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)

This review first summarizes evidence from animals and humans for and against a role for dietary sodium in the genesis and treatment of hypertension. The evidence for its role is strongest in those subjects with impaired ability to excrete sodium because of organic renal disease or mineralocorticoid excess. Here, restriction of dietary sodium promptly lowers pressure. Its role in the genesis of essential hypertension is more controversial. Nevertheless, it appears that some patients with mild to moderate essential hypertension respond to moderate sodium restriction with a modest fall in pressure. This restriction also seems to reduce the amount of antihypertensive medication needed to keep pressure under control. Next, the mechanism of the pressure response to dietary sodium chloride is considered, with emphasis on potassium depletion and increased plasma levels of prohypertensive sodium pump inhibitor and antihypertensive atrial natriuretic peptide. The evidence for a primary role for dietary potassium in the genesis of hypertension then is summarized; certain subsets of subjects with a high incidence of hypertension also have a lower potassium intake. Some investigators have found that dietary potassium supplementation lowers pressure in established hypertension. This may result from natriuresis and from vasodilation subsequent to stimulation of Na+,K(+)-ATPase in vascular smooth muscle and adrenergic nerve terminals. After the role of dietary calcium is discussed, practical aspects of dietary sodium restriction and dietary potassium supplementation in the therapy for established hypertension are considered. The review concludes with comments on their possible roles in the prevention of hypertension.
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PMID:Roles of sodium, potassium, calcium, and natriuretic factors in hypertension. 193 82

Incubation of basolateral membranes obtained from control rat kidney cortex in the presence of atrial natriuretic peptide (ANP) increased (Ca2+ + Mg2+) ATPase activity in a dose-dependent manner. Such response was absent in membranes obtained from animals made diabetic by streptozotocin injection (65 mg/kg, iv). The differential responses in the ATPase activity were not due to changes in the affinity for Ca2+ and insulin treatment in the diabetic animals completely reversed the situation. Our data suggest that ANP may mediate its cellular effects in part by changes in cellular Ca2+ homeostasis in kidney cortex and the lack of response of (Ca2+ + Mg2+) ATPase to ANP in chronic diabetes may contribute to the development of intracellular Ca2+ overload and nephropathy.
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PMID:Lack of response of (Ca2+ + Mg2+) ATPase to atrial natriuretic peptide in basolateral membranes from kidney cortex of chronic diabetic rats. 214 67

Normal pregnancy is associated with a poorly understood loss of vascular responsiveness to the pressor effects of infused angiotensin II. Since cellular cation metabolism appears to be a critical determinant of basal vascular tone and vascular reactivity, we have evaluated platelet ionized calcium, erythrocyte sodium, calcium and magnesium levels, and erythrocyte Ca-ATPase and Na/K ATPase activity in 15 normal black pregnant women (37.5 +/- 0.6 weeks gestation) and 10 normal age-matched nonpregnant black women. Plasma levels of factors potentially affecting vascular reactivity (endoxin, renin activity (PRA), and atrial natriuretic peptide (ANP] were measured by RIA and peripheral vascular resistance by biolectrical impedance. Peripheral vascular resistance was almost twice as high (P less than .003) in the normal group as in the pregnant women. Intracellular calcium concentrations were not significantly different in erythrocytes or platelets of the two groups. Although erythrocyte membrane Ca-ATPase was similar, Na/K ATPase activity was significantly higher in the pregnant subjects than in the nonpregnant controls, and intracellular sodium was lower. All three measured plasma factors, ANP, endoxin and PRA, were significantly elevated in the pregnant women. Our results suggest that the decrease in peripheral vascular resistance seen in normal pregnancy is probably not the result of alterations in cellular cation concentrations and/or cell membrane pump activity. However, the significant correlation between vascular reactivity and circulating ANP indicates this potent vasodilator may play a role in the observed decrease in peripheral vascular resistance associated with pregnancy.
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PMID:Effects of normal pregnancy on cellular cation metabolism and peripheral vascular resistance. 215 37

