Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-induced hypoglycemia previously has been shown to provoke a beta-adrenergic response that normally results in an increase in plasma renin activity (PRA). In our study, hypoglycemia induced definite increases in PRA in a group of five patients with normal renin essential hypertension but failed to do so in a group of six patients with low renin essential hypertension. In both groups, plasma cyclic adenosine 3',5'-monophosphate (cyclic AMP; cAMP) increased more than 2-fold during hypoglycemia, but the response in the low renin group was significantly less than that previously observed in normal subjects under the same conditions. Plasma cortisol increased to an equal extent in both groups of hypertensive patients during hypoglycemia. Infusion of the phosphodiesterase inhibitor, theophylline, resulted in definite increases of PRA in patients with normal renin hypertension but not in patients with low renin hypertension. Because changes in the level of plasma cAMP during hypoglycemia have been thought to reflect adrenal catecholamine release, our finding of a blunted increase in plasma cAMP during hypoglycemia in patients with low renin hypertension may suggest that there is a generalized alteration in adrenergic responsiveness in this condition.
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PMID:Contrasting effects of hypoglycemia on plasma renin activity and cyclic adenosine 3',5'-monophosphate (cyclic AMP) in low renin and normal renin essential hypertension. 17 76

Adrenal and vascular responsiveness to graded doses of angiotensin II (A II) were recorded for seven normal subjects and 12 patients with essential hypertension while in balance on an intake of 200 mEq sodium/100 mEq potassium. Patients with essential hypertension had been previously studied and known to have normal responses of plasma renin activity to sodium restriction and upright posture. A II was administered for 30 minutes at rates of 0.1, 0.3, 1, and 3 ng/kg per minute and plasma aldosterone responses were assessed 20 and 30 minutes later; blood pressure was monitored at intervals of 1 minute during infusion of A II at each rate. A significant increment in plasma aldosterone occurred at an infusion rate of 0.3 ng/kg per minute in patients with hypertension. This change was not seen until the infusion rate reached 1.0 ng/kg per minute in the normotensive control subjects. Even at an A II infusion rate of 1 ng/kg per minute, the increment in plasma aldosterone levels in normotensive subjects (4.2 +/- 0.6 ng/dl) was significantly less (P less than 0.001) than that in patients with essential hypertension (19 +/- 3 ng/dl). In both groups, a significant rise in mean arterial blood pressure occurred at an A II dose of 0.3 ng/kg per minute, but the pressor response of the hypertensive group was significantly greater at the highest infusion rate (3 ng/kg per minute) (P less than 0.05). Thus, enhanced adrenal and pressor responsiveness to infused A II was observed in the hypertensive subjects, suggesting a change in A II receptor affinity.
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PMID:Enhanced aldosterone response to angiotensin II in human hypertension. 17 61

The hemodynamic changes observed in patients with the "hyperkinetic" form of borderline (labile) essential hypertension (BEH) could be related to the hyperresponsiveness of cardiac beta-adrenergic receptors to catecholamines. The isoproterenol-induced increase in plasma cyclic adenosine 3':5'-monophosphate (cAMP) reflects the response of adenylate cyclase to beta-adrenergic stimulation, whereas a non-beta-receptor-mediated increase occurs with the administration of glucagon. Both substances were infused into 13 control subjects and 14 patients with the hyperkinetic form of BEH before and after propranolol administration. Baseline plasma cAMP concentrations were comparable in both groups. After 30 minutes of isoproterenol infusion (20 ng/kg per min) a significantly higher increase in plasma cAMP and heart rate and a smaller decrease in diastolic blood pressure were seen in this type of BEH than in control subjects. The increase in plasma cAMP and in heart rate correlated positively when all subjects were considered together. Propranolol abolished hemodynamic and humoral responses to a similar degree in both groups. The plasma cAMP responses to glucagon (200 ng/kg per min) were slightly lower in our patients with BEH than in control subjects and were not suppressed by propranolol. The data are compatible with a hyperreactivity of the beta-adrenergic receptors or of the adenylate cyclase or both in hyperkinetic BEH and could correspond to the previously observed exaggerated beta-adrenergic drive to the heart in this type of hypertension. The non-beta-receptor-mediated rise in plasma cAMP (glucagon), however, remains comparable in control subjects and BEH.
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PMID:Plasma cyclic adenosine 3':5'-monophosphate response to isoproterenol and glucagon in hyperkinetic borderline (labile) hypertension. 17 67

