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

Sarcolemma was isolated by fractionation of salt-extracted particles on two consecutive sucrose density gradients. Salt extraction of homogenates, rather than of washed particles, was found to preserve the activities of adenylate cyclase and ouabain-sensitive (Na+,-K+)-ATPase in the isolated sarcolemmal membranes. Purified sarcolemma contained substantial adenylate cyclase and guanylate cyclase activities that were stimulable by beta-adrenergic and muscarinic agonists, respectively. Significant ouabain-sensitive (Na+, K+)-ATPase activity as well as putative digitalis receptor activity was also present in sarcolemma. Cyclic nucleotide phosphodiesterases of sarcolemma, both cAMP- and cGMP-dependent, displayed positive cooperativity of substrate interactions; Ca2+ ions were found to increase the activity of the GMP-dependent enzyme.
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PMID:Isolation and enzymatic characterization of guinea pig cardiac sarcolemma. 2 1

Renal Na-K-ATPase activity changes adaptively in response to chronic alterations in sodium reabsorption or potassium secretion, but the role of this enzyme in rapid adjustments of renal tubular Na and K transport is not known. To evaluate this question, microsomal Na-K-ATPase specific activity and kinetics were determined in the rat and guinea pig kidney after massive but short-term (3 h) sodium or potassium loading. In other experiments renal sodium handling was evaluated in hydropenic and saline-loaded rats in which enzyme synthesis was prevented by the concurrent administration of actinomycin D or cycloheximide. Saline loading increased net sodium reabsorption in both rats and guinea pigs, but microsomal Na-K-ATPase from the outer medulla (where the reabsorptive increment is greatest) did not change significantly in either species. In vitro [3H]ouabain bidint to guinea pig microsomes and apparent Km for sodium of rat microsomal Na-K-ATPase, both from outer medulla, were also unaltered. Actinomycin D and cycloheximide failed to increase sodium excretion and microsomal Na-K-ATPase remained unchanged. KCL loading resulted in a 10-fold increase in K excretion but again Na-K-ATPase specific activity (in cortex, outer medulla, and papilla), and its apparent Km for potassium were not affected. Taken together these results suggest that rapid adjustments in remal tubular Na or K transport are mediated by mechanisms that do not involve the Na-K-ATPase enzyme system.
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PMID:Relation of Na-K-ATPase to acute changes in renal tubular sodium and potassium transport. 12 1

Intravitreal irrigation with Balanced Salt Solution Plus (BSS Plus) produced less decrease in b-wave amplitude than either normal saline solution or Balanced Salt Solution. BSS Plus was more suitable for intravitreal irrigation because it contained the appropriate bicarbonate, pH, and ionic composition necessary for maintenance of normal retinal electrical activity, and it contained glutathione, which is necessary for maintenance of endothelial cell adenosine triphosphatase and for protection against free radical damage and oxidative stress.
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PMID:The effects of intravitreal irrigation during vitrectomy on the electroretinogram. 47 95

1. Rats were prepared under anaesthesia with non-occlusive catheters in hepatic portal vein (HP) and inferior vena cava (VC) and maintained under standard conditions. 2. Each rat received a series (3 day intervals) of 30 min infusions of different solutions or sham into HP or VC. Oral intake of 0.15 M-NaCl and water were measured for 30 min. Significant change in drinking behaviour was assumed when the response to HP infusion differed from both sham and VC infusion. 3. Saline drinking was inhibited by HP infusion of 1 M- or 2M-NaCl, an effect blocked by right vagotomy or by addition of 16 mM-KCl to the infusate. 4. Saline drinking was increased and water drinking decreased by HP infusion of 2 M-glucose but not sucrose or fructose. 5. Saline drinking was decreased by HP infusion of deoxy-D-glucose to inhibit glucose utilization or ouabain to inhibit (Na4-K+) ATPase. 6. Results are consistent with the presence of afferent nerve terminals in hepatic portal vessels which are sensitive to change in NaCl or glucose concentration and which, in response thereto, alter drinking behaviour. The effects of NaCl and glucose on the discharge rate of the nerve terminals may be interpreted in terms of changing activity or electrogenicity of a Na pump but changes in membrane conductance or Na influx cannot be ruled out.
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PMID:Hepatic portal vein infusion of glucose and sodium solutions on the control of saline drinking in the rat. 62 89