1. The kidney taken from a rat rendered nephrotic by exposure to puromycin aminonucleoside retains sodium abnormally when perfused in isolation and has an abnormally low vascular resistance (J. D. Firth et al., Clin. Sci. 1989; 76, 387-95). In this study the relation of oxygen consumption to sodium reabsorption has been examined in the isolated nephrotic organ, which has also been exposed to a variety of natriuretic agents and to the effect of inhibition of metabolism by cooling, in an attempt to discern the transport process, or processes, responsible for abnormal tubular handling of sodium. In addition, the effects of three endogenous vasoconstrictors, noradrenaline, angiotensin II and endothelin, on the function of the isolated nephrotic kidney have been examined. 2. The ratio of mol of sodium reabsorbed by the tubules of the isolated nephrotic kidney to mol of oxygen consumed was reduced in comparison with the control kidney (means +/- SEM): 9.22 +/- 0.97 versus 15.43 +/- 1.55 (P less than 0.002). 3. In the presence of ouabain (1 mmol/l), acetazolamide (1 mmol/l), frusemide (200 mumol/l), the combination of these three agents together, hydroflumethiazide (100 mumol/l), benzamil (100 nmol/l) or atrial natriuretic peptide (1000 pmol/l), a lesser increment in sodium excretion was induced in the isolated nephrotic kidney than in the control kidney and the nephrotic organ continued to excrete less sodium in both absolute and fractional terms. 4. This suggests that enhanced tubular sodium reabsorption in the isolated nephrotic kidney does not depend upon abnormally increased activity of the Na+/K(+)-adenosine triphosphatase, bicarbonate-dependent sodium transport, Na+/K+/2Cl- co-transport, electrically neutral proportionate reabsorption of sodium and chloride (distal tubule), epithelial sodium channel (distal tubule) or atrial natriuretic peptide-sensitive sodium transport processes. 5. When isolated nephrotic kidneys and normal kidneys were cooled to 8-10 degrees C the handling of sodium became virtually identical in the two groups. On re-warming to 37 degrees C, the original differences in sodium handling between nephrotic and control kidneys were restored. This implies that the mechanism responsible for the abnormal tendency to retain sodium is temperature-sensitive; as yet it remains otherwise undefined. 6. The sensitivity of the renal vessels to noradrenaline, angiotension II and endothelin, as judged by the percentage reduction in perfusate flow rate produced by a given concentration of any of these agents, was not substantially altered in the nephrotic kidney compared with the control kidney. Increase in vascular tone was not associated with amelioration of the tendency of the isolated nephrotic organ to retain sodium. Increasing concentrations of angiotensin II caused the filtration rate to increase in the nephrotic kidney. This effect was unexpected: in the control preparation, as anticipated, angiotensin II caused the filtration rate to decrease.
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PMID:Effect of natriuretic agents, vasoactive agents and of the inhibition of metabolism on sodium handling in the isolated perfused kidney of the nephrotic rat. 217 43

In normotensive humans with a positive family history of essential hypertension (FHH), blood pressure (BP) is often dysregulated. Resting BP already tends to be slightly higher than in age-matched control groups with negative FHH; BP responses to high sodium intake and perhaps to psychological and/or physical stress may also be exaggerated. Considering BP regulating factors, total exchangeable body sodium, whole blood volume, and their responses to low or high sodium intakes are normal in normotensive subjects with positive FHH; this does not exclude an existing although fully compensated regulatory disturbance. The response of plasma immunoreactive atrial natriuretic peptide levels to a high sodium intake seems to be impaired. On the other hand, a tendency for high ouabain-like Na+/K+-ATPase activity was reported in some normotensive subjects with positive FHH; data on central blood volume are lacking. Basal plasma renin, angiotensin II (AngII), and aldosterone levels, the reactivity of BP to acute increases in circulating AngII, and the responses of these variables to changes in sodium intake did not differe significantly between normotensive groups with a negative or positive FHH; this does not exclude a tendency for low renin-angiotensin activity in certain hypertension-prone families. The responsiveness of plasma aldosterone to acute rises in circulating AngII appeared to be largely unaltered when normotensive subjects with positive FHH were on moderate or high sodium intakes, but aldosterone responses may be blunted on a low sodium diet. Although a familial occurrence of subtle disturbances in AngII-dependent control of aldosterone and renal hemodynamics appears possible, BP regulation by the renin-angiotensin system is probably often intact at the stage of prehypertension. The finding of unaltered basal peripheral venous plasma norepinephrine (NE) and epinephrine levels and NE responses to changes in sodium intake, posture, or physical exercise in normotensive subjects with positive FHH has so far provided no evidence for enhanced sympathetic activity; nevertheless, direct analysis of regional nerve activity or NE release will be required to resolve this question. Regardless of the level of sympathetic activity, an exaggerated pressor responsiveness to NE occurs as a common disturbance in normotensive subjects with a positive FHH.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Dysregulation of blood pressure in normotensive offspring of hypertensive parents. 246 99

