EC:3.6.1.3 - FACTA Search

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 study investigates the effects of digoxin, an inhibitor of the Na+ pump (Na(+)-K(+)-ATPase), on resting metabolic rate (RMR), respiratory quotient (RQ), and nutrient oxidation rate. Twelve healthy male subjects followed a double-blind protocol design and received either 1 mg/day digoxin or a placebo 2 days before indirect calorimetry measurements. Digoxin induced a 0.22 +/- 0.07 kJ/min or 3.8 +/- 1.5% (mean +/- SE, P = 0.01) decrease in RMR and a 0.40 +/- 0.13 kJ/min (P = 0.01) decrease in fat oxidation rate, whereas carbohydrate and protein oxidation rates did not change significantly. A dose-response relationship between serum digoxin and RQ was observed. These results suggest that digoxin reduces not only RMR but also fat oxidation rate by mechanisms that remain to be elucidated. Because a linkage and an association between genes coding the Na(+)-K(+)-ATPase and the RQ have been previously observed, the present demonstration of an effect of Na(+)-K(+)-ATPase inhibition on fat oxidation rate strengthens the concept that the activity of this enzyme may play a role in body weight regulation.
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PMID:Inhibition of Na(+)-K(+)-ATPase by digoxin and its relation with energy expenditure and nutrient oxidation rate. 761 78

The existence of a mammalian natriuretic substance similar to plant digitalis, which inhibits Na,K-ATPase, has been speculated about, but as yet no definite substance has been found. Digoxin-like immunoreactive substance (DLIS) has been reported in various clinical states including new born infants. Using bufalin (a cardioactive substance of animal origin) as antigen, four polyclonal antisera have been produced from 2 separate rabbits and characterised for cross-reactivity with 32 compounds. One antiserum showed a marked change in its cross-reactivity after resting the animal for a year. Of the endogenous substances tested, progesterone was found to be the most cross-reactive. Radioimmunoassay of foetal cord sera with different antisera, gave different levels of bufalin-like immunoactivity. However, after a novel "affinity-immunoassay" procedure, this apparent bufalin-like immunoactivity disappeared. It is concluded that bufalin-like immunoactivity in the cord blood is caused by the cross-reaction of endogenous steroids with bufalin antiserum, and the same may be true for DLIS.
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PMID:Bufalin radioimmunoassays: in search of the endogenous digitalis-like substance. 783 43

The mechanism for renal tubular secretion of digoxin as well as its interaction with quinidine or verapamil were investigated using the isolated perfused rat kidney. [3H]Digoxin was instantaneously administered into the renal artery together with [14C]inulin and Evans blue-albumin, and renal venous and urinary outflow curves were measured. The ratio of fractional excretion to filtration fraction for digoxin was 2.40 +/- 0.40, indicating involvement of tubular secretion. Quinidine and verapamil decreased the ratio of fractional excretion to filtration fraction in a concentration-dependent manner, and this inhibition was indicated to occur at transport from cells to lumen across luminal membranes. Neither tetraethylammonium nor p-aminohippurate affected the renal handling of digoxin. Because ouabain and digitoxose showed no influence on the value of fractional excretion to filtration fractions, Na+,K(+)-ATPase is not involved in the tubular secretion of digoxin. A metabolic inhibitor, 2,4-dinitrophenol, markedly inhibited digoxin secretion. Agents that bind to P-glycoprotein, such as vinblastine, daunorubicin and reserpine, markedly inhibited the secretion of digoxin. Recently, we have found that digoxin is a substrate transported by P-glycoprotein. The findings obtained here support the hypothesis that digoxin is secreted by P-glycoprotein located on the luminal membrane of renal tubular epithelial cells, and that clinically important interactions with quinidine and verapamil are caused by the inhibition of P-glycoprotein.
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PMID:Role of P-glycoprotein in renal tubular secretion of digoxin in the isolated perfused rat kidney. 810 98

Digitalis glycoside-like properties of the Bufo marinus toad crude venom and one of its constituents, bufalin, were studied in various assay systems. In concentrations 0.3-30 micrograms/ml crude venom increased the contractility of isolated electrically driven rat atria, constricted rat aortic rings, inhibited ouabain-sensitive Na+,K(+)-ATPase in rat erythrocytes and the Na+,K(+)-pump in rat aorta, and cross-reacted with antidigoxin antibody from the dissociation enhanced lanthanide fluoroimmunoassay (DELFIA). These effects were unaffected by adrenoceptor blockers and the 5-HT antagonist, deseril, but were blocked by antidigoxin antibody. Bufalin (10-30 microM) increased myocardial contractility and inhibited Na+,K(+)-ATPase in rat erythrocytes similarly to crude Bufo marinus venom. In rat aorta bufalin showed weak and delayed vasoconstrictor activity which was antagonized by 2 microM phentolamine, and had a biphasic effect on the Na+,K(+)-pump; 0.5-1.0 microM bufalin stimulated the pump, while higher concentrations inhibited its activity. Although the effects of bufalin were blocked by antidigoxin antibody, bufalin showed very low digoxin-like immunoreactivity in the DELFIA. These observations suggest that, in addition to bufalin, Bufo marinus venom contains at least one more digitalis-like steroid with significant intrinsic vasoconstrictor activity which, unlike bufalin, constricts the blood vessels acting directly via inhibition of the sodium pump in the vascular smooth muscle membrane.
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PMID:Digitalis-like and vasoconstrictor effects of endogenous digoxin-like factor(s) from the venom of Bufo marinus toad. 838 9