18-hydroxy 11-deoxycorticosterone (18-OH DOC), a weak mineralocorticoid, was estimated by a radioimmunoassay procedure after purification in 49 patients with hypertension and 38 normal control subjects. The sensitivity of the method was 2-4 pg; there was no detectable blank, and the precision was 9-10%. In normal subjects the absolute plasma levels were similar to those of aldosterone. ACTH administration produced a 23-fold increase, and sodium restriction resulted in a 4-fold increase (5.4+/-0.7-20.5+/-3.0 ng/dl). On the other hand, the plasma levels of 18-OH DOC declined by nearly 50% with upright posture or angiotensin II infusion. During both of these procedures, plasma aldosterone levels significantly increased. Patients with normal and low renin hypertension had similar changes in plasma 18-OH DOC levels with sodium restriction. However, the mean high sodium level in the normal renin essential hypertension group (11.6+/-1.6 ng/dl) was significantly greater (P is less than 0.001) than in the control group (5.4+/-0.7 ng/dl). In addition, at least 22% and perhaps as high as 37% of the hypertensive subjects had levels greater than the upper limits of normal on a high sodium intake. Differences between the groups were less impressive in the sodium-restricted studies. There were no significant differences in age, duration of hypertension, sodium balance, serum sodium, potassium, or blood urea nitrogen in those patients who had elevated levels of plasma 18-OH DOC. Patients with primary aldosteronism had levels within the normal range on both dietary intake. However, in contrast to the other groups there were no significant changes in the plasma levels with sodium restriction. Thus, a significant number of patients with essential hypertension presumably have an alteration in 18-OH DOC secretion.
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PMID:The regulation of plasma 18-hydroxy 11-deoxycorticosterone in man. 18 59

Aldosterone receptors from rat kidney slices were utilized in a competitive binding technique to analyze the contribution of various steroids to plasma "mineralocorticoid" activity and to assess their possible role in hypertension. To consider simultaneously the plasma binding, steroids were incubated with slices in undiluted plasma; competitor activities for [3H]aldosterone binding were aldosterone, 100%; deoxycorticosterone, 16.2%; cortisol, 0.4%; and 18-hydroxy-deoxy-corticosterone and d18-hydroxy-corticosterone, 0.1%. These steroids were more active in buffer than plasma, suggesting that they bind to plasma and that this reduces their receptor binding. Analysis of the competition data suggests that at normal plasma concentrations, aldosterone occupies the receptors to a major extent, cortisol occupies some of the receptors, and deoxycorticosterone and 8-hydroxydeoxycorticosterone contribute little to receptor occupancy. Two steroids implicated in low-renin essential hypertension, 16beta-hydroxy-dehydro-epiandrosterone and 16-oxoandrostenediol, did not have significant competitor activity. Competitor activity in plasmas from normal subjects taken at 12 noon (upright) was greater than that in those taken at 8 a.m. (supine). Since the 12 noon samples had higher aldosterone and lower cortisol levels than the 8 a.m. samples, the competitor activity under these physiological circumstances reflects aldosterone more than cortisol. The competitor activities of plasmas from patients relative to normal subjects (100+/-12.1%; mean+/-SEM) were: normal renin "essential" hypertension, 117+/-14%; low-renin essential hypertension, 101+/-6.6%; and primary aldosteronism, 176+/-14.3%. Thus a significant increase in activity of steroids that interact with mineralocorticoid receptors was detected in primary aldosteronism (P LESS THAN 0.01) BUT WAS NOT DETECTED IN LOW-RENIN OR NORMAL-RENIN ESSENTIAL HYPERTENSION.
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PMID:Aldosterone receptors and the evaluation of plasma mineralocorticoid activity in normal and hypertensive states. 18 23

Plasma renin activity and aldosterone were measured simultaneously in 67 out-patients with essential hypertension. High aldosterone was more often in patients with high renin, and low levels of aldosterone were usual in those with low and normal renin. In order to study the mechanism by which aldosterone and renin acitvity are suppressed in low-renin hypertension, 25 patients (13 normal-renin hypertensives, 10 low-renin patients including 4 non-responders and two DOC excess hypertensives) were investigated as inpatients. Plasma renin activity, aldosterone and cortisol were determined by the following stimualtions with 3 days of sodium restriction and 2 hours of upright posture, angiotensin II infusion (at a dose which increased 20mmHg of diastolic blood pressure), ACTH administration (rapid i.m. injection of 0.25 mg of alpha 1-24 preparation) and potassium infusion (30 meq of potassium i.v.). Responses of aldosterone in normal-renin hypertensives to all stimulations were 3-5 fold increases from bases line values. Low-renin hypertensives except two of four non-responders showed the responses similar to those in normal-renin patients. The responses of two of the non-responders were similar to those in DOC excess hypertensives who showed reduced responses of aldosterone to some of these stimulations. Thus, it seems that low-renin hypertension is a clinical entity caused by a variety of mechanisms, and the mechanism by which low-renin hypertension is induced is not explained by one factor such as an unknown mineralocorticoid.
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PMID:The mechanism of low-renin hypertension: aldosterone response to sodium restriction and upright posture, angiotensin II, ACTH and potassium in patients with hypertension. 18 8

