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Drug
Enzyme
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Target Concepts:
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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)
Recently direct myocardial effects of antikaliuretic diuretics with respect to contractility parameters and prevention of digitalis-induced arrhythmias were published. In order to test the value of these reports we measured the effect of potassium-canrenoate and triamterene on cardiac output and on digitalis-induced arrhythmias in patients during diagnostic and the therapeutic flow directed right heart catheterization (Swan-Ganz) in our intensive care unit. In addition the influence of these drugs on (Na+ + K+)-
ATPase
and on (3H)g-strophanthin binding to human cardiac cell membranes was investigated to gain information on the mechanism of their action. Triamterene (100-200 mg p.o.) was without any effect on cardiac output, the same was found true for potassium-canrenoate given in a single dose (200-1000 mg intravenously). However, when applied in two doses (200 mg i.v. and 60 min later 400 mg i.v.), potassium-canrenoate increased cardiac output by 11 percent (p less than 0.05). Only in 2 out of 14 patients potassium-canrenoate (200-400 mg i.v.) suppressed digitalis-induced ventricular ectopic beats.
Canrenone
, the active metabolite of potassium-canrenoate displaces [(3H)]g-strophanthin from its binding sites in human cardiac cell membranes and inhibits (Na+ + K+)-
ATPase
activity. These in vitro effects were measured at the same concentrations as found in vivo after "therapeutical" doses. The effects of triamterene in this respect were found only in extremely high concentrations. Our results imply that canrenone has cardiac glycoside-like effects in human cardiac cell membranes.
...
PMID:[Cardiac effects of antikaliuretic diuretics-clinical and biochemical investigation (author's transl)]. 14 25
Canrenone
, a metabolic product of spironolactone, which competes with ouabain for binding to Na-K-
ATPase
at the digitalis receptor site and by itself inhibits Na-K-
ATPase
, was administered intramuscularly to reduced renal mass-saline drinking hypertensive and reduced renal mass-distilled water drinking normotensive rats for 8 days. Reduced renal mass-saline hypertension in the rat, is a low renin, volume expanded form of hypertension. Rats with this type of hypertension have been shown to have depressed arterial Na-K pump activity and increased Na-K pump inhibitory activity in their plasma.
Canrenone
treatment caused a progressive decrease in blood pressure in the hypertensive rats and this was associated with normalization of Na-K pump activity in arteries. Water and salt intake and excretion did not change. On the other hand, canrenone progressively increased blood pressure in the normotensive rats and this was associated with positive inotropy in isolated papillary muscles. These findings suggest that the depressed pump activity and the pump inhibitor play a role in reduced renal mass-saline hypertension in the rat and that the rise in blood pressure in the normotensive rats probably reflects canrenone's ability, by itself, to inhibit Na-K-
ATPase
.
...
PMID:Effects of canrenone on blood pressure in rats with reduced renal mass. 215 66
Anatagonists to angiotensin, catecholamines, aldosterone, and vasopressin have long been used to help determine agonist roles in hypertension. We here call attention to a possible extension of this approach to detect, evaluate, and treat vascular sodium transport defects in hypertension. Two basic types of transport defects have been identified in the blood vessels of hypertensive animals, increased sodium permeability and decreased sodium pump activity. Intravenous injection of 6-iodo-amiloride, a sodium channel blocker and vasodilator, produces an immediate and sustained decrease in blood pressure in two genetic models of hypertension characterized by increased permeability of the vascular smooth muscle cell membrane to sodium (Okamoto spontaneously hypertensive rat, Dahl salt sensitive rat), whereas it produces only a transient fall in arterial pressure in two renal models of hypertension having normal sodium permeability in vascular smooth muscle cells (reduced renal mass-saline rat, one-kidney, one clip rat).
Canrenone
, a metabolic product of spironolactone which can compete with oubain for binding to Na+,K+-
ATPase
at the digitalis receptor site, decreases blood pressure in a low renin, volume expanded model of hypertension which has been shown to have depressed sodium pump activity in arteries and increased sodium pump inhibitor in plasma (reduced renal mass-saline rat) but has no effect on blood pressure in a genetic model of hypertension which has been shown to have increased sodium pump activity secondary to increased sodium permeability (spontaneously hypertensive rat). Thus, a sodium channel blocker and a competitor to ouabain binding can detect and determine the functional significance of sodium transport defects in the blood vessels of intact hypertensive animals. Studies in red and white blood cells suggest that similar defects may exist in the blood vessels of hypertensive humans. Thus, this approach, probing for vascular transport defects in the intact animal, may ultimately also be useful in the clinical setting.
