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. Seven latent hypertensive patients and seven matched controls were subjected to standardized mental stress and orthostatic provocation. 2. Mental stress increased blood pressure by approximately 25%, heart rate by 25 beats/min, plasma glycerol by 50% and plasma cyclic AMP by 25% in both groups. Plasma glucose and renin activity were unchanged. Plasma noradrenaline and adrenaline were essentially unchanged during stress. 3. There was an insignificant tendency towards higher noradrenaline levels in latent hypertensive subjects and two of these subjects displayed an exaggerated noradrenaline response to standing. 4. Our results indicate that the physiological responses to mental stress are caused by selective neuronal activation, rather than by generalized sympatho-adrenal activation. Latent hypertension does not seem to be associated with adrenergic hyperactivity or receptor supersensitivity, except possibly in individual cases.
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PMID:Sympatho-adrenal and cardiovascular response to mental stress and orthostatic provocation in latent hypertension. 23 22

The ability of large doses of exogenous angiotensin II to cause widespread multifocal microscopic myocardial necrosis in the rabbit has been confirmed. Angiotensin II also consistently produced acute renal failure with, less consistently, renal tubular necrosis. Norepinephrine infusions caused histologically indistinguishable myocardial lesions, but did not detectably affect renal function or histology. Severe renal failure, induced by bilateral nephrectomy (with or without concurrent glycerol administration) was not associated with similar cardiac lesions. Acute renal failure of comparable or greater severity to that induced by angiotensin II was produced by intramuscular cephaloridine, and was not associated with cardiac lesions. Rabbits infused with saline intravenously or "sham"-operated by simply opening and closing the peritoneal cavity did not develop renal failure and showed no cardiac or renal lesions histologically. Myocardial lesions, apparently identical to those seen in the rabbits, were observed postmortem in three patients known to have had high circulating levels of angiotensin II before death, although in all three cases alternative explanations are possible. Unexplained arrhythmia, cardiac arrest, and central chest pain without clear cardiographic or serum enzyme evidence of myocardial infarction occurred in two other subjects with very high plasma levels of angiotensin II. These attacks ceased after bilateral nephrectomy and a consequent fall in plasma angiotensin II. The cardiac attacks in these five patients all occurred during or shortly after procedures, such as sodium-depleting dialysis, renal artery surgery, or diazoxide administration, known to cause increase in plasma concentrations of renin and angiotensin II.
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PMID:Angiotensin- and norepinephrine-induced myocardial lesions: experimental and clinical studies in rabbits and man. 23 66

Serial changes in plasma of renin concentration (PRC), renin-substrate concentration (PSC) and renin activity (PRA) were followed in rats during glycerol-induced acute renal failure. There was an early but transient increase in PRC and a more delayed and prolonged rise in PSC. PRA began to rise a few hours after glycerol administration at the expense of increases in renin, but by 24 h the high activity was maintained largely by increases in renin-substrate. No correlations between PSC, PRC, or PRA changes and severity of renal failure could be demonstrated. These results suggest that these changes are not causally related to the development of kidney failure.
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PMID:Serial studies of the renin system in rats with glycerol-induced renal failure. 61

In non-hydrated goats prolonged (3 h, 0.02 ml/min) intracerebroventricular (IVT) infusion of 0.35 M glycerol depressed the plasma vasopressin level during the entire infusion period which resulted in a conspicuous water diuresis outlasting the infusion by about 20 min. Since no compensatory drinking occurred during this sustained water diuresis it gradually induced pronounced dehydration (loss of greater than 1 liter of total body water causing 5% increase in plasma [Na+] and osmolality). The same degree of dehydration was in other experiments induced by water deprivation. It then caused a 5-fold increase in plasma vasopressin level. Corresponding IVT infusions of 0.35 M d-glucose depressed plasma vasopressin level only during the first half of the 3 h infusion period. Consequently, the resulting water diuresis was transient and subsided before the glucose infusion was finished. Plasma renin activity increased during the IVT glycerol infusion and during water deprivation, but was largely unaffected by IVT glucose. Both IVT glycerol and glucose decreased renal sodium excretion. The possibility is discussed that the pronounced ability of IVT glycerol to depress the vasopressin release and thirst is not only due to dilution induced reduction of CSF [Na+], but also to an influence of glycerol on choroidal and/or transependymal Na+-transporting mechanisms.
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PMID:Inhibition of vasopressin-release during developing hypernatremia and plasma hyperosmolality: an effect of intracerebroventricular glycerol. 65 32