In addition to demonstrating evidences of increased sympathetic nervous system activity and marked left ventricular hypertrophy in salt-sensitive hypertensives, our group has also reported increased weight gain with salt overload in these patients. The increased weight gain suggests volume expansion, a situation already shown to increase plasma levels of a Na, K-ATPase inhibitor. Therefore, in the present study, digoxin-like factor (DLF) serum levels, spontaneous salt ingestion, nifedipine hypotensive effect, and plasma renin activity were evaluated in essential hypertensive subjects. Thirteen essential hypertensive outpatients were studied sequentially on an ad lib diet, a low salt diet (LSD = 30 mEq Na/day), and a high salt diet (HSD = LSD + 171 mmol/L NaCl/day), 1 week each. On the seventh day of LSD and HSD, DLF levels, mean blood pressure (MBP) response to nifedipine (10 mg sublingual), and plasma renin activity were measured. The MBP percent change from the seventh day of LSD to the seventh day of HSD (salt sensitivity) ranged from -13.7 to 20.9%. A positive correlation (r = 0.64, P < .01) was observed between salt sensitivity and 24-h urinary sodium excretion with an ad lib diet. The DLF serum levels correlated with the salt sensitivity both on LSD (r = 0.50, P < .05) and on HSD (r = 0.53, P < .05). Salt sensitivity was positively correlated with the difference of response to nifedipine between HSD and LSD (r = 0.78, P < .001). Plasma renin activity correlated inversely with DLF on LSD (r = -0.51, P < .05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Higher salt consumption, digoxin-like factor, and nifedipine response are associated with salt sensitivity in essential hypertension. 141 33

Saline extracts of burn eschar (CEBE) and normal skin (CENS) caused inhibition to mitochondrial respiration and inner membrane function. Ethyl acetate extracts from CEBE (D1) and CENS (D'1) caused depression of the Respiratory Control Ratio, (RCR), an inhibition of respiration rate in state 3 and stimulation to state 4 respiration. Excellent linear correlations exist between the degree of inhibition to state 3, rate of stimulation to state 4 respiration and the logarithm of doses of D1 and D'1. The effective dose ranges (0.75-0.25 mg/ml for D1 and 4-1 mg/ml for D'1) differ by one order of magnitude. The activity of NADH dehydrogenase and succinate dehydrogenase of mitochondria after incubation with the highest toxic dose of D1 or D'1 remained normal. Dinitrophenol (DNP)-stimulated respiration was moderately inhibited by D1 and D'1. No change of oligomycin-sensitive ATPase activity was demonstrated. Exogenous malondialdehyde (MDA) did not show any inhibitory effect. Preliminary studies show that D1 contains a family of free fatty acids (FFA). Incubation of normal mitochondria with D1 increased the content of saturated FFA and a decrease of unsaturated FFA. The role of other peroxidative products is under investigation.
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PMID:Inhibition of mitochondrial respiratory function by an organic solvent extractable component from an extract of burn eschar. 183 77

To investigate the mechanism whereby blood pressure rises with NaCl loading in salt-sensitive essential hypertension, salt-sensitivity index was determined along with sodium and lithium clearances, plasma Na+,K(+)-ATPase inhibitor and intra-erythrocyte sodium and potassium concentrations. Salt-sensitivity index was defined as the percentage of change in mean blood pressure when NaCl intake was changed from low (34 mmol/day) to high (342 mmol/day). Salt-sensitivity index was inversely correlated with fractional excretion of lithium both on the low and high NaCl diets (r = -0.721, P less than 0.01 and r = -0.591, P less than 0.02, respectively; n = 16), but not with fractional excretion of sodium. The change of plasma Na+,K(+)-ATPase inhibition with NaCl loading had a direct correlation with salt-sensitivity index (r = 0.704, P less than 0.01; n = 16). Either intra-erythrocyte sodium and potassium concentrations or the ratio of these two values did not change significantly with an increase of dietary NaCl intake. These results suggest that an enhancement of proximal tubular sodium reabsorption stimulates secretion of plasma Na+,K(+)-ATPase inhibitor which may be involved in a rise in blood pressure with sodium loading. They also suggest that lithium clearance is a determinant which can predict salt sensitivity without actual NaCl loading.
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PMID:Renal sodium handling and sodium transport inhibitor in salt-sensitive essential hypertension. 184 59