1. The effects of digoxin and ouabain on the calcium release flux from the sarcoplasmic reticulum (SR), isometric tension and intramembrane charge movement were studied in voltage clamped skeletal muscle fibres of the frog. 2. Both cardiac glycosides increased both calcium transients and simultaneously recorded tension at all membrane potentials, showing different effects on the peak and on the steady components of the calcium release flux. These effects were attained at an extracellular digoxin concentration of 5 nM and an estimated intracellular ouabain concentration of 1-2 nM. Digoxin and ouabain thus exerted their effects at the same concentration on calcium release in skeletal muscle as previously observed in isolated cardiac-type ryanodine receptor (RyR) calcium release channels. 3. The peak of SR calcium release increased at all voltages, with the largest potentiation at intermediate membrane potentials. This increase in calcium release flux was attained despite an unchanged SR calcium content. The attenuated release rate therefore reflected an increased number of open RyR channels rather than increased SR loading. 4. These effects could be attributed to an increase in calcium release activation and not a decrease in the rate of inactivation. Rather, the rate of inactivation was enhanced at all voltages as expected from the increased calcium concentration in the triadic junction. 5. In contrast, CMA (17 alpha-acetoxy-6-chloro-4, 6-pregnadiene-3,20-dione; 5 microM), a Na(+)-K(+)-ATPase inhibitor with no positive inotropic effects on the heart, neither influenced SR calcium release nor antagonized the effects of ouabain. 6. Both digoxin and ouabain preserved total intramembrane charge apart from a small negative shift in the mid-point voltage and increase in slope factor. 7. Both digoxin and ouabain induced calcium release from heavy SR vesicles at rates comparable to that induced by ryanodine or caffeine. 8. It is concluded that at least part of the inactivating component of SR calcium release involves distinct RyR calcium release channels that resemble the cardiac RyR isoform in its specific sensitivity to cardiac glycosides.
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PMID:Effects of cardiac glycosides on excitation-contraction coupling in frog skeletal muscle fibres. 888 70

The digitalis drugs are plant-derived cardenolide compounds used medicinally for several hundred years. These drugs elicit inotropic and chronotropic effects on the heart, but they also affect many other tissues. The mechanism of action involves inhibition of the ion-transport activity of a membrane-associated protein called Na, K-ATPase (sodium pump). Present theory holds that the sodium pump is the principal molecular receptor for the digitalis drugs. Recent evidence indicates the presence of naturally occurring digitalis-like compounds in mammals. It is believed these compounds, collectively known as either digitalis-like (DLF) or ouabain-like (OLF) factors, may be endogenous hormones regulating the biological activity of the sodium pump and its isoforms. The presence of deglycosylated and other congeners of one specific DLF, the digoxin-like immunoreactive factor (DLIF), has very recently been described in humans. Digoxin as a drug is the most widely prescribed digitalis in the U.S., and its measurement in serum has established a model for present-day therapeutic drug monitoring (TDM). Historically, the accurate measurement of digoxin in blood has been difficult. This article focuses on the present understanding of the clinical use of digoxin, factors that affect the accuracy of measuring digoxin, the principle of measuring metabolically active species of digoxin, and the effects of DLIF and other interfering substances in digoxin immunoassay.
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PMID:Digoxin and its related endogenous factors. 922 5

Cardiac glycosides have played a prominent role in the therapy of congestive heart failure since William Withering codified their use in his late 18th century monograph on the efficacy of the leaves of the common foxglove plant (Digitalis purpurea). Despite their widespread acceptance into medical practice in the ensuing 200 years, both the efficacy and the safety of this class of drugs continue to be a topic of debate. Moreover, despite the fact that the molecular target for the cardiac glycosides, the alpha-subunit of sarcolemmal Na+K+-ATPase (or sodium pump) found on most eukaryotic cell membranes, has been known for several decades, it remains controversial whether the sympatholytic or positive inotropic effects of these agents is the mechanism most relevant to relief of heart failure symptoms in humans with systolic ventricular dysfunction. Herein, we review the molecular and clinical pharmacology of this venerable class of drugs, as well as the manifestations of digitalis toxicity and their treatment. We also review in some detail recent clinical trials designed to examine the efficacy of these drugs in heart failure, with a focus on the Digoxin Investigation Group data set. Although, in our opinion, the data on balance warrant the continued use of these drugs for the treatment of symptoms of heart failure in patients already receiving contemporary multidrug therapy for this disease, the use of digitalis preparations will inevitably decline with the maturation of newer pharmacotherapies.
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PMID:Digitalis. 1006 97