1. Acute renal failure was produced in rats by the intramuscular injection of glycerol (6.1 mol/l 10 ml/kg). Either 2 or 4--6 h later the right kidney was isolated and perfused for 1 h with an electrolyte solution containing a gelatin preparation (Haemaccel, 35 g/l) at pressures between 90 and 100 mm Hg in a single-pass system. 2. In kidneys taken from rats with acute renal failure renal vascular resistance was markedly increased immediately after the start of the perfusion as compared with control kidneys taken from untreated rats. During the following 30 min of perfusion the resistance progressively decreased and, at 1 h of perfusion, was similar to that in control kidneys or only moderately elevated. 3. Despite the reduction of renal vascular resistance glomerular filtration rate was still markedly increased immediately after the start of the perfusion as compared with control kidneys taken from untreated rats. During the following 30 min of perfusion the resistance progressively decreased and, at 1 h of perfusion, was similar to that in control kidneys or only moderately elevated. 3. Despite the reduction of renal vascular resistance glomerular filtration rate was still markedly impaired after 1 h of perfusion and fractional reabsorption of sodium and water as well as the secretion of p-aminohippurate were diminished. Renal venous renin concentration and renin release were lower in kidneys taken from rats with acute renal failure than in the control experiments. 4. These results suggest that the increase in renal vascular resistance and the stimulation of renin release after injection of glycerol in vivo are the consequence of extra- rather than intra-renal mechanisms.
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PMID:Renal vasoconstriction in glycerol-induced acute renal failure. Studies in the isolated perfused rat kidney. 69

Studies on the vasopressor role of the antidiuretic hormone arginine-vasopressin (AVP) in DOC hypertension, in two-kidney Goldblatt hypertension, and in spontaneous hypertension of rats, and during acute blood pressure elevation after intracerebroventricular injection of angiotensin II and in glycerol-induced acute renal failure of rats are reviewed. For the measurement of plasma AVP a radioimmunoassay has been developed. For this assay, a series of criteria has been met which allows the conclusion that, in plasma of rats, the antibody measures AVP only. For the blockade of vasopressor effects of AVP a specific antiserum has been used. On the basis of a series of control studies it has been concluded, but not proven that the antiserum lowers blood pressure exclusively by blockade of AVP. It could be shown that in the various animal models of hypertension and of acute blood pressure elevation AVP exerts systemic vasoconstriction when its plasma concentrations are elevated. In those models where the renin-angiotensin system played no role in blood pressure control, the height of blood pressure was closely related to the plasma AVP concentrations. When this relationship was compared with that obtained after the i.v. infusion or injection of AVP, a marked shift to the left became apparent. Hence, sensitization to the vasopressor effect of AVP had occurred, the factor of sensitization amounting to more than 1,000. It is concluded that AVP is not only an antidiuretic hormone but also a vasopressor hormone, and that any systemic vasopressor effect of AVP requires a mechanism of sensitization.
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PMID:Neurohypophyseal vasopressor principle: vasopressor hormone as well as antidiuretic hormone? 73 54

