Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of papaverine on renal function and renin release was investigated in dogs in vivo and in vitro. Intrarenal arterial infusion of 0.1 mg/kg/min of papaverine for 10 minutes caused a significant rise in renal blood flow, a significant decrease in renal vascular resistance, clearance and extraction ratio of creatinine and PAH and in the amount of filtered sodium, without altering arterial blood pressure. There was a significant increase in sodium excretion and in the excreted percentage of filtered sodium (TRFNa). Renin activity (PRA) of arterial blood and renal venous blood, veno-arterious PRA-difference and renin secretion increased significantly after papaverine infusion. In order to eliminate the effect of hemodynamic changes on renin secretion, the effect of papaverine (10(-5), 10(-4)M) was investigated in vitro in surviving canine kidney cortex slices. Papaverine caused a significant increase in renin release and in tissue cAMP concentration. This supports the assumption that the increase in renin secretion might be due to a direct effect on the juxtaglomerular apparatus, by blocking phosphodiesterase activity and by increasing the renal cAMP level.
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PMID:Effect of papaverine on renin release in dogs in vivo and in vitro. 75 46

We investigated the effect of high physiological plasma levels of human varies; is directly proportional to atrial natriuretic factor (ANF) on renin and aldosterone secretion in normal sodium deplete men. In short term infusion studies (2 or 8 h duration), ANF plasma levels as observed after sodium loading (50-70 pg/ml) lowered basal renin (PRA) and aldosterone, but had only a marginal effect on angiotensin II-stimulated aldosterone secretion. Preliminary results of a study with long term infusion (6 days) of ANF during a period of dietary sodium depletion argue against a significant tonic inhibitory effect of ANF on the renin-aldosterone system in the preceding period of sodium repletion: the plasma aldosterone response to sodium depletion was similar with and without ANF infusion. The second messenger of ANF for the direct inhibition of aldosterone secretion from zona glomerulosa cells is still unknown. To test the hypothesis, that cGMP is the second messenger of ANF, we produced a rise in intracellular cGMP in rat and rabbit zona glomerulosa cells using the unspecific phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) and the more cGMP specific phosphodiesterase specific inhibitor M + B2948 (Zaprinast). Both inhibitors simulated the action of ANF in suppressing steroid secretion and elevating cGMP levels. The results are compatible with the view that cGMP is of importance as a second messenger for ANF in adrenal zona glomerulosa cells. Selective inhibition of phosphodiesterases in combination with endopeptidase inhibition may be an interesting principle to enhance the action of endogenous and exogenous ANF.
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PMID:Effects of atrial natriuretic factor on the renin-aldosterone system: in vivo and in vitro studies. 838 32

We have reported that inhibition of nitric oxide synthesis with N(G)-nitro-L-arginine methyl ester (L-NAME) attenuates the renin secretory response to beta adrenoceptor stimulation. We proposed that the attenuation results from disinhibition of the cyclic GMP-inhibitable isoform of phosphodiesterase (PDE III) with a resultant increase in cyclic AMP hydrolysis in the juxtaglomerular cells. In our investigation, experiments were performed in conscious rabbits to test the effects of the specific PDE III inhibitor milrinone on resting renin secretion and on the renin responses to isoproterenol and L-NAME. In the first series of experiments, infusion of milrinone increased plasma renin activity from 5.4 +/- 0.6 to 10.2 +/- 1.4 ng/ml/2 hr (P < .01). Heart rate increased markedly, but arterial pressure did not change. In the second series, infusion of isoproterenol increased plasma renin activity from 6.3 +/- 1.1 to 15.0 +/- 1.0 ng/ml/2 hr (P < .01). The renin response to isoproterenol was increased (P < .01) in the presence of milrinone (15.3 +/- 3.7 to 38.4 +/- 6.2 ng/ml/2 hr, P < .01). In the third series, L-NAME alone decreased plasma renin activity from 5.0 +/- 1.0 to 3.3 +/- 1.0 ng/ml/2 hr (P < .01). Milrinone again increased plasma renin activity and prevented the suppression of plasma renin activity by L-NAME. By contrast, milrinone did not alter the suppression of plasma renin activity produced by infusion of phenylephrine. In addition, a PDE IV inhibitor failed to prevent the suppression of PRA by L-NAME. Finally, administration of milrinone completely reversed the L-NAME-induced suppression of the renin response to isoproterenol. These results provide evidence that PDE III participates in the regulation of renin secretion, and support the proposal that the L-NAME-induced reductions in renin secretion and in the renin response to beta adrenoceptor stimulation result from disinhibition of PDE III and increased hydrolysis of cyclic AMP in the juxtaglomerular cells.
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PMID:Role of cyclic GMP-inhibitable phosphodiesterase and nitric oxide in the beta adrenoceptor control of renin secretion. 876 33