Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Isolated rat kidneys were perfused at a constant pressure of 90 mmHg in a single-pass system with either a cell-free medium or a suspension of washed bovine red blood cells, free of the components of the renin-angiotensin system. In red blood cell perfused kidneys renal haemodynamics and sodium reabsorption corresponded closer to values observed in the intact rat than in cell-free perfused kidneys. 2. In red blood cell-perfused kidneys in the absence of plasma renin substrate autoregulation of renal blood flow was almost complete at pressures above 90 mmHg, provided that perfusion pressure was changed rapidly. 3. Renin release varied inversely with perfusion pressure within a pressure range from 50 to 150 mmHg; the greatest changes of renin release occurred, when perfusion pressure was reduced from 90 to 70 mmHg; maximal stimulation of renin release was observed at 50 mmHg. After reduction of perfusion pressure, renin release immediately started to rise and reached a new level within 5 min. Local reduction of perfusion pressure in small arteries and arterioles by the injection of microspheres induced a short-lasting decrease in renal plasma flow and a transient stimulation of renin release. 4. High concentrations of furosemide stimulated renin release by a direct intrarenal mechanism. 5. Isoproterenol stimulated renin release in low concentrations without a concomitant vasodilation, whereas high concentrations induced an increase in both renal plasma flow and renin release. The effects of isoproterenol were completely blocked by propranolol. 6. Sodium nitroprusside induced similar increases in renal plasma flow, as did high concentrations of isoproterenol, but only a small and slow increase in renin release was observed. 7. Angiotensin II (AII) suppressed renin release in concentrations corresponding to plasma levels measured in the intact rat independently of its vasoconstrictor effects, whereas vasopressin in antidiuretic concentrations did not affect renin release. 8. AII, AI, synthetic tetradecapeptide renin substrate (TDP), crude and purified rat plasma renin substrate induced a dose-dependent reduction in renal plasma flow. SQ 20 881, a competitive inhibitor of converting enzyme, and low doses of 1-Sar-8-Ala-AII (saralasin), a competitive antagonist of AII, did not change renal plasma flow, whereas high concentrations of saralasin had a vasoconstrictor effect on their own. 9. Saralasin inhibited the vasoconstrictor effects of AII and TDP to a similar degree. SQ 20 881 inhibited the vasoconstrictor effects of AI and purified renin substrate, but did not influence the actions of TDP and the crude renin substrate preparation. 10. From these data it is concluded, that AI is converted into AII within the kidney at a rate of 1-2%. The vasoconstriction induced by the crude renin substrate probably does not involve the AII receptors. TDP may act by itself on the AII receptors or via the direct intrarenal formation of AII...
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PMID:Regulation of renin release and intrarenal formation of angiotensin. Studies in the isolated perfused rat kidney. 98 7

In vascular smooth muscle cell (VSMC) cultures from Sprague-Dawley (SD) and hypertensive transgenic rats for the mouse renin gene Ren-2 (TGR), the DNA synthesis, which was analyzed by the uptake of [3H]thymidine, was higher in TGR than SD VSMCs (2.5- to 8-fold, mean of 5.6-fold) under basal conditions. DNA synthesis was increased by fetal calf serum (10%) in SD cells more than in TGR VSMCs, and was decreased by heparin (400 micrograms/ml) and by phorbol-12,13-dibutyrate (10(-7) M) in TGR VSMCs to a higher degree than in SD cells. Neither endothelin (10(-7) M), angiotensinogen (10(-8) M), the renin inhibitor CGP 29,287 (10(-4) M), angiotensin I (10(-7) M), captopril (10(-5) M), angiotensin II (10(-7) M), nor saralasin (10(-6) M) modified DNA synthesis in either type of VSMCs. Sodium nitroprusside (10(-4) and 10(-3) M) increased DNA synthesis in both kinds of VSMCs but in TGR cultures it became toxic at 10(-3) M. 8-Bromocyclic GMP (10(-7) to 10(-5) M) reduced DNA synthesis in SD cells more than in TGR VSMCs. These results suggest that (a) cellular mechanisms of proliferation appear to be more activated in TGR VSMCs, likely involving a protein kinase C-dependent pathway but not the renin-angiotensin system, and (b) in both type of cells, sodium nitroprusside possesses proliferative properties whereas 8-bromocyclic GMP has antiproliferative properties.
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PMID:Vascular smooth muscle proliferation in hypertensive transgenic rats. 128 47