The interrelationships of renal cortical renin content RCRC, sodium chloride excreting and the severity of renal failure were studied in the glycerol-induced acute myohemoglobinuric renal failure model in the rat. Protocols were designed to increase sodium chloride excretion without necessarily resulting in RCRC depletion. Our data fail to demonstrate a relationship between RCRC and severity of renal failure, but they demonstrate an excellent inverse correlation between the sodium chloride excretion of the animals in the 24 h prior to glycerol administration and the severity of resulitng renal failure. The protection of long-term saline-drinking animals should properly be ascribed to the associated natriuresis which develops much before RCRC depletion during the time course of saline drinking. The exact mechanism by which natriuresis exerts its protective effect needs further elucidation, but our data argue against a major role for RCRC in the pathogenesis of acute experimental renal failure.
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PMID:Natriuresis-induced protection in acute myohemoglobinuric renal failure without renal cortical renin content depletion in the rat. 74 Jan 14

Stimulation of the renin-angiotensin system has been implicated in the pathogenesis of post-ischemic and nephrotoxic acute renal failure. This study was designed to determine the effect of d-l propranolol in glycerol induced acute renal failure in rats. 50% glycerol administered alone, induced a significant rise in blood urea and plasma renin concentration but no significant change in renal renin concentration. When administered with d-l propranolol (10 mg/kg body weight in 5 subcutaneous injections), mean blood urea, plasma renin and renal renin concentrations were not significantly different from the preceding group. Propranolol alone, administered in the same fashion, unexpectedly induced a rise in plasma renin concentration (p less than 0.05) while blood urea and renal renin concentrations were unchanged. Considering the unusually high dose of propranolol used, a second protocol was devised to compare the effects of d-l propranolol, in doses of 10 mg/kg and 1 mg/kg. Plasma renin concentration rose after high dose propranolol, but decreased, although not significantly, after administration of 1 mg/kg. Renal renin concentration was unchanged. High dose d-l propranolol, does not protect rats against glycerol induced acute renal failure. Contrarily to the usual 1 mg/kg dose, it was found surprisingly to increase renin release.
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PMID:Effect of high dose d-l propranolol on the renin-angiotensin system in glycerol induced acute renal failure in rat. 74 26

1. In rats deprived of food and water for 24 h acute renal failure was produced by the intramuscular injection of glycerol. Eight hours later plasma urea concentration had increased threefold despite a small rise in urine volume. Plasma concentrations of renin and renin substrate were elevated. 2. When saralasin, a competitive antagonist of angiotensin II, was infused for 8 h after glycerol injection, urine volume and plasma urea were similar to values in rats that had received an infusion of saline. 3. Administration of rat serum (4.5 ml h-1 kg-1) for 4 h suppressed plasma renin concentrations, but plasma urea increased to the same extent as in rats without serum. 4. When saralasin and serum were infused at the same time, urine volume, urine osmolality and solute excretion increased and the rise of plasma urea was diminished. 5. Saralasin has a protective effect against glycerol-induced acute renal failure only when volume is replaced concomitantly.
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PMID:Effect of saralasin and serum in myohaemoglobinuric acute renal failure of rats. 75 Jan 57

It is commonly assumed that the decrease in the effective circulatory volume (ECV) is the major event in acute renal failure (ARF) and the preferential ischemia of the cortex another major modification. Frusemide has been given to try to prevent this change in glycerol-induced ARF because of its effect in redistributing renal blood flow from medulla to cortex. Isontonic saline was also tried to avoid the ECV depletion. The pretreatment with frusemide not only fails to protect against the ARF but increases its severity. Isotonic saline adminstration and replacement of urinary losses almost prevent glycerol-induced ARF but when both isotonic saline frusemide are administered together their effect is only a slight increase in the excretion rate of urea and creatinine during the first days of the experiment. The importance of the changes in the ECV or a possible direct action of frusemide on the renin-angiotensin axis are discussed. There is a good correlation between plasma creatinine levels and interstitial oedema. The importance of the oedema in the maintenance of ARF is discussed.
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PMID:Negative effect of frusemide pretreatment in glycerol induced acute renal failure. 87 19


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