The effects of various organotins on membrane function and electrolyte transport were studied in the marine elasmobranch, Squalus acanthias. The isolated perfused rectal gland was used as a model of electrolyte transport. This gland can be stimulated to secrete chloride by atrial natriuretic peptide, veratrine, and vasoactive intestinal polypeptide although the mechanism of action of each secretagogue is different. By analysis of the inhibitory effect of an organotin in the presence of each secretagogue, the mechanism of inhibition can be inferred. Tributyltin (TBT) produced a reversible inhibition of epithelial transport at 10(-8) to 10(-7) M which resulted from inhibition of stimulus-secretion coupling in VIP-containing neurons within the gland. The transporting epithelial cells were unaffected at these concentrations. Trimethytin (TMT) produced inhibition at 10(-7) M which was not reversible and which affected primarily the transporting epithelial cells. Triethyltin and triphenyltin were without effect. The inhibitory effect of TBT and TMT was not affected by simultaneous administration of dithiothreitol. TBT also produced inhibition of oxygen consumption, Na+,K-ATPase, and proton ATPase in dispersed rectal gland cells. These results indicate that organotins are toxic to cell membrane functions which are intimately involved in the movement of electrolytes. This is the first evidence of toxicity to membrane transport functions in a marine species which is at risk from environmental exposure.
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PMID:The effect of organotin compounds on chloride secretion by the in vitro perfused rectal gland of Squalus acanthias. 255 Oct 73

The urinary volume (U.V.), Na excretion (UNaV) and K excretion (UKV) have been reported to show a circadian rhythm in man, but the mechanism of this rhythm has not been made clear. To investigate how atrial natriuretic peptide (ANP) and endogenous digitalis-like substance (DLS) participate in the circadian change in urinary electrolyte, the circadian changes in ANP and DLS (digoxin-like immunoactivity: DLI, Na-K-ATPase inhibitor: ATPI, ouabain binding inhibitor to Na-K-ATPase: OBI) were evaluated in 5 normal man. ANP, DLI and OBI showed no significant correlation with urinary electrolyte excretion, but there was a significant positive correlation between plasma ATPI and urinary Na excretion. From these results it is suggested that circulating Na-K-ATPase inhibitor (plasma ATPI) may be involved in the regulation of the circadian rhythm of urinary Na excretion.
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PMID:The possible role of endogenous digitalis-like substance in the regulation of circadian changes in urinary electrolyte excretion in man. 256 Dec 76

