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) In 27 animals microinjection of 25--100 ng of angiotensin II through chronic cannulae implanted in the preoptic region initiated drinking and in subsequent acute experiments influenced the spontaneous discharge rate of single neurons in the ipsi-lateral mesencephalon. Of 148 neurons for which recordings were made, 52 (35%) increased their frequency of spike potentials following administration of angiotensin II, 2 (1%) showed inhibition and 94 (64%) showed no change in firing rate. (2) In another series of 44 animals, unilateral or bilateral lesions of the midbrain ventral tegmentum or reticular formation were found to have little or no effect on water intake elicited by the microinjection of angiotensin II into the preoptic region. (3) In contrast to the effects of tegmental and reticular lesions, unilateral lesions located dorsally and laterally to the mammillary peduncle, in the area of passage of the medial forebrain bundle, significantly attenuated the dipsogenic response to either contralateral or ipsilateral injections of angiotensin II into the preoptic region. With bilateral lesions this effect was permanent. (4) Since the more caudal lesions were relatively ineffective in disrupting the elicited drinking, it is suggested that signals from angiotensin II receptors in the preoptic region are transmitted along pathways which diverge in the midbrain. (5) The possibility of a forebrain-hypothalamus-midbrain circuit mediating thirst initiated by activation of the renin-angiotensin system is discussed.
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PMID:The role of mesencephalic structures in thirst induced by centrally administered angiotensin II. 40 81

The effect of TRH induced secretion of TSH and prolactin (hPrl) on plasma renin activity (PRA), water and electrolyte excretion, was studied in 7 normal males before and after an intravenous injection of 2 ml normal saline or 200 microgram TRH. Plasma hPrl and TSH rose significantly (p less than 0.01) in all 7 subjects after TRH but not after saline injection. No significant differences in the hourly excretion of sodium, potassium and free water clearance were noted before and after either saline or TRH injection. Mean PRA values of the 7 subjects were similar after either the 2 ml saline of TRH injection. Our results indicate that despite a correlation between basal hPrl and sodium excretion as well as free water clearance, acute TRH induced elevation of hPrl is not associated with changes of urinary sodium and potassium excretion, free water clearance and PRA in normal males. These findings provide some evidence against a direct osmoregulatory role of hPrl in man.
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PMID:The effects of TRH on prolactin, plasma renin activity, water and electrolyte excretion in normal males. 41 66

The development of malignant hypertension was studied in stroke-prone spontaneously hypertensive rats (SHR) kept on 1% NaCl as drinking water. Along with salt-loading, blood pressure gradually increased and reached a severe hypertensive level (greater than 230 mmHg), which was followed by increases in urinary protein (greater than 100 (mg/250 g body wt)/day) and plasma renin concentration (PRC, from 18.9 +/- 0.1 to 51.2 +/- 19.4 (ng/ml)/h, mean +/- SD). At this stage, renal small arteries and arterioles showed severe sclerosis and fibrinoid necrosis. Stroke was observed within a week after the onset of these renal abnormalities. The dose of exogenous angiotensin II (AII) producing 30 mmHg rise in blood pressure increased with the elevation of PRC, from 22 +/- 12 to 75 +/- 36 ng/kg, which was comparable to that in rats on water. The fall of blood pressure due to an AII inhibitor, [1-sarcosine, 8-alanine]AII (10(microgram/kg)/min for 40 min) became more prominent with the increase in PRC in salt-loaded rats, but was not detected in rats on water. These findings suggest that the activation of renin-angiotensin system participates in malignant hypertension of salt-loaded stroke-prone SHR rats that show stroke signs, proteinuria, hyperreninemia, and renovascular changes.
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PMID:Renin-angiotensin system in stroke-prone spontaneously hypertensive rats. 42 75