Sodium nitroprusside was infused intravenously for 10 minutes in normal men, reclining at 45 degrees, in a dose sufficient to decrease the arterial pressure by 10 mmHg. The effect on a variety of plasma hormones was measured during the infusion and for 20 minutes afterwards. The heart rate increased to a maximum of 149%. Norepinephrine rose to a maximum of 196% in 5 minutes. Epinephrine reached a peak of 207% after 10 minutes. Plasma renin activity reached a peak of 449% at 10 minutes. Aldosterone did not change during the infusion, but increased to a maximum of 145% 10 minutes later. Vasopressin increased sharply at the end of the infusion to 893% and then rapidly decreased. Corticotropin, prolactin and growth hormone started to increase toward the end of the infusion, but reached their maxima during recovery. Corticotropin (225%) and prolactin (288%) peaked 10 minutes after the infusion, while growth hormone (414%) appeared still to be rising 20 minutes after the end of the infusion. Cortisol also rose progressively during recovery to a level of 138%. No significant changes were seen in the concentrations of insulin, glucagon, atrial natriuretic peptide, bombesin or neurotensin.
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PMID:Temporal relations of the endocrine response to hypotension with sodium nitroprusside. 155 71

Adenosine, a potent vasodilator both in animals and in humans, has been used to produce controlled hypotension in patients, especially during cerebral aneurysm surgery. However, in animals adenosine by intrarenal infusion decreases renal blood flow (RBF), glomerular filtration rate (GFR), urine flow, and causes an inhibition of renin secretion. In this study we evaluated the effect of adenosine on RBF in patients (n = 15) scheduled for cerebral aneurysm surgery who had been anesthetized with a modified neurolept-anesthesia during controlled hyperventilation. Perioperative hypotension was achieved with infusion of adenosine (252.8 +/- 55.8 micrograms.kg-1.min-1) (n = 8) or sodium nitroprusside (2.5 +/- 0.8 micrograms.kg-1.min-1) (n = 7). Mean arterial pressure was lowered by 25%-30%, to approximately 60-70 mm Hg, in both groups. Glomerular filtration rate and RBF were measured using standard renal clearance methods for 51Cr-ethylenediaminetetraacetic acid and paraaminohippuric acid. Urine and blood samples were collected during normotension before and after a bolus dose of hypertonic mannitol, during hypotension, and during normotension after clipping of the aneurysm. Adenosine induced a marked decrease in GFR (-91%) and RBF (-92%), and a pronounced increase in renal vascular resistance. Sodium nitroprusside caused a significantly (P less than 0.01) less pronounced decrease in GFR (-24%) and RBF (-36%), but did not affect renal vascular resistance. After discontinuation of the hypotensive agents, GFR returned to baseline levels in both groups. Renal blood flow, however, increased above baseline after discontinuation of adenosine (+93%) but not after sodium nitroprusside. Sodium nitroprusside increased renin secretion, which was not seen with adenosine. Four patients in the adenosine group developed reversible atrioventricular conduction disturbances.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Controlled hypotension with adenosine or sodium nitroprusside during cerebral aneurysm surgery: effects on renal hemodynamics, excretory function, and renin release. 224 Jun 36

Sodium nitroprusside (SNP) is a potent, effective and readily reversible vasodilating agent frequently used in anaesthesia for deliberate hypotension. Moderate hypotension induced by SNP activated catecholamine and vasopressin secretions, and the renin-angiotensin system, resulting in partial antagonism of the hypotensive response to SNP. Furthermore, this increase in renin release was involved in the hypertensive rebound after SNP withdrawal. This activation of vasoconstrictor systems led to pharmacological associations aimed at reducing the risk of cyanide poisoning. The physiological interrelationship between prostaglandins and renin secretion has now been well established but, as far as we know, no paper existed concerning prostaglandins during SNP-induced hypotension. In such hypotension (Pa: -30%), monitored by invasive and non invasive haemodynamic techniques (pulsed Doppler), the variations in plasma renin activity (PRA) and in venous and arterial plasma PGE2 concentrations (V PGE2 and A PGE2), determined by radioimmunoassay, were studied in anaesthetized dogs. Invasive haemodynamic data were similar to previous reports. Common carotid diameter increased (p less than 0.05), with a constant common carotid blood flow. PRA (p less than 0.05), V PGE2 (p less than 0.05) and A PGE2 (p less than 0.05) increased. PRA and V PGE2 were highly correlated before and after SNP. SNP resulted in hypotension with reflex sympathetic activation and dilatation of large arteries. Carotid blood flow autoregulation was maintained. Whilst pulmonary removal of PGE2 remained unchanged, an increase in A PGE2 may have been involved in the vasodilator mechanisms.
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PMID:[Plasma renin activity and prostaglandin E2 in hypotension induced by sodium nitroprusside]. 388