...
PMID:Pharmacologic agents for the in vivo detection of vascular sodium transport defects in hypertension. 244 62
Canrenone
is the major metabolic product of the synthetic steroids spironolactone and K+-canrenoate, used in antihypertensive therapy.
Canrenone
can competitively displace [3H]ouabain from Na,K-
ATPase
[Na+- and K+-activated, Mg2+-dependent
adenosine triphosphatase
(E.C.3.6.1.3)] and partially inhibit enzymatic activity. These features have led to a hypothesis that competition between canrenone and endogenous digitalis-like materials, suggested to be involved in etiology of essential hypertension, could underly the antihypertensive effect of canrenone. Surprisingly, three derivatives of canrenone (6 beta,7 alpha-,6 beta,7 beta-, and 6 alpha,7 alpha-dihydroxy-6,7-dihydrocanrenone) reportedly occur in normal human and rat urine. This paper characterizes the interactions with partially purified renal Na,K-
ATPase
of canrenone, the three 6,7-dihydroxylated derivatives, and one epoxide intermediate, synthesized from K+-canrenoate.
Canrenone
and all the 6,7-substituted derivatives partially inhibited Na,K-
ATPase
activity (39-45%), with approximately the same apparent affinity, 100-200 microM.
Canrenone
displaced [3H]ouabain in an apparently competitive fashion (Ki = 100-300 microM) but none of the tested derivatives significantly displaced ouabain even at very high concentrations. The ability to differentiate the
ATPase
inhibition and [3H]ouabain displacement by modification of the 6,7-double bond indicates that inhibition of
ATPase
activity does not occur from within the ouabain binding site. We suggest that neither canrenone nor the 6,7-derivatives bind to the ouabain site, but rather interact with it 'allosterically.' Our findings do not support the proposed mechanisms for the antihypertensive action of canrenone.
...
PMID:Do canrenone and 6,7-dihydroxylated derivatives compete with ouabain at the same site on Na,K-ATPase? 284 43
Canrenone
, a spironolactone metabolite, was tested for its possible effects on (Na+-K+)
adenosine triphosphatase
(
ATPase
) activity [Mg++-dependent, (Na+-K+)-activated
ATP phosphohydrolase
(E.C.3.6.1.3) and ouabain interaction with the enzyme.
Canrenone
competitively antagonized the binding of [3H]ouabain to (Na+-K+)
ATPase
and inhibited (Na+-K+)
ATPase
activity. The multiple inhibition technique was used to demonstrate that canrenone is a partial inhibitor of (Na+-K+)
ATPase
, mutually exclusive with respect to ouabain. Comparative studies of the effects of ouabain and canrenone on potassium-dependent p-nitrophenylphosphatase activity (E.C.9.6.1.7) and potassium activation of (Na+-K+)
ATPase
confirmed that ouabain and canrenone interacted with the same receptor site. The finding that canrenone is a partial agonist may explain the results of previous in vivo studies showing that spironolactone and the allied drug to potassium conrenoate have either a positive inotropic action or an antagonistic effect against digitalis toxicity.
...
PMID:Canrenone as a partial agonist at the digitalis receptor site of sodium-potassium-activated adenosine triphosphatase. 626 96
Canrenone
is a major active metabolite of spironolactone and, in addition to the antimineralocorticoid effect, shares with the parent compound the action as a partial agonist with respect to ouabain on the Na+-K+
ATPase
. We have investigated whether canrenone, through its action on Na+-K+
ATPase
, reverses rat aorta contractions induced by ouabain and has vasorelaxant properties unrelated to its interaction with ouabain. Contractile responses of endothelium-deprived aorta to 1 mM ouabain, 0.1 microM phenylephrine, 10 microM serotonin, and 60 mM K+ were relaxed by canrenone (50-250 microM), with maximum inhibitions of 85.3%, 55.3%, 56.7%, and 64.2%, respectively.
Canrenone
shifted to the right the concentration-response curve for Ca2+ in depolarized aorta and did not affect the response to 10 mM caffeine. In rat right ventricular strips driven at 0.1 Hz, canrenone exerted negative inotropic effect. The relaxation of ouabain-induced contraction may be due, at least in part, to an interaction between canrenone and ouabain on the Na+-K+
ATPase
. Inhibition of calcium entry through calcium channels either in aorta or ventricles is the most parsimonious hypothesis of mechanism underlying the effect of canrenone on contractile responses of rat aorta to agonists and high K+ and the negative inotropic effect on ventricular strips.
...
PMID:Effects of canrenone on aorta and right ventricle of the rat. 1133 5
