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:C0085580 (essential hypertension)
14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostacyclin (PGI2) is known to cause vasorelaxation and inhibit platelet aggregation by receptor-mediated mechanisms. While cyclic (c) AMP is known to act as a second messenger for inhibition of platelet aggregation, vasorelaxation by hyperpolarization has been described only recently and may provide an explanation, in addition to stimulation of cAMP for the PGI2 mechanism of action on blood vessels. When PGI2 is infused into healthy volunteers it reduces blood pressure only at infusion rates that also cause significant side-effects, primarily, nausea, emesis, flushing, diaphoresis, and restlessness. In hypertensive patients blood-pressure responses are complex and are influenced to some extent by renin secretion. PGI2 stimulates renin secretion by a direct effect on the juxtaglomerular apparatus, and it also has an indirect effect by activating the sympathetic nervous system. Thus, it is useless as an antihypertensive agent even apart from its debilitating side-effects. Vascular PGI2 is synthesized endogenously by both the endothelial cells and the muscularis of arteries. While the endothelial cells undoubtedly synthesize large amounts of PGI2, the muscularis comprises a much larger tissue mass so that the overall synthesis is about equally distributed between the endothelial and muscle cells. In patients with pregnancy-induced hypertension and some patients with essential hypertension endogenous synthesis of PGI2 has been evaluated by measuring 2,3-dinor-6-keto-PGF1 alpha and has proved to be greatly reduced. Some drugs (thiazides, propranolol) have been shown to stimulate PGI2 synthesis, and inhibition of cyclooxygenase has been shown to reduce their antihypertensive effects. The effects of low- and high-dose aspirin on prostacyclin and thromboxane synthesis are discussed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Prostacyclin in hypertension]. 149 51

A low dose of dopamine (1 microgram/min/kg) infused for 3 h, which is without systemic hemodynamic effects in normal subjects, increased the renal blood flow and renal production of prostacyclin (PGI2). This action was blocked by metoclopramide as well as by either of two cyclooxygenase (CO) blockers, but effects were not altered by administration of the alpha 1 blocker prazosin. Much of the effect of dopamine (DA) is apparently via the DA1 receptor, since fenoldopam (0.1 microgram/min/kg) reproduced these actions. However, although fenoldopam increased glomerular filtration rate and urinary Na+, CO blockers were without effect. In contrast neither DA or fenoldopam infusions changed either renal blood flow or PGI2 in a group of patients with essential hypertension. Renin secretion was shown to be increased via DA1 receptor activation both in humans and rat renal tissue. The DA2 receptor may also play a role since domperidone can reduce renal blood flow.
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PMID:Effect of dopamine on renal blood flow, prostaglandins, renin and electrolyte excretion in normal and hypertensive humans. 197 38

We tested the hypothesis that vascular prostacyclin synthesis is stimulated by hydrochlorothiazide and could account for some of the drug's antihypertensive effect. We studied 13 patients with mild essential hypertension in a randomized, double-blind design to assess the effects of indomethacin on hydrochlorothiazide's ability to lower blood pressure, alter body weight, stimulate plasma renin activity, and modulate vascular prostacyclin biosynthesis as assessed by the urinary excretion of the major enzymatically produced metabolite of prostacyclin, 2,3-dinor-6-keto-prostaglandin F1 alpha (PGF1 alpha), measured by GC/MS. Administration of hydrochlorothiazide, 50 mg daily for 2 weeks, was associated with a significant decrease in both systolic and diastolic blood pressure in both supine (systolic, 148 +/- 3 to 136 +/- 3 mm Hg; diastolic, 97 +/- 2 to 94 +/- 3 mm Hg) and upright (systolic, 151 +/- 4 to 131 +/- 2 mm Hg; diastolic, 103 +/- 2 to 97 +/- 3 mm Hg) positions. Hydrochlorothiazide administration resulted in a 1 kg weight loss and stimulation of plasma renin activity from 1.7 +/- 0.4 to 5.3 +/- 1.1 ng angiotensin I/ml/hr. However, the urinary excretion of 2,3-dinor-6-keto-PGF1 alpha was unchanged after administration of hydrochlorothiazide (86 +/- 13/ng/gm creatinine during placebo, 74 +/- 13 ng/gm during week 1 of hydrochlorothiazide, and 70 +/- 9 ng/gm during week 2 of the drug). Administration of indomethacin, 50 mg twice a day, resulted in greater than 60% inhibition of 2,3-dinor-6-keto-PGF1 alpha excretion but did not affect the antihypertensive response to hydrochlorothiazide. Indomethacin did not oppose the diuretic effect of hydrochlorothiazide as assessed by weight loss but did attenuate the rise in plasma renin activity. Our data demonstrate that the blood pressure-lowering effect of a thiazide diuretic does not require enhanced prostacyclin synthesis and the cyclooxygenase inhibitor indomethacin does not antagonize the antihypertensive efficacy of hydrochlorothiazide.
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PMID:The antihypertensive efficacy of hydrochlorothiazide is not prostacyclin dependent. 222 2