The discovery of opioid receptors and endogenous substances capable of specific binding to these receptors, i.e. endorphin and enkephalin, is one of the most spectacular indications suggesting that the presence of a receptor for a certain drug in the organism authenticates searching for an endogenous substances with high affinity at this receptor. Later, further studies were undertaken to detect other endogenous drug-like factors. Some experiments led to the discovery of digoxin-like factor in blood which could bind to a specific receptor on Na+, K(+)-ATPase subunit, showing also the affinity for cardiac glucosides. Digoxin-like factor was detected in blood of healthy people who did not receive any drug treatments. It has been estimated to be present in 15% of the population but in some diseases this value is much higher, e.g. digoxin-like factor was detected in 90% of patients with IDDM, and it can be used as a risk factor of the occurrence of vascular complications. In cases with NIDDM, the digoxin-like factor was detected in patients with insulin-resistance. The presence of digoxin-like factor was ascertained in patients with heart failure who did not take digitalis preparations. Endogenous digoxin-like factor can contribute to the detection of falsely increased digoxin blood concentrations during the monitoring of drug level in the course of the therapy. In our studies we ascertained the presence of the quinidine-, cyclosporin-, theophylline- and phenytoin-like substances in the blood of the healthy people who did not receive any drugs. It seems that these endogenous substances resembling drugs are synthesized in human organism when they are needed for maintaining the physiological equilibrium. We can suggest that stimulation of the production of drug-like factors in the organism can be used in the future in the therapy of some diseases.
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PMID:Endogenous drug-like factors. 1038 21

Recent evidence indicates the presence of naturally occurring digitalis-like compounds in mammals, collectively known as either digitalis-like (DLF) or ouabain-like (OLF) factors, presumed to be endogenous hormones regulating the biological activity of the NA+/ K(+)-ATPase and its isoforms. This substance has been postulated to enhance renal tubular sodium excretion and to increase peripheral vascular resistance. Digoxin-like immunoreactive substance (DLIS) was observed in plasma of some patients with spontaneous subarachnoid haemorrhage (SSAH). Accumulating evidence suggests the central nervous system as a site of synthesis, but also as a site of hypertensinogenic action of endogenous cardioglycosides. The present study intends to establish the ratio of the DLIS in plasma to that in cerebrospinal fluid (CSF) in patients with SSAH and to investigate possible connection of this substance with development of arterial vasospasm. A prospective analysis of DLIS levels was performed on plasma and CSF samples obtained in 40 patients who had suffered a recent SSAH. DLIS levels were determined by the fluorescence polarisation immuno-assay method immediately after the admission to the Ward, and again seven days later. The comparison of CSF and plasma DLIS levels did not show statistically significant differences between the results--neither for the first (Z = 0.530; P = 0.591) nor for the seventh day after the disease onset (Z = 0.448; P = 0.654). Three possible hypothetical explanations of these results are offered: a) substance determined by digoxin immuno-assay has no essential likeness to digoxin; b) loss of the haemato-encephalic barrier integrity enabling free substance exchange between plasma and central nervous system; c) digoxin-like substance production within the central nervous system. Further, comparison of DLIS plasma levels (7th day from onset of SSAH) with angiography results showed that patients with multiple vasospasm had essentially higher plasma DLIS levels compared to patients with no vasospasms (Z = 2.59; P = 0.0097). The amount of extravasated blood, assessed on the basis of cranial CT scanning, was also connected with higher plasma DLIS levels (X2 = 3.29; P = 0.0305). The enhanced arterial narrowing which occurs in SSAH may be in part mediated by increased digitalis-like factor activity.
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PMID:Plasma and cerebrospinal fluid endogenous digoxin-like immunoreactivity in patients with aneurysmal subarachnoid haemorrhage. 1048 79

The inotropic and chronotropic effects of Amiloride (AMI) and Dichloro-benzamil Amiloride (DBC-AMI) were studied on the guinea pig isolated atria, also, the interaction between these drugs and Beta-methyl-Digoxin (BM-DIGO), epinephrine and low extracellular potassium (1 mM). AMI (10(-3) M) has a negative chronotropic and positive inotropic effects, not dependent on the autonomic system. DCB-AMI has a bimodal effect on the contractile force: increases it at low concentrations but causes a decrease at concentrations higher than 10(-6) M. The effect of AMI on the sinus frequency is unchanged by BM-DIGO. AMI (10(-3) M) decreases the inotropic effect of BM-DIGO and increases the toxic concentration of this drug on isolated tissues. The dose-response curve to epinephrine was not changed by AMI. Similar results were obtained using DCB-AMI (2 x 10(-7) M). The positive inotropic effect obtained by low extracellular potassium (1 mM) was not altered by AMI. The activity of the Mg(++)-dependent, Na+/K+ ATPase measured in the microsomal fraction obtained from guinea pig heart was diminished (10%) by AMI (10(-3) M). The drug did not affect the inhibition of the enzyme induced by ouabain. In conclusion, our experiments show multiple effects of AMI and DCB-AMI on the guinea pig heart. The inhibition of the Na+/Ca++ exchange explains them only partially. A slow channel blocking effect appears fundamental to interpret our results.
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PMID:[Effect of amiloride and its derivative dichlorobenzamil on guinea pig atria: interaction with other inotropic mechanisms]. 1051 38

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