Using a muscle bath technique the vascular response to KCl, noradrenaline, angiotensin II, acetylcholine, and sodium nitroprusside were evaluated in 13 patients with diabetes mellitus (DM group) and 15 nondiabetic (non-DM group) chronic renal failure patients treated with haemodialysis. There were no differences in age, duration of haemodialysis, blood pressure and the levels of plasma renin activity, noradrenaline, and parathyroid hormone between groups. After informed consent was obtained, a small piece of forearm vein was resected during the blood access surgery. The ring preparation of the blood vessel was sustained in the muscle bath filled with Krebs-Henseleit solution and the isometric tension development was recorded. All drugs produced concentration dependent responses in the ring preparations of both groups. Although there were no significant differences in Emax values for KCl- and angiotensin-II-induced contractions between groups, the value for noradrenaline in the DM group was significantly less than that in the non-DM group. Sodium nitroprusside completely relaxed the ring preparation precontracted by 10(-5) M noradrenaline. However, the response to acetylcholine in the DM group was significantly weaker than that in the non-DM group. These results suggest a reduced vascular response to noradrenaline and acetylcholine in dialysed diabetic renal failure patients, which may relate to the autonomic nervous system dysfunction.
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PMID:Vascular response to vasoactive agents in dialysed patients with chronic renal failure with and without diabetes mellitus. 817 67

Hypertensive crisis is defined as a severe elevation in BP and is classified as either urgency or emergency. In hypertensive urgency there is no end-organ injury and no evidence that acute BP lowering is beneficial. Indeed, rapid uncontrolled pressure reduction may be harmful. Therefore, in hypertensive urgencies BP should be lowered gradually over 24 to 48 hours using oral antihypertensives. When the cause of transient BP elevations is easily identified, appropriate treatment should be given. When the cause is unknown, an oral antihypertensive should be given. The efficacy of available treatments appear similar; however, the underlying pathophysiological and clinical findings, mechanism of action and potential for adverse effects should guide choice. Captopril should be avoided in patients with bilateral renal artery stenosis or unilateral renal artery stenosis in patients with a solitary kidney. Nifedipine and other dihydropyridines increase heart rate whereas clonidine, beta-blockers and labetalol tend to decrease it. This is particularly important in patients with ischaemic heart disease. Labetalol and beta-blockers are contraindicated in patients with bronchospasm and bradycardia or heart blocks. Clonidine should be avoided if mental acuity is desired. In hypertensive emergency there is an immediate threat to the integrity of the cardiovascular system. BP should be immediately reduced to avoid further end organ damage. Sodium nitroprusside is the most popular agent. Nitroglycerin (glyceryl trinitrate) is preferred when there is acute coronary insufficiency. A beta-blocker may be added in some patients. Loop diuretics, nitroglycerin and sodium nitroprusside are effective in patients with concomitant pulmonary oedema. Enalaprilat is also theoretically helpful, especially when the renin system might be activated. Initial treatment of aortic dissection involves rapid, controlled titration of arterial pressure to normal levels using intravenous sodium nitroprusside and a beta-blocker. If beta-blockers are contraindicated, urapidil or trimetaphan camsilate are alternatives. Hydralazine is the drug of choice for patients with eclampsia. Labetalol, urapidil or calcium antagonists are possible alternatives if hydralazine fails or is contraindicated. For patients with catecholamine-induced crises, an alpha-blocker such as phentolamine should be given; labetalol or sodium nitroprusside with beta-blockers are alternatives. There are few, if any, comparative or randomised trials providing definitive conclusions about the efficacy and safety of comparative agents. Some investigators recommend decreasing the diastolic BP to no less than 100 to 110 mm Hg. A reasonable approach for most patients with hypertensive emergencies is to lower the mean arterial pressure by 25% over the initial 2 to 4 hours with the most specific antihypertensive regimen.
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PMID:Comparative tolerability profile of hypertensive crisis treatments. 970 48

Activation of the renin-angiotensin system during cardiopulmonary bypass (CPB) may be involved in early postoperative hypertension after coronary artery bypass grafting (CABG). As hypertensive episodes may be deleterious in the immediate postoperative period, we have assessed the effects of prophylactic treatment with the angiotensin-converting enzyme inhibitor quinaprilat in an open study. During steady state CPB, patients received quinaprilat 0.02 mg kg-1 (group A, n = 10), quinaprilat 0.04 mg kg-1 (group B, n = 10) or saline solution (group C, n = 10) as an i.v. bolus dose. Sodium nitroprusside (SNP) was given after operation when systolic arterial pressure was > 150 mm Hg. Requirements for SNP 1 h after arrival in the ICU were significantly less in groups A (two of 10) and B (two of 10) than in group C (eight of 10). Also, patients in group C had a greater systolic arterial pressure compared with groups A and B. There were no significant differences between groups in diastolic arterial pressure, heart rate, cardiac index or cardiac filling pressures. We conclude that quinaprilat can be used during CABG to reduce the incidence of postoperative hypertension. Further studies of the efficacy and safety of this technique are necessary.
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PMID:Effect of intraoperative angiotensin-converting enzyme inhibition by quinaprilat on hypertension after coronary artery surgery. 1079 3

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