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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Na+-K+-ATPase was inhibited by 1 times 10-4M ethacrynic acid and mercuderamide, and by 1 times 10-3M hydrochlorothiazide and furosemide. A modification of Gilman's (1970) protein displacement assay has been used to measure c-AMP levels in toad bladder epithelial cells. Vasopressin (50 mU/ml) caused c-AMP levels to rise from 4.27 to 9.27 pmol/mg protein.
Ethacrynic acid
had no effect on cellular c-AMP levels after 10 min exposure to the drug, but at 90 min caused a reduction of both basal and vasopressin stimulated levels. Furosemide caused an apparent rise in c-AMP levels, dilution ratio measurements indicated interference by this drug in the assay procedure, mecuderamide also caused substantial interference with the c-AMP assay. Hydrochlorothiazide had no effect on basal or hormone stimulated levels of c-AMP. It was concluded that the inhibition of sodium transport produced by ethacrynic acid in toad bladder is probably due to inhibition of
adenylate cyclase
, an effect not shared by other dieuretics.
...
PMID:The effect of diuretics on Na+-K+-ATPase and c-AMP levels in toad bladder epithelial cells. 16 90
1. Giant fibres of the barnacle Balanus nubilus have been used as a preparation for studying the mode of action of cAMP on sodium transport. 2. It is shown that a concentration of cAMP as low as 10(-6)M, when micro-injected, causes a sharp rise in the radio-Na efflux. Ouabain fails to reverse the cAMP effect. 3. The magnitude of the response of the Na efflux to cAMP is markedly reduced by pre-injecting 100 or 500 mM-EGTA solutions or by omitting Ca2+ from the bathing medium. Both together fail to bring about a greater reduction in the response. 4. The response to cAMP is greatly reduced by pre-injecting the protein inhibitor of Walsh and practically abolished by pre-injecting 500 mM-EGTA and soaking in Ca-free artificial sea water, ASW. 5. The Ca2+-independent component of the Na efflux which is also stimulated by cAMP is shown to involve Na for H exchange. The magnitude of this exchange is governed by external pH. 6. The Na efflux into Ca2+-free, Li+-ASW is shown to be markedly stimulated by injecting cAMP, an effect which is enhanced by reducing external pH. 7. The Na efflux at 0 degrees C is stimulated by injecting cAMP. This is shown to be related to activation of the protein kinase by cAMP and to depend on the presence of external Ca2+. 8 (i)
Ethacrynic acid
when injected reduces the ouabain-insensitive Na efflux into HEPES-Ca2+-free ASW at pH 6-3. These same fibres show a marked response to cAMP. (II) The ouabain-insensitive Na efflux into HCO3-, Ca2+-free ASW from fibres pre-treated with ethacrynic acid fails to respond to external acidification. This is interpreted as indicating that ethacrynic acid inactivates the CO2-sensitive
adenyl cyclase
system. These same fibres when injected with cAMP show a marked response. (iii) Stimulation of the ouabain-insensitive Na efflux into HCO-3, Ca2+-free ASW by external acidification is reversed by injecting ethacrynic acid. These fibres when injected with cAMP show a reduced response. 9. It is concluded that: (i) stimulation of the Na efflux by injected cAMP is mainly due to activation of cAMP-dependent protein kinase; (ii) the underlying exchange mechanism consists of Na:Ca and Na:H exchange. Interaction of Ca2+ with a phosphorylated membrane, thereby modifying permeability remains as a real possibility; (iii) the site of action of CO2 and ethacrynic acid is the
adenyl cyclase
system. 10. The implications of activation of the
adenyl cyclase
system by CO2 and Na:H exchange are briefly touched upon.
...
PMID:Mode of stimulation by adenosine 3':5'-cyclic monophosphate of the sodium efflux in barnacle muscle fibres. 18 61
The in vitro effect of various diuretics on rat kidney
adenylate cyclase
was investigated in crude homogenates of the cortex, the outer and inner medulla. 10-3 M furosemide inhibited
adenylate cyclase
by 40% in the cortex, by 16% in the outer medulla and by 43% in the inner medulla. 10-3 M ethacrynic acid inhibited
adenylate cyclase
activity by 65% in the cortex, 59% in the outer medulla and by 57% in the inner medulla. Amiloride produced no significant inhibition of the
adenylate cyclase
reaction. In the cortex, furosemide partially inhibited
adenylate cyclase
under basal, fluoride-stimulated and parathyroid hormone-stimulated conditions.
Ethacrynic acid
produced a strong inhibition of
adenylate cyclase
activation by F- and parathyroid hormone. In the inner medulla 10-2 M F- and 1 mU antidiuretic hormone reversed the furosemide effect on
adenylate cyclase
.
Ethacrynic acid
produced a strong inhibition of
adenylate cyclase
in the presence of F- and antidiuretic hormone. It is suggested that inhibition of renal
adenylate cyclase
might be a possible mode of action of certain diuretics.
...