The relation between sodium and blood pressure is a centuries-old question. A substantial body of epidemiological and experimental data has accumulated that strongly implicates NaCl as having a causal role in the genesis of arterial hypertension. Prospective studies that have been performed in diverse populations that have manipulated NaCl exposure by diet or infusion have repeatedly documented an NaCl pressor effect. Further, similar studies in biracial populations have also demonstrated a greater prevalence of "salt sensitivity" in blacks compared with whites. The reasons for this observation are not entirely clear; however, intrinsic or hypertension-induced renal abnormalities that limit natriuretic capacity, reduced Na+,K(+)-ATPase pump activity, other membrane ion transport disturbances, differential exposure to psychological stressors, greater insulin resistance, and dietary factors (reduced Ca+ and K+ intake) have all been suggested as possibly playing a role. Salt sensitivity appears to be a widespread phenomenon. However, it is critically important to determine what factors account for racial differences in salt sensitivity. Moreover, the prevalence of salt sensitivity in the general population is unknown. Current definitions of salt sensitivity are varied and unidirectional. In comparison with bidirectional criteria (blood pressure increase with salt loading and blood pressure decrease with salt restriction), they are probably inadequate to identify salt-sensitive individuals who manifest less extreme blood pressure change after dietary sodium or plasma volume manipulations. More sensitive criteria for diagnosing salt sensitivity will facilitate a better understanding of racial and ethnic differences in the prevalence of salt sensitivity.
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PMID:Racial and ethnic modifiers of the salt-blood pressure response. 198 88

Sodium chloride has no clearly established local direct action on blood vessels to produce constriction; on the contrary, it has an immediate local indirect action via osmolality, which produces vasodilation. Thus in order to explain salt-induced hypertension, a delayed remote indirect vasoconstrictor action must be postulated. This indirect vasoconstrictor action is apparently the result of volume expansion. Acute volume expansion imparts three physiologic properties to the plasma; these are the ability to inhibit Na,K-ATPase and the Na-K pump, to cause natriuresis, and to sensitize blood vessels to vasoconstrictor agents. Similarly, low-renin, volume-expanded hypertension endows the plasma with the capacity to inhibit the Na,K-ATPase pump, to sensitize blood vessels to vasoconstrictor agents, and to raise blood pressure. These properties apparently result from a circulating digitalislike substance(s), perhaps derived from the hypothalamus and/or adrenals. We here review the considerable effort expended in identifying the agent or agents, and conclude that both steroidal and peptidic structure must be considered. Regardless of its structure, we hypothesize that when sodium excretion does not keep pace with sodium intake, its release leads to increased contractile activity of cardiac and vascular smooth muscle and hence hypertension. Inhibition of the Na-K pump increases the intracellular sodium concentration, particularly when superimposed on genetic- or aldosterone-induced increased sodium permeability, resulting in depolarization and increased calcium influx (vascular smooth muscle) or altered Na(+)-Ca2+ exchange and decreased calcium efflux (heart muscle). The increased intracellular calcium concentration then accounts for the increased contractile activity. Depolarization may also increase the sensitivity of vascular smooth muscle to vasoconstrictor agents such as norepinephrine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Digitalislike circulating factor in hypertension: potential messenger between salt balance and intracellular sodium. 217 7

The possible role of endogenous sodium pump inhibitors was studied in salt-sensitive rats of Dahl strain which were influenced by high salt intake either in youth (from prepuberty) or only in adulthood. The aim of our study was to search for the relations between the age-dependent blood pressure response to high salt intake and the changes in volume or distribution of body fluids, red cell ion transport or Na+,K+-ATPase activity in various tissues of salt-sensitive (S/JR) and salt-resistant (R/JR) rats. Salt hypertension was especially pronounced in those S/JR rats which were maintained on a high-salt diet from prepuberty. This was accompanied by the moderate expansion of body fluids in young but not in adult hypertensive animals. Na+,K+-ATPase activity was suppressed in both kidney and heart of young S/JR rats with salt hypertension while this was not true in adult hypertensive animals. On the other hand, no inhibition of sodium pump was observed in brain microsomes and erythrocytes of severely hypertensive young S/JR rats. Moreover, no increased levels of endogenous sodium pump inhibitors were detected in plasma of salt hypertensive S/JR rats. Thus our study indicated the age-dependent suppression of sodium pump activity in some tissues of salt hypertensive Dahl rats but we failed to confirm increased levels of circulating sodium pump inhibitors in young salt hypertensive rats.
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PMID:Sodium pump activity in young and adult salt hypertensive Dahl rats. 243 46


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