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: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II receptors from rat adrenal cortex and myometrium were studied with the use of tritiated angiotensin under conditions where the sensitivity of the target organs for angiotensin II is modified. Sodium status was found to modulate the number of angiotensin receptors both in adrenal gland and uterus. In both target tissues low Na+ diet increases the number of receptors, while a high Na+ diet results in an increase in uterine receptors without modifying adrenal cortical receptors. However, a more markedly positive sodium balance, such as that observed in deoxycorticosterone acetate (DOCA) hypertension and in one-kidney Goldblatt hypertension, resulted in a reduction of the adrenocortical angiotensin II binding capacity. The endogenous angiotensin II level may also regulate the number of receptor sites as demonstrated by an increased number of receptors after suppression of circulating angiotensin II. It is proposed that the number of angiotensin II receptors is determined by the combined influences of sodium status and angiotensin II concentration. Some changes in the sensitivity of the target organ can be secondary to variations in the number of angiotensin receptors. However, others cannot be so explained and stem, therefore, from events occurring beyond the hormone-receptor interaction.
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PMID:Sodium intake and plasma angiotensin level as modulators of adrenal and uterine angiotensin II receptors in the rat. 9 87

Hormonal contraceptive treatment results in considerable stimulation of the renin-angiotensin-aldosterone system. Hepatic synthesis of renin substrate increases by a factor of 2.5-4. As a result, more angiotensin I an angiotensin II are released. Angiotensin II stimulates adrenal aldosterone production, producing a higher plasma aldosterone concentration. Urinary aldosterone secretion rises less, probably because binding of aldosterone to plasma proteins is increased at the same time. Renin release is suppressed to 50% by negative feedback mechanisms. Other factors in the etiology of hypertension may include effects on sodium balance and on the sensitivity of the blood vessels to pressure-regulating substances.
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PMID:[Changes of the renin-angiotensin-aldosterone system under contraceptive steroids. Contribution to the etiology of hypertension under hormonal contraceptives]. 18 75

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

Neurohumoral mechanisms operating via the catecholamines are discussed in their relationship to such hypertensive diseases as pheochromocytoma and labile and established essential hypertension. 2. In pheochromocytoma, diagnosis depends almost entirely on identification of increased amounts of catecholamine metabolites in the urine. Because of the danger, manipulative or invasive procedures both for diagnosis and during surgery should be kept at a minimum. 3. In established essential hypertension, reactivity to norepinephrine and plasma norepinephrine are increased, whereas norepinephrine uptake and apparent secretion rate are decreased. 4. In labile essential hypertension, reactivity to epinephrine and probably plasma epinephrine are increased and uptake of epinephrine decreased. 5. Labile hypertension with all its characteristics may or may not coexist with established essential hypertension with all its features. 6. The sympathetic nervous system is also involved in other types of hypertensive disease. Many patients with renovascular hypertension as well as with primary and secondary hyperaldosteronism also have essential hypertension. Angiotensin II affects the sympathetic nervous system and the juxtaglomerular apparatus appears to be beta adrenergic receptor activated, at least in part.
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PMID:Neurohumoral mechanisms in hypertension. 23 64

The influence of intravenous injection of Prostacyclin (PGI2) on systemic blood pressure was investigated in conscious and anaesthetized hypertensive rats. PGI2 in doses of 1.0, 5.0 and 10.0 micrograms/kg showed a dose dependent antihypertensive effect in conscious rats with spontaneous and chronic renal hypertension. A similar response could be demonstrated in conscious rats with normal blood pressure with doses of 1.0, 10.0 and 100.0 micrograms/kg. In anaesthetized rats with acute renal hypertension or blood pressure increase, induced by continous infusion of Angiotensin II or Norepinephrine, PGI2 caused a marked decrease of blood pressure. PGI2 induced an increase of plasma renin activity in anaesthetized rats with doses of 0.1, 1.0 and 10.0 micrograms/kg. These findings support the suggestion of an antihypertensive role for PGI2 in experimental hypertension.
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PMID:Antihypertensive effect of prostacyclin (PGI2) in experimental hypertension and its influence on plasma renin activity in rats. 36 7

1. In conscious non-pregnant and pregnant ewes and in chronic fetal lamb preparations, the beat by beat relationship between pulse interval and systolic pressure was studied during acute elevations in arterial pressure induced by phenylephrine. Baroreflex sensitivity, which was defined as the slope of the pressure-pulse interval relationship when phenylephrine was used to raise pressure, was abolished by atropine and increased by propranolol. Baroreflex sensitivity was less in pregnant ewes and in foetal lambs compared with non-pregnant ewes. 2. These findings suggest that the vagus nerve is responsible for the reflex bradycardia that occurs in the foetus and the ewe when arterial pressure is increased. 3. In both fetal and adult sheep, actue hypertension due to I.V. injection of angiotensin II was not associated with a consistent and progressive bradycardia, such as was seen with acute hypertension caused by phenylephrine. Angiotensin II has no direct chronotropic effect on heart rate in either the adult or the fetus. 4. No linear relationship between arterial pressure and pulse interval was seen when angiotensin II was used to raise pressure in sheep which were treated with propranolol. Therefore the lack of cardiac slowing with pressor doses of angiotensin II was not due to concomitant activation of the sympathoadrenal system. 5. It is concluded that in both fetal and adult sheep angiotensin II reduces the increase in vagal tone which is responsible for slowing of heart rate in response to acute rises in arterial pressure.
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PMID:The action of angiotensin II on the baroreflex response of the conscious ewe and the conscious fetus. 46 30