Low renin essential hypertension and the syndrome of mineralocorticoid excess have two features in common, low plasma renin activity and volume-sensitive hypertension. The proposal that both disorders share a common mechanism--because of the ability of agents that inhibit or antagonize the adrenocortical secretion to lower blood pressure in the low renin hypertensive group--appears to be based on a circular argument. The beneficial effect of removal or neutralization of the adrenocortical contribution only constitutes evidence for volume-dependency or sensitivity, which is how the low renin group is defined. Any measure that blocks a component of the normal homeostatic chain for the maintenance of extracellular and intravascular volume including the adrenal cortex would be expected to have a beneficial effect in volume-sensitive hypertension. Evidence for an adrenal factor in low renin hypertension must rest on the isolation of an active substance that reproduces the effect when readministered. 18-Hydroxy-11-deoxycorticosterone (18-OH-DOC) does not meet these criteria. It is not significantly increased in experimental hypertension and, although its overproduction in unselected low renin essential hypertensive patients remains controversial, the magnitude of the reported elevations is insufficient in relation to the low biologic activity of the steroid to account for a significant effect. Apart from its increase in the 17alpha-hydroxylase defect, 18-OH-DOC is increased in primary aldosteronism and may also be an indicator of a histologic variant of the aldosteronoma. On the basis of a large body of evidence showing parallelism between the 11beta- and 18-hydroxylase functions of the fasciculata zone, we have proposed that both enzymic functions are functionally related and may involve the same enzyme protein and catalytic site. According to this view, the secretion of 18-OH-DOC would have no special significance of its own but would be an obligatory consequence of the secretion of fasciculata zone corticosterone.
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PMID:Adrenocortical factors in hypertension. I. Significance of 18-hydroxy-11-deoxycorticosterone. 18 51

To understand the role of the renin-angiotensin-aldosterone system in the pathogenesis of human hypertension, in serial studies we have blocked the system using three different pharmacologic probes: 1) reduction of renin secretion by administration of the beta receptor blocker, propranolol; 2) blockade of the action of angiotensin II by infusion of saralasin, a competitive antagonist of angiotensin II; and 3) blockade of the enzymatic conversion of angiotensin I to angiotensin II by infusing a nonapeptide competitive inhibitor. The depressor responses induced by either propranolol or the nonapeptide expose a significant to major involvement of excess renin--angiotensin in maintaining the hypertension of some 50 to 70% of common forms of hypertension including "essential" hypertension. This subgroup includes nearly all patients with high or "normal" renin--sodium profiles. The considerably lower estimates for a renin factor in essential hypertension suggested by saralasin testing now appear due to the partial agonism of this drug. Further studies are required to determine whether this relative or absolute excess of renin secretion is primarily involved in the hypertension and if not why it fails to shut itself off. Similar studies of normal subjects are also needed to determine whether renin support of blood pressure is proportionately greater or less than in hypertensive subjects. Meanwhile the validation provided by these three different pharmacologic probes portends a burgeoning clinical role for renin--sodium profiling not only in screening for renal and adrenal cortical hypertensions but also for characterizing the vasoconstrictor and volume elements involved in various individual patients and thus enabling more specific treatments of the various subtypes of essential hypertension.
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PMID:Blockade of renin or angiotensin for understanding human hypertension: a comparison of propranolol, saralasin and converting enzyme blockade. 19

Metoprolol is a beta1-selective adrenoceptor blocking drug. In hypertension, its duration of effect is longer than expected from its half-life and it is suitable for twice daily administration. There is some evidence that once daily administration may be possible in treating hypertension. It is similar in efficacy to other beta-adrenoceptor blocking drugs in angina pectoris and essential hypertension, when given in equiactive beta-blocking dosages. Metoprolol is well tolerated and side-effects have not proved a problem. It has some pharmacodynamic and pharmacokinetic differences from other beta-adrenoceptor blocking drugs and may prove useful in cases where these differences are shown to be clinically important.
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PMID:Metoprolol: a review of its pharmacological properties and therapeutic efficacy in hypertension and angina pectoris. 20 41

Plasma renin activity (PRA) was measured in 14 control subjects and 27 patients with essential hypertension (EH) (low renin group: 9, normal renin group: 11, and high renin group: 7) before and after the following stimulation tests. Test procedures: 1) Circadian rhythm (0600, 1600 and 2400h). 2) Adrenal stimulation test (ACTH: 12.5 I.U.). 3) Adrenal suppression test (Dexamethasone: 1.0 mg). 4) Metopirone test (1.5 g). 5) Angiotensin II infusion test (8 ng/kg/min). 6) Saline infusion test (1000 ml/hr). Patients with low PRA showed significantly lower levels of PRA than those of other two groups in circadian rhythm, after 2 hours of ACTH infusion and after angiotensin II infusion. Furthermore, these patients showed significantly higher responses of PRA than other two groups after furosemide test under dexamethasone and after metopirone test. In case of saline infusion test, patients with low and normal PRA did not show significantly decreased levels of PRA after the infusion, though all patients with high PRA and all control subjects showed significantly decreased levels of PRA. From the present studies, it might be concluded that patients with low PRA has an unknown mineralocorticoid excess which is ACTH dependent and 11 hydroxylated and some of hypertensive patients have an abnormality in their renin-angiotensin-aldosterone volume feed back loop as a factor for hypertension.
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PMID:Pathogenesis of essential hypertension with low renin: responses of plasma renin activity to various stimulation tests in essential hypertension. 21 18


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