Prostacyclin (PGI2) is known to cause vasorelaxation and inhibit platelet aggregation by receptor-mediated mechanisms. While cyclic (c)AMP is known to act as a second messenger for platelet aggregation, vasorelaxation by hyperpolarization has been described only recently and may provide an explanation, in addition to stimulation of cAMP, for the PGI2 mechanism of action on blood vessels. When PGI2 is infused into healthy volunteers it reduces blood pressure only at infusion rates that also cause significant side effects, primarily nausea, emesis, flushing, diphoresis and restlessness. In hypertensive patients blood pressure responses are complex and are influenced to some extent by secretion. PGI2 stimulates renin secretion by a direct effect on the juxtaglomerular apparatus, and also has an indirect effect by activating the sympathetic nervous system. Thus it is useless as an antihypertensive agent even apart from its debilitating side effects. Vascular PGI2 is synthesized endogenously by both the endothelial cells and the muscularis of arteries. While the endothelial cells undoubtedly synthesize larger amounts of PGI2, the muscularis comprises a much larger tissue mass so that the overall synthesis is about equally distributed between the endothelial and muscle cells. In patients with pregnancy-induced hypertension and some patients with essential hypertension, endogenous synthesis of PGI2 has been evaluated by measuring 2,3-dinor-6-keto-PGF1 alpha and has proved to be defective. Some drugs (cicletanine, thiazides, propranolol) have been shown to stimulate PGI2 synthesis, and inhibition of cyclooxygenase has been shown to abolish their antihypertensive effects. Whether stimulation of PGI2 synthesis affects the antihypertensive efficacy of these drugs is not yet known.
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PMID:Prostacyclin in hypertension. 225 88

Recent reports indicate that cyclooxygenase inhibitors such as aspirin may facilitate the release of interleukin-2 from thymic T cells. We have previously reported that aspirin has antihypertensive effects in the standard animal model of essential hypertension, the spontaneously hypertensive rat (SHR). Because the SHR has been reported to be deficient in T cells, it was of interest to determine whether the course of hypertension in this model could be altered by interleukin-2, the T cell growth factor. A single bolus of interleukin-2 (5,000 units/kg s.c.) prevented the increase of blood pressure in the young SHR and lowered pressure to normotensive levels in the well-established hypertensive adult SHR. In the latter, the effects of a single dose have been found to persist for at least 6 months with no toxic or untoward effects apparent. Blood pressure in Goldblatt, single-kidney wistar-kyoto rats, a model of renal hypertension, was not affected by interleukin-2.
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PMID:Antihypertensive effect of interleukin-2. 213 45

To clarify the role of renal prostanoid in hyperreninemia and high blood pressure in human renovascular hypertension, we measured prostaglandin E2 and renin activity in renal venous and abdominal aortic plasma before and after the intravenous administration of the cyclooxygenase inhibitor, aspirin DL-lysine. Subjects were six patients with unilateral renovascular hypertension and six with essential hypertension. In patients with renovascular hypertension, prostaglandin E2 concentration in renal venous plasma from the stenotic kidney was 9.25 +/- 1.48 pg/ml, which was significantly higher (p less than 0.01) than the concentration in the renal venous plasma from the normal kidney (4.97 +/- 1.02 pg/ml) or in the aortic plasma (2.59 +/- 0.15 pg/ml). Plasma renin activity was also higher in the renal vein of the stenotic kidney than in the other two sites. The stenotic side/normal side ratio of the renal venous prostaglandin E2 correlated significantly with a renin ratio greater than 1.5 (r = 0.8211, p less than 0.05). Intravenous injection of aspirin DL-lysine (18 mg/kg) 30 minutes later markedly suppressed prostaglandin E2 and renin levels at all sites and clearly lowered arterial blood pressure (mean: from 120 +/- 6 to 110 +/- 5 mm Hg, p less than 0.01). The reduction in blood pressure correlated significantly with the suppression of plasma renin activity in the aorta (p less than 0.05) and in the renal vein of the stenotic kidney (p less than 0.01). Conversely, in patients with essential hypertension, aspirin had little effect on renin levels and increased mean blood pressure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Aspirin lowers blood pressure in patients with renovascular hypertension. 268 Sep 59

The effects of enalapril alone and in combination with the cyclooxygenase inhibitors sulindac and indomethacin on blood pressure (BP), plasma aldosterone, renin activity and converting enzyme activity were evaluated in 29 patients with mild to moderate essential hypertension, 26 of whom had low plasma renin activity. Patients were randomly assigned to one of three treatment groups. All patients underwent a 4-week placebo phase (phase I), then received enalapril (20 mg BID) for 4 weeks (phase II). In phase III, group I (n = 10) continued on enalapril alone; group II (n = 9) received sulindac 200 mg BID plus enalapril, and group III (n = 10) received indomethacin 50 mg BID plus enalapril, all for 4 weeks. Enalapril lowered BP significantly (mean supine BP 149/100 in phase I vs. 134/90 in phase II, p less than 0.05) without inhibiting aldosterone production. The BP effect was not blunted by concomitant administration of sulindac or indomethacin. Enalapril lowered converting enzyme activity to 25% to 30% of baseline and tended to increase renin activity. In the 10 patients who received indomethacin (group III), the effects of enalapril alone and enalapril plus indomethacin on urinary excretion of 6-keto prostaglandin F1 alpha (PGF1 alpha), a stable metabolite of prostacyclin (PGI2), were examined. Enalapril increased urinary 6-keto PGF1 alpha in group III from 118 +/- 23 to 194 +/- 38 ng/g creatinine (p less than 0.05), while addition of indomethacin reduced 6-keto PGF1 alpha to basal levels (138 +/- 26 ng/g creatinine).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antihypertensive effect of enalapril in essential hypertension: role of prostacyclin. 282 71