In summary, hypertension is a disproportion between vascular capacity and blood volume. Only a small number of cases are secondary to specific diseases. The vast majority of patients have so-called "essential hypertension". In many cases the causative agent seems to be aldosterone, renin. Angiotensin II or other pressor agents. Psychosocial elements probably play important roles in the etiology of essential hypertension. Hypertension together with other factors are etiological of both tensive and atherosclerotic, cerebro, reno, and cardiovascular complications. Finally, industries and their workers are heavy losers to this disease, through lost wages, lost productivity and prodigious medical expenses.
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PMID:Physiology factors that influence blood pressure alterations. 56 10

Angiotensin II was infused at rates varying from 0.1 to 10 ng/kg per minute into 49 subjects with hypertension and 26 normotensive subjects and changes in blood pressure, plasma angiotensin II, and plasma renin activity (PRA) were determined after 20 and 30 minutes at each dose. Similar dose-related increases in angiotensin II and blood pressure occurred with a threshold of 1 ng/kg per minute in the normotensive and hypertensive subjects. Whereas angiotensin II induced a significant, dose-related decrement in renin activity in the normotensive subjects, with a threshold of 1.0 ng/kg per minute, no significant change in renin activity occurred in either the normal-renin or high-renin hypertensive subjects. In a separate study, nine normotensive and six hypertensive sodium-restricted subjects were given a converting enzyme inhibitor, SQ 20881, 30 microgram/kg. Despite a significantly greater fall in blood pressure (P less than 0.006) and angiotensin II concentration (P less than 0.045) in the hypertensive subjects, they did not have a greater rise in plasma renin activity. We conclude that angiotensin II reduces renin release in normal man at infusion rates that yield plasma angiotensin II levels within the physiological range but has a strikingly reduced influence on renin release in hypertension. In high-renin hypertension due to renal artery stenosis or nephrosclerosis, renin release is presumed to be relatively autonomous because of a dominant, intrarenal mechanism. The mechanism in normal-renin essential hypertension is not clear, but the abnormality could well be related to the pathogenesis of the hypertension.
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PMID:Failure of renin suppression by angiotensin II in hypertension. 61 2

1. Angiotensin II blockade before and after marked sodium depletion in patients with hypertension [unilateral renovascular (eight), bilateral renovascular (four) and essential (four)] was performed by intravenous administration of the angiotensin II antagonist Sar1-Ala8-angiotensin II (saralasin). 2. On normal sodium intake, saralasin decreased mean blood pressure by 8 mmHg in the unilateral renovascular group, by 6 mmHg in the bilateral renovascular group and increased it by 3 mmHg in the essential hypertensive group. After sodium depletion saralasin decreased mean blood pressure by 33 mmHg, 35 mmHg and 18 mmHg respectively. The saralasin-induced decrease in blood pressure significantly correlated with the log of the initial plasma renin activity. 3. Saralasin infusion decreased effective renal plasma flow (ERPF) in all three hypertension subgroups, both on normal sodium intake and after sodium depletion. Glomerular filtration rate decreased in direct relation to the hypotensive effect of saralasin but ERPF showed this relationship only after sodium depletion. On normal sodium intake saralasin increased filtration fraction by 17%, but decreased it by 7% after sodium depletion. 4. It is concluded that the hypotensive action of saralasin closely correlates with the value of circulating plasma renin activity, apparently independent of the aetiology of the hypertension. The decrease in ERPF during saralasin infusion in the patients on normal sodium intake seems mainly related to the agonistic activity of saralasin, but that after sodium depletion to the hypotensive effect of saralasin.
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PMID:Angiotensin II blockade before and after marked sodium depletion in patients with hypertension. 62 Apr 96

1. Sar1-Ala8-Angiotensin II (an angiotensin antagonist) was infused in rats during the development and maintenance of renal hypertension produced by aortic ligation between renal arteries. 2. In the early phase (5 and 12 days after ligation), infusion of the antagonist markedly decreased blood pressure although it did not reach normal pressures. Later (day 40) only a modest decrease in blood pressure was noted. 3. Removal of the small left kidney always decreased the blood pressure to normal pressures. 4. It is concluded that the renin-angiotensin system is the major pressor component in the initiation of this hypertension. Later, other factors of renal origin assume a pressor function.
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PMID:Effect of administration of Sar1-Ala8-angiotensin II during the development and maintenance of renal hypertension in the rat. 65 33


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