ANF analogues on Ca2+-ATPase, a calcium pump-associated enzyme, may be unique to the red blood cell, the calcium dependence of the gluconeogenic effects of ANF in the kidney would be supported by inhibition of this ATPase.
Hypertension 1988 Oct
PMID:Analogue-specific action in vitro of atrial natriuretic factor on human red blood cell Ca2+-ATPase activity. 284 69

The factors regulating calcium homeostasis in the cardiac plasma membrane of renal hypertension in the rat (two kidney-one clip, Goldblatt model) have been studied. Comparison of the cardiac sarcolemma from control (C) and hypertensive (H) rats indicates similar protein yield and purity. Study of longer term hypertension (4 to 12 weeks) shows a decrease in the number of calcium channel receptor binding sites (Bmax C: 549 +/- 122 fmol/mg; H: 334 +/- 74 fmol/mg) as well as a depressed calcium pumping ATPase activity (C: 7.6 +/- 2.5 nmol/mg/min; H: 3.8 +/- 1.5 nmol/mg/min). Furthermore, there is a decreased rate of Na+-Ca2+ exchange (C: 5.4 +/- 1.9 nmol/mg/5 s; H: 2.3 +/- 0.9 nmol/mg/5 s). Study of short-term hypertension (1 to 4 weeks) indicates that the earliest change occurs at 1 week with decreased calcium pumping ATPase due to a change of the Vmax of Ca2+ transport (C: 9.7 +/- 1.6 nmol/mg/min; H: 5.4 +/- 1.4 nmol/mg/min). This is then followed by the decreased calcium channel receptor binding. However, the rate and the extent of depression in Ca2+-ATPase activity are much greater than that of Ca2+ channel receptor binding. Since alteration of Ca2+-ATPase is accompanied by an increase in intracellular Ca2+ concentration and there is a temporal association with the onset of myocardial lesions in the hypertensive rats, it is suggested that elevated intracellular calcium concentration as a result of altered Ca2+-ATPase activity may play a significant role in the development of hypertensive cardiomyopathy.
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PMID:Altered calcium regulation in the cardiac plasma membrane in experimental renal hypertension. 284 6

Platelet free Ca2+ concentration has been found to be elevated in essential hypertension and to correlate with blood pressure level. Free cytoplasmic calcium concentration is determined by calcium influx, pooling, and efflux. The present study found a Ca2+-ATPase in platelet membranes that has a high affinity for Ca2+ (Km approximately 1 microM), is inhibited by low concentrations of orthovanadate (Ki approximately 1 microM), and can be stimulated by calmodulin (Km approximately 5 nM). The absolute increase in calmodulin-stimulated Ca2+-ATPase activity was not different between normotensive and hypertensive subjects; however, the degree of stimulation of Ca2+-ATPase activity at saturating calmodulin concentrations apparently was diminished in calmodulin-deficient membranes from subjects with established essential hypertension (40%) as compared to that in normotensive subjects of similar age (135%; p less than 0.001). Affinities for calmodulin and Ca2+ were comparable between the two groups, while the capacity for Ca2+-ATPase activity (basal and calmodulin-stimulated) was markedly greater (1.5- to 1.8-fold) in both native and calmodulin-deficient membranes from hypertensive subjects. On the other hand, the defective calcium efflux pump activity, as assessed by a decreased degree of calmodulin stimulation, may have contributed to elevated cytoplasmic calcium concentrations and the associated enhanced hormone sensitivity in platelets from essential hypertensive subjects. This may represent an adaptive negative feedback control mechanism to protect the cell against Ca2+ overload.
Hypertension 1986 Feb
PMID:Platelet membrane calmodulin-stimulated calcium-adenosine triphosphatase. Altered activity in essential hypertension. 293 96

The plasma membrane calcium-activated adenosine triphosphatase (Ca2+-ATPase) is known to regulate intracellular calcium levels. This enzyme was localised in intracerebral cortical vessels of normotensive and acutely hypertensive rats. Of interest was whether the arterioles that develop increased permeability to horseradish peroxidase (HRP) in acute hypertension demonstrate any alteration in localisation of Ca2+-ATPase as compared to normotensive controls. Rats were injected with HRP intravenously and acute hypertension was induced by a 2-min infusion of angiotensin amide. Following perfusion of fixative, brains were sliced and reacted for demonstration of HRP reaction product and Ca2+-ATPase. Normotensive rats showed discontinuous distribution of Ca2+-ATPase on the outer plasma membranes of endothelial, smooth muscle and adventitial cells of arterioles. The localisation of Ca2+-ATPase in pinocytotic vesicles present in endothelial and smooth muscle cells was quite striking. Focal cortical areas of hypertensive rats showed increased arteriolar permeability to HRP. Permeable arterioles showed marked reduction of Ca2+-ATPase on the outer plasma membranes of endothelium and smooth muscle cells as compared to nonpermeable arterioles of the same animals and arterioles of normotensive controls. The latter finding suggests that calcium may be involved in increased cerebrovascular permeability mechanisms in acute hypertension.
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PMID:Localisation of calcium-activated adenosine-triphosphatase (Ca2+-ATPase) in intracerebral arterioles in acute hypertension. 296 18