The effect of sulindac on renal function and blood pressure was compared with those of placebo, piroxicam, and naproxen in 20 patients with primary hypertension being treated with a diuretic and a beta-blocker. Although the three non-steroidal anti-inflammatory drugs (NSAIDs) did not differ in their effect on renal function (weight, glomerular filtration rate, creatinine clearance) or on serum thromboxane and plasma 6-keto prostaglandin F1 alpha (6-keto PGF1 alpha), blood pressure was significantly lower with sulindac than with placebo, piroxicam, or naproxen. These differences were associated with less renal cyclooxygenase inhibition by sulindac (reflected by urinary thromboxane B2 and 6-keto PGF1 alpha) than by other NSAIDs. The findings suggest that the blood pressure differences reflect vasodilation due to differences in the balance between systemic and renal effects of the NSAIDs.
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PMID:Effect of non-steroidal anti-inflammatory drugs on control of hypertension by beta-blockers and diuretics. 287 33

Whether the dopaminergic system may be involved in essential hypertension is of pathogenetic as well as therapeutic interest. Therefore, we investigated in eight hypertensive and 12 normal subjects cardiovascular, endocrine, and renal responses to fenoldopam, which has been characterized experimentally as an agonist of peripheral postsynaptic dopamine1 receptors. A single oral dose of fenoldopam, 100 mg, changed blood pressure (BP) in hypertensive subjects (from 163/103 to 147/76 mm Hg; p less than 0.01 for systolic and p less than 0.001 for diastolic BP) and normal subjects (from 121/81 to 123/65 mm Hg; p less than 0.001 for diastolic BP); percentage decreases in diastolic BP averaged -20 +/- 6 and -16 +/- 7%, respectively. Fenoldopam-induced effects on other variables were similar in the two groups. Heart rate rose (p less than 0.001) on average from 69 to 92 beats/min in hypertensive and from 64 to 84 beats/min in normal subjects. Effective renal plasma flow increased (from 552 to 765 and 634 to 937 ml/min/1.73 m2; p less than 0.01), while glomerular filtration rate tended to decrease (from 121 to 99 ml/min/1.73 m2 in the hypertensive and from 119 to 97 ml/min/1.73 m2; p less than 0.001 in the normal group). Fractional sodium clearance was elevated (from 2.8 to 5.2 and 1.7 to 3.8%; p less than 0.01), as was free water clearance (from -1.7 to 0.6 and -1.7 to 0.1 ml/min/1.73 m2; p less than 0.01). Potassium clearance was largely unchanged. Plasma renin activity increased about twofold (p less than 0.01 in normal subjects), and plasma aldosterone by 40% (NS). Plasma norepinephrine levels increased twofold to 2.5-fold (p less than 0.001), and urinary norepinephrine excretion fivefold to 10-fold (p less than 0.01). Fenoldopam-induced changes were not significantly modified by intravenous and/or oral pretreatment with the dopamine-receptor antagonist metoclopramide or the cyclooxygenase inhibitor indomethacin. These findings suggest that in humans, fenoldopam may acutely override the dopaminergic antagonism of metoclopramide given in clinical dosage and that its cardiovascular and renal effects are not prostaglandin-mediated. Although acute sympathetic stimulation may be partially antagonistic, the concomitant BP-lowering, renal vasodilating, and natriuretic actions of fenoldopam represent a desirable profile of a potential antihypertensive agent.
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PMID:Cardiovascular and renal profile of acute peripheral dopamine1-receptor agonism with fenoldopam. 288 68

Blood platelets of patients with essential hypertension display signs of both increased sensitivity in vitro to aggregating stimuli believed to contribute to thrombosis and of activation in vivo possibly expressing the release of vasoactive products. The mean features of the modified platelet profile in hypertension include an increased alpha 2-adrenergic receptor density, an enhanced rate of adhesion/aggregation in particular in response to ADP and arachidonic acid, a greater sensitivity for thrombin and adrenaline to stimulate increases in cytoplasmic-free Ca2+, increased resting levels of cytoplasmatic-free Ca2+, a reduced content of serotonin often combined with a defective uptake mechanism, a facilitated efflux rate of noradrenaline, an exaggerated release reaction in vivo as indicated by the increased plasma levels of Beta-thromboglobulin and a shortened platelet life span. These changes occur to various extents in some, but not all, hypertensive patients and are not always strictly related to the degree of blood pressure increase. On the contrary, platelet cyclooxygenase and thromboxane synthetase activity are in the normal range.
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PMID:Blood platelets in human essential hypertension. 353 21


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