Dopamine, like other neurotransmitters, exerts its biological effects by occupation of specific receptor subtypes. The dopamine receptors in the central nervous system and certain endocrine organs are classified into the D1/D2 subtypes. Outside the central nervous system, the dopamine receptors are classified into the DA1/DA2 subtypes. The D1/D2 and DA1/DA2 receptor have marked similarities and some differences, the most notable of which is the lower affinity of the DA dopamine compared with the D dopamine receptor. DA1 receptor activation increases renal blood flow (RBF); stimulation of DA1 and DA2 receptors may also increase glomerular filtration rate (GFR). DA1 agonists inhibit fluid and electrolyte transport indirectly via hemodynamic mechanisms and directly by occupation of DA1 receptors in specific nephron segments. In the proximal tubule, DA1 agonists simulate adenylate cyclase and inhibit Na+-H+ antiport activity. They also increase phospholipase C and inhibit Na+-K+-ATPase activity (presumably as a consequence of protein kinase C activation). The latter effects may be facilitated by DA2 agonists. In cortical collecting ducts, dopamine antagonizes the effects of mineralocorticoids and the hydrosomotic effect of antidiuretic hormone. It has also been suggested that DA1 may also decrease sodium transport by influencing other hormones, such as atrial natriuretic peptide. Studies of dopamine in the young are complicated because of the propensity for dopamine to stimulate alpha-adrenoceptors. Dopamine alone may actually decrease RBF in the perinatal period. In some animals, the renal vasodilatory and natriuretic effects of dopamine increase with age. Renal tubular DA1-stimulated adenylate cyclase activity increases, whereas renal tubular DA1 receptors decrease with age. Renal DA2 receptor density is greater in the fetus; after birth renal DA2 receptors do not change. Endogenous dopamine may regulate sodium excretion in the young differently than in the adult. In the adult, sodium surfeit is associated with an increase in urinary dopamine; the opposite occurs in the young. A decrease in dopamine production or blockade of dopamine receptors results in an antinatriuresis in the adult; dopamine blockade in the young results in a natriuresis. It remains to be determined whether these age-related differences in dopamine effects are due to changes in receptor DA subtype density, second messengers, and/or interaction with other receptors.
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PMID:The dopamine receptor in adult and maturing kidney. 257 2

1. To test the hypothesis that NaCl increases blood pressure, while NaHCO3 does not, we measured the effect of an NaHCO3-containing mineral water on blood pressure in stroke-prone spontaneously hypertensive (SHR-SP) and Wistar-Kyoto (WKY) rats. We compared mineral water with equimolar amounts of NaCl and demineralized drinking water in six groups of 20 rats each over 24 weeks. 2. NaCl consistently increased blood pressure in both SHR-SP and WKY compared with demineralized water, while mineral water did not. 3. We studied the possible role of sodium-regulating hormones. Sodium, potassium-dependent adenosine triphosphatase activity was decreased by NaCl and by age, but not by mineral water. The concentration of atrial natriuretic peptide was greater in SHR-SP, but was not influenced by the two regimens. Components of the renin-angiotensin-aldosterone system and 18-hydroxydeoxycorticosterone tended to decrease with NaCl, but not with mineral water. 4. Plasma pH values in the six groups of rats were not different; however, SHR-SP had consistently lower PCO2 and HCO3- values and higher anion gap values than WKY rats. These values were not influence by the two regimens. 5. NaCl elevates blood pressure in SHR-SP while NaHCO3 does not. The changes in hormones regulating sodium homoeostasis suggest that NaCl induces volume expansion while NaHCO3 does not. The effect may be related to influences on renal sodium reabsorption by chloride and bicarbonate. The possible role of increased proton excretory activity in SHR-SP remains to be determined.
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PMID:Effect of sodium chloride and sodium bicarbonate on blood pressure in stroke-prone spontaneously hypertensive rats. 284 Feb 35

To elucidate further the possible role of atrial natriuretic peptide (ANP) and hypothetical natriuretic hormone (NH) in volume and BP regulation in chronic renal failure (CRF) we measured plasma ANP, digitalis-like substances (DLS) and Na+-K+-ATPase activity (using 86Rb influx into RBC) in 9 patients with CRF before and after hemodialysis. Volume expansion between consecutive dialyses led in all patients to the elevation of plasma ANP (83.4 +/- 14.2 pmol/l) reaching in some overhydrated subjects and/or patients with concomitant cardiac insufficiency concentration greater than 150 pmol/l. Reduced 86Rb influx into RBC before hemodialysis (37.7 +/- 4.9% of controls) was accompanied by higher DLS concentrations (201 +/- 32 pmol/l). Ultrafiltration during hemodialysis with ECFV reduction lowered both ANP and DLS concentrations to 28.1 +/- 9.4 pmol/l and to 151 +/- 23 pmol/l, respectively, and abolished partly the inhibition of Na+-K+-ATPase activity (64.9 +/- 7.6% of controls). These changes corresponded to the degree of ECFV alteration. Our results suggest that both natriuretic principles are activated during ECFV expansion in CRF, probably as a corrective mechanism, with a tendency to normalize when ECFV is reduced during hemodialysis.
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PMID:Atrial natriuretic peptide concentration and natriuretic hormone activity in plasma of patients with chronic renal failure. 285 Sep 86


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