PMID:Renal adenylate cyclase-effects of diuretics. 18 72
1 The relationship between the diuretic effectiveness and the effect on the renal
adenylate cyclase
of three diuretics, acetazolamide, frusemide and ethacrynic acid, was examined. The hypothesis that acetazolamide and parathyroid hormone (PTH), inhibit renal carbonic anhydrase by a cyclic adenosine 3',5'-monophosphate (cyclic AMP)-dependent mechanism was also tested.2In vitro, acetazolamide, frusemide and ethacrynic acid at high concentrations (10(-3)M) all produced some inhibition of basal and stimulated rat kidney plasma membrane
adenylate cyclase
. The effect of acetazolamide was much less than that of frusemide and ethacrynic acid. These plasma membrane effects were reproduced in studies of cyclic AMP formation in isolated kidney tubules of rats.3 Intravenous injections of acetazolamide did not change the total cyclic AMP content of the kidneys of rats killed by microwave irradiation.4 Acetazolamide produced a diuresis in the rat and a slight inhibition of the antidiuretic effect of Pitressin. Frusemide produced a diuresis and greatly reduced the antidiuretic response to Pitressin.
Ethacrynic acid
was ineffective as a diuretic in the rat and actually enhanced the antidiuretic response to Pitressin.5 In investigating the possible influence of diuretics and PTH on the activity and state of phosphorylation of carbonic anhydrase it was found that: there was no correlation between the ability of diuretics to inhibit carbonic anhydrase activity and to inhibit carbonic anhydrase phosphorylation; neither PTH nor cyclic AMP (in the presence of adenosine triphosphate, Mg(2+), K(+) and incubation at 37 degrees C) inhibited rat cortex homogenate carbonic anhydrase activity.6 It seems unlikely that any of the tested diuretics exerts its pharmacological effect by means of changes in kidney cyclic AMP metabolism.
...
PMID:Diuretics and the renal adenylate cyclase system. 20 62
Three aspects of hydrostatically driven volume flow across the isolated rabbit ciliary epithelium have been examined. (1) Hydraulic conductivity was increased in a dose-dependent manner by amiloride, but not by furosemide, indicating that amiloride may interfere with junctional permeability. The absence of a furosemide effect suggests that regulation of passive fluid movement may be independent of net ionic fluxes of either chloride or bicarbonate.
Ethacrynic acid
had no effect on hydraulic conductivity at concentrations below 10(-2) M. At 10(-2) M, hydraulic conductivity was decreased, suggesting that fluid pathways may be linked to ionic pathways. (2) Successive in vivo daily treatments with adrenergic agonists result in changes in the intraocular pressure response. Dose-effect curves to in vitro agonists from eyes pre-treated on successive days indicate that isoprenaline caused a lack of response in hydraulic conductivity after 3 d of in vivo treatment, adrenaline caused responses after 2 d which were about half of those found on day 0, while phenylephrine and noradrenaline had no influence on hydraulic conductivity. These data suggest that beta-agonists cause a deactivation or desensitization of some moiety which is coupled with regulation of hydraulic conductivity in a manner similar to that seen for the beta-receptor-coupled
adenylate cyclase
. (3) While cyclic GMP was without effect, various modifiers of cyclic GMP activity increased hydraulic conductivity. Alteration of cellular cyclic GMP levels appears to exert some regulation over ciliary epithelial permeability.
...
PMID:Drug effects on the hydraulic conductivity of the isolated rabbit ciliary epithelium. 298 69
Ethacrynic acid
(EA) has been reported to reduce cholera toxin-induced intestinal fluid secretion in the intact animal. We explored the nature of this inhibition in vitro by measuring unidirectional, transmural fluxes of (22)Na and (36)Cl across isolated rabbit ileal mucosa. Under control conditions (short-circuited mucosa bathed in bicarbonate-Ringer), there was net absorption of Na and Cl. Theophylline (10 mM), cyclic AMP (5 mM), and cholera toxin (added in vivo) abolished net Na flux and produced net Cl secretion. In the presence of either theophylline or cAMP, addition of 0.1 mM EA to the serosal bathing solution abolished net Cl secretion and restored net Na absorption. Cholera toxin-treated mucosa was exposed to 0.05 and 1.0 mM EA. The lower concentration restored net Na absorption but did not significantly reduce Cl secretion. The higher concentration abolished net transport of both Na and Cl. Short-circuit current and Na flux measurements in the presence and absence of glucose indicated that 0.1 mM EA does not inhibit glucose-coupled Na transport. Short-circuit current measurements in the presence of 1.0 mM EA suggested that even this concentration of EA does not inhibit glucose-coupled Na transport. Thus EA appears to specifically inhibit Cl (or NaCl) secretion without inhibiting the absorptive Na "pump." The anti-secretory effect of 0.1 mM EA does not appear to result from inhibition of
adenylate cyclase
since secretion stimulated by addition of 5 mM cAMP was abolished. Furthermore, 0.1 mM EA did not significantly reduce theophylline-augmented and cholera toxin-augmented cAMP levels in ileal mucosa. We conclude that EA interacts specifically with the active Cl (or NaCl) secretory mechanism of the small intestine at a step beyond generation of cAMP.
...
PMID:Reversal of cyclic AMP-mediated intestinal secretion by ethacrynic acid. 435 36