To determine whether acute chloride depletion per se stimulates renin, we produced selective chloride depletion without sodium depletion in rats by peritoneal dialysis (PD) against 0.15 M NaHCO3 or 0.15 M NaNO3. Control rats were dialyzed against 0.15 M NaCl. Plasma renin activity (PRA) was measured before (PRA1) and 105 minutes after (PRA2) PD. Plasma volume was expanded after PD by infusion of salt-free albumin and was measured immediately after PRA2 by [131I]albumin. In experiment 1, rats were prepared on a normal diet. PRA2 (7.0 +/- 1.0 ng/ml per hr, mean +/- SEM) was increased (P less than 0.05) over PRA1 (4.7 +/- 0.7 ng/ml per hr) in Cl-depleted but not in control rats (PRA1 = 5.3 +/- 0.7, PRA2 = 6.1 +/- 0.7, P = NS). In experiment 2, to produce greater chloride depletion, all rats were prepared for 2 weeks on a low salt diet. PRA2 (47 +/- 5 ng/ml per hr) was increased as compared to PRA1 (24 +/- 2 ng/ml per hr, P less than 0.005) in the Cl-depleted group but not in the control group (PRA1 = 24 +/- 3, PRA2 = 27 +/- 6 ng/ml per hr, P = NS). Serum potassium and final plasma volume were slightly but not significantly lower than controls in these Cl-depleted rats. To exclude an additive effect of these two stimuli for renin, in experiment 2a we infused chloride-depleted rats with three times as much albumin as controls and with KHCO3, 100 mEq/liter. Despite volume expansion and potassium loading, PRA2 (41 +/- 6 ng/ml per hr) was significantly elevated as compared to PRA1 (25 +/- 4 ng/ml per hr, P less than 0.01). Since acute metabolic alkalosis also was present in all Cl-depleted renin-stimulated rats, an additional group (2b) was dialyzed against 0.15 M NaNO3; final plasma arterial pH (7.43) was not different from controls (7.42). Nevertheless, PRA2 levels again were higher (36 +/- 6 ng/ml per hr, P less than 0.05) as compared to PRA1 (23 +/- 4 ng/ml per hr). In all experiments, arterial blood pressure, glomerular filtration rate, and filtered sodium load were not different. Free water reabsorption was lower in Cl-depleted than in control rats. We conclude that acute selective chloride depletion per se is a potent stimulus for renin release.
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PMID:Stimulation of renin by acute selective chloride depletion in the rat. 42 74

Uninephrectomized adult female dogs with chronic indwelling catheters were maintained on a low sodium diet and studied without anesthesia. Following hydration with 3% dextrose, an intravenous infusion of either arginine vasopressin (AVP) or of 1-desamino-8-D-arginine vasopressin (DDAVP) was begun. The dose was calculated to achieve a near maximal physiological plasma concentration of AVP, or an equimolar concentration of DDAVP. Both AVP and DDAVP increased urinary osmolality from less than 60 to over 800 mosmol/kg H2O within 1 h. AVP infusion increased mean arterial pressure and renal electrolyte excretion and decreased heart rate and plasma renin activity (PRA), while DDAVP was without effect on these parameters. AVP infused into the renal artery at doses which did not alter systemic pressure and heart rate caused kaliuresis and reduced PRA. We conclude that the AVP-induced inhibition of renin secretion and increase in renal electrolyte excretion are not secondary to increased tubular permeability to water, but must represent a more specific action of AVP which is not shared by DDAVP.
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PMID:Effects of AVP and DDAVP on plasma renin activity and electrolyte excretion in conscious dogs. 43 55

The renal response to left atrial balloon inflation in normal dogs was compared with that in dogs with chronic congestive heart failure (CHF). CHF was induced by the production of an aortocaval fistula below the level of the renal arteries. CHF dogs showed elevated left ventricular end-diastolic pressure, enlarged hearts, a depression of myocardial contractility, pulmonary edema, ascites, and peripheral edema. They also showed significant decreases in urine flow, creatinine clearance, para-aminohippurate clearance, sodium and potassium excretion, fractional sodium excretion, osmolar clearance, arterial blood pressure, and heart rate. Balloon distension of the left atrium evoked a significant increase in urine flow and free-water clearance in the normal group. The reflex nature of this response was indicated by its blockade after bilateral cervical vagotomy. In contrast, the CHF group did not exhibit significant changes in urine flow or free-water clearance during balloon inflation. Plasma antidiuretic hormone (ADH) was significantly elevated in the CHF group; however, balloon distension reduced plasma ADH in both groups of dogs. Plasma renin activity was significantly elevated in the CHF dogs and was not changed by balloon distension in either group of dogs. It is concluded that animals with high-output CHF do not exhibit the atrial-diuretic reflex in spite of their ability to reduce ADH levels by atrial distension.
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PMID:Renal effects of left atrial distension in dogs with chronic congestive heart failure. 43 20

Experiments were designed to clarify the factors affecting renin released during in vitro experiments. Kidneys from rat, dog, and pig were used. Experiments were done in which the gas phase was either bubbled through the incubation medium or layered above it. Renin released into the incubation medium disappeared very rapidly when gas was bubbled through the medium. The decline was similar in mediums bubbled with oxygen-CO2 (95%--5%) or nitrogen-CO2 (95%--5%). The half-life of renin activity in the bubbled medium was approximately 15 min in both cases. However, in experiments in which nonbubbled medium was used throughout, renin released into the incubation medium did not disappear after removal of slices. These data are interpreted to mean that the renin released into the incubation medium is inactivated at the air-water interface.
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PMID:Renin inactivation during in vitro experiments. 44 87