In the pathogenesis of hypertension, the importance of intracellular calcium is increasing. Clinical and experimental studies of essential hypertension indicate a pathological increase of intracellular Ca2+ in this disease. In the past, changes in cellular Na+ and its transport mechanisms were considered the triggering factors and Na+-Ca2+ exchange was attributed a decisive influence on intracellular homeostasis. Recently, a reduced Ca2+-binding capacity of the cellular membrane was observed in hypertension, which could have been due to a defect of the Ca2+-ATPase or its control. It is therefore necessary to establish the hypothesis that changes in the cellular Ca2+ metabolism associated with an increase in the intracellular Ca2+ concentration may be the primary cause of hypertension. Disorders of Na+ transport can also be traced to the increase in intracellular Ca2+ and were thus a consequence but not the cause of the increased intracellular Ca2+ concentration.
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PMID:Alteration of cellular calcium metabolism as primary cause of hypertension. 299 Aug 1

An increase in endogenous Na+,K+-ATPase inhibitor(s) with digitalis-like properties has been reported in chronic renal insufficiency, in Na+-dependent experimental hypertension and in some essential hypertensive patients. The present study specifies some properties and some biochemical characteristics of a semipurified compound from human urine having digitalis-like properties. The urine-derived inhibitor (endalin) inhibits Na+,K+-ATPase activity and [3H]-ouabain binding, and cross-reacts with anti-digoxin antibodies. The inhibitory effect on ATPases of endalin is higher on Na+,K+-ATPase than on Mg2+-ATPase and Ca2+-ATPase. The mechanism of endalin action on highly purified Na+,K+-ATPase was compared to that of ouabain and was similar in that it reversibly inhibited Na+,K+-ATPase activity; it inhibited Na+,K+-ATPase non-competitively with ATP; its inhibitory effect was facilitated by Na+; K+ decreased its inhibitory effect on Na+,K+-ATPase; it competitively inhibited ouabain binding to the enzyme; its binding was maximal in the presence of Mg2+ and Pi; it decreased the Na+ pump activity in human erythrocytes; it reduced serotonin uptake by human platelets; and it was diuretic and natriuretic in rat bioassay. The endalin differed from ouabain in only three aspects: its inhibitory effect was not really specific for Na+,K+-ATPase; its binding to the enzyme was undetectable in the presence of Mg2+ and ATP; it was not kaliuretic in rat bioassay. Endalin is a reversible and partial specific inhibitor of Na+,K+-ATPase, its Na+,K+-ATPase inhibition closely resembles that of ouabain and it could be considered as one of the natriuretic hormones.
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PMID:Further biochemical characterization of an Na+ pump inhibitor purified from human urine. 302 85

Whether maintenance of normal calcium homeostasis can afford protection against the development of hypertension in humans has emerged as a controversial area of both clinical and basic cardiovascular disease research. The data that have provoked this debate are derived from epidemiological reports, human studies, animal investigations, and cellular research. Ten published reports have identified an association between greater dietary calcium consumption and lower blood pressure in humans. In both humans and experimental animals with hypertension, several end-organ defects have been identified that are consistent with an inability to maintain external calcium balance. With the provision of supplemental dietary calcium, both humans and experimental models with high blood pressure have reduced their blood pressure. A variety of membrane-associated defects of Ca2+-ATPase-dependent calcium transport have been identified in cells derived from multiple organs of both the hypertensive animal and human. These abnormalities of cellular calcium handling could account for the failure of the hypertensive subject to appropriately defend its calcium balance. More important, they provide a theoretical mechanism by which calcium, interacting with calmodulin, might favorably modify vascular smooth muscle function and, thereby, peripheral vascular resistance.
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PMID:Metabolic considerations and cellular mechanism related to calcium's antihypertensive effects. 353 38

Many similarities in kidney-function abnormalities were found between hypertensive rats of the Milan strain (MHS) and young normotensive human subjects with hypertensive parents, compared with the appropriate controls. These similarities included an increased glomerular filtration rate, increased pressor effect of the kidney after transplantation, increased 24-h urinary output and lower plasma renin activity and urinary kallikrein. The isolated MHS kidney perfused in vitro with an artificial medium had a higher glomerular filtration rate, a higher urinary output, higher tubular sodium reabsorption and higher oxygen consumption than the kidney of control Milan normotensive rats (MNS). Further, reogenic sodium transport across brush border vesicles isolated from proximal tubular cells is faster in MHS than in MNS. Erythrocytes and proximal tubular cells of MHS have a lower volume and sodium content than those of MNS, while sodium transport is faster and the Ca2+-ATPase at Vmax is lower. This indicates that the 'genetic' cellular abnormality responsible for the renal-function abnormality and the hypertension is also present in erythrocytes. Thus these cells may be used to study the genetic cellular mechanisms of hypertension. Experiments with bone marrow transplantation and with F2 hybrids obtained by crossing the F1 (MHS X MNS) hybrids showed that the MHS erythrocyte abnormalities are genetically determined within the stem cells and are genetically associated with the hypertension. Since, in human hypertensives, there was a correlation between abnormal erythrocyte sodium transport and renal function, it is proposed that erythrocytes may be used in studying the cellular molecular mechanisms of hypertension.
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PMID:A renal abnormality in the Milan hypertensive strain of rats and in humans predisposed to essential hypertension. 353 35


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