The effect of acute NH4C1-induced metabolic acidemia on renal electrolyte excretion was examined in nine healthy subjects during steady state water diuresis. Following oral NH4C1, venous pH and bicarbonate concentration declined significantly (p less than 0.01) while inulin and PAH clearances remained unchanged. Mean sodium excretion (UNaV) increased from 142 +/- 16 mueq/min (mean +/- SEM) to 310 +/- 49 mueq/min (p less than 0.01) at 8 hr without change in plasma aldosterone or renin levels. Urine flow remained unchanged while CH2O/(CH2O + CCl) declined significantly, suggesting that acute metabolic acidemia inhibits sodium transport in the distal nephron. Similar results were observed in two subjects with central diabetes insipidus. Three subjects restudied following the ingestion of an equivalent amount of chloride administered as NaCl, failed to demonstrate a significant rise in UNaV. UKV fell acutely from 91 +/- 13 to 45 +/- 5 mueq/min (p less than 0.001) despite an increase in serum potassium concentration. No change in plasma insulin was observed. UCaV rose from 66 +/- 15 to 143 +/- 18 microgram/min and fractional excretion of calcium increased from 0.55 +/- 0.13 to 1.24 +/- 0.21% (p less than 0.001). Total serum calcium fell slightly, but ionized calcium rose from 3.99 +/- 0.05 to 4.30 +/- 0.03 mg/dl (p less than 0.001). No change in nephrogenous cyclic (cAMP) excretion was observed. In conclusion, acute metabolic acidemia in man (1) inhibits sodium reabsorption in the distal nephron independent of changes in plasma aldosterone concentration, filtered chloride load, or volume expansion; (2) inhibits potassium excretion despite a rise in serum potassium concentration; and (3) inhibits tubular calcium reabsorption independetn of changes in parathyroid hormone (as reflected by urinary cAMP).
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PMID:Effect of acute metabolic acidemia on renal electrolyte transport in man. 45 20

Sodium and water retention is constant in decompensated cirrhosis with ascites and edema. Sodium retention is due to several factors. Renal hemodynamic disturbances appear first: decrease in glomerular filtration and renal plasmatic perfusion, redistribution of renal perfusion to the juxtamedullar area where the longer nephrons reabsorb more sodium. Metabolic disorders of estrogens, natriuretic hormonal factor, prostaglandins and the kallikrein-kinin system contribute to greater sodium retention. Water retention is secondary to greater sodium reabsorption and to hyperactivity of the antidiuretic hormone. Sodium and water retention, associated with portal hypertension, with reduced oncotic pressure and with dynamic lymphatic insufficiency, is responsible for the production of ascites. The latter results in a decrease in the effective plasmatic volume, with non-suppression of the renin-angiotensin system, increased aldosterone production and additional sodium retention.
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PMID:[The physiopathology of ascites]. 46 62

The effect of ethanol intoxication and hangover on plasma renin activity (PRA), plasma aldosterone (PA) and plasma cortisol (PC) concentrations was studied in 7 healthy supine men in controlled clinical conditions during 18 h beginning at 6 p.m. Large individual variation was observed in the response of PRA, PA and PC to ethanol. Following ethanol, stimulation of PRA was observed at the 14th and the 16th hour (P less than 0.05), of PA at the 4th and the 6th hour (P less than 0.01 and P less than 0.05, respectively) and of PC at the 4th and the 14th hour (P less than 0.01 and P less than 0.05, respectively). Ethanol ingestion suppressed PC during the first hour (P less than 0.02). Water ingestion at 8 a.m. suppressed PA between the 14th and the 16th hour (8-10 a.m.) in control and ethanol experiment (P less than 0.01 and P less than 0.005, respectively). There was a dissociation between PRA and PA, but intra-individually PRA and PA correlated fairly or well. Plasma arginine vasopressin (AVP) and PC were also significantly correlated. The results suggest that changes in PA and PC as well as the dissociation of PRA and PA after ethanol ingestion might be partly related to dehydration and to the increased secretion of hypothalamic and pituitary hormones as well as to sodium and potassium balance. There was a biphasic effect of ethanol, including an inital suppression of PC and a subsequent increase of PC, PRA and PA. Upright posture appears to exaggerate the stimulating effect of ethanol on PRA, PA and PC.
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PMID:Renin, aldosterone and cortisol during ethanol intoxication and hangover. 46 81


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