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)

The possibility that prostacyclin or thromboxane biosynthesis is abnormal in patients with established mild essential hypertension was investigated in 46 patients. These eicosanoids have opposing effects both on vascular smooth muscle and on platelets. An imbalance in their biosynthesis could therefore influence both vascular tone and predisposition to thrombosis. We studied the relation between blood pressure and the biosynthesis of prostacyclin and thromboxane A2 by measuring urinary excretion rates of stable breakdown products of prostacyclin (6-oxo-prostaglandin F1 alpha and 2,3-dinor-6-oxo-prostaglandin F1 alpha) and of thromboxane A2 (thromboxane B2 and 2,3-dinor-thromboxane B2) using immunoaffinity chromatography and gas chromatography/electron capture mass spectrometry. Excretion rates of both of the prostacyclin-derived products ranged from less than 5 to more than 100 ng/g creatinine; each was significantly negatively correlated with blood pressure (r = 0.36-0.45). A reduction of 2,3-dinor-6-oxo-prostaglandin F1 alpha excretion of 100 ng/g creatinine was associated with an increase in arterial pressure of 14 mm Hg (systolic) and 8 mm Hg (diastolic) in patients who had been without antihypertensive medication for 2 weeks. The same reduction in 6-oxo-prostaglandin F1 alpha excretion was associated with an increased pressure of 19 mm Hg (systolic) and 12 mm Hg (diastolic) (2p less than 0.05 for diastolic pressure and 2p less than 0.01 for systolic pressure in each case). There were similar correlations between the excretion rates of these products and blood pressure in the same patients while they were receiving antihypertensive therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostacyclin and thromboxane biosynthesis in mild essential hypertension. 211 Jan 13

1. The effects of non-steroidal anti-inflammatory drugs (NSAID) on prostacyclin and thromboxane biosynthesis and on blood pressure were determined in 46 patients with mild essential hypertension. Patients who had abstained from antihypertensive therapy for 2 weeks before study were treated with either aspirin, ibuprofen, sulindac or placebo for 7 days. 2. Excretion rates of 2,3-dinor-6-oxo-prostaglandin (PG) F1 alpha, 6-oxo-PGF1 alpha, 2,3-dinorthromboxane (TX) B2 and TXB2 were measured as indices of prostacyclin and TXA2 biosynthesis. Samples were assayed using immunoaffinity chromatography and gas chromatography/electron capture chemical ionisation mass spectrometry. 3. Aspirin and ibuprofen reduced urinary excretion of all prostacyclin- and thromboxane-derived products. Sulindac inhibited excretion of 2,3-dinor-6-oxo-PGF1 alpha, 6-oxo-PGF1 alpha and 2,3-dinor-TXB2, but had no significant effect on TXB2. 4. Systolic blood pressure increased in the ibuprofen-treated group when compared with the placebo group. There were no other significant changes in systolic or diastolic pressure in any of the treatment groups. Among the patients as a whole, there was a significant negative correlation between change in blood pressure and change in excretion of the prostacyclin-derived but not of the thromboxane-derived products. 5. We conclude that, in patients with mild essential hypertension, neither sulindac nor aspirin (in the doses used) selectively spares prostacyclin biosynthesis by the kidney. The significant relationship between increase in blood pressure and reduction in prostacyclin biosynthesis favours the possibility that in individuals who become hypertensive, prostacyclin biosynthesis determines, in part, the severity of the hypertensive state.
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PMID:Effects of non-steroidal anti-inflammatory drugs on prostacyclin and thromboxane biosynthesis in patients with mild essential hypertension. 229 66

Increased platelet aggregation induced by ADP and arachidonic acid was observed in 12 patients with essential hypertension compared with 12 control subjects, but not after pretreatment with acetylsalicylic acid. The increase in intracellular calcium induced by ADP was also greater in the hypertensive patients, and again this difference disappeared after cyclo-oxygenase blockade. Urinary excretion of 2,3-dinor-thromboxane B2, the main metabolite of platelet thromboxane A2, was slightly, but not significantly increased in the hypertensive patients. These data suggest that thromboxane system activity is increased in the platelets of hypertensive patients.
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PMID:Increased platelet aggregation and intracellular calcium in hypertensive patients: effects of cyclo-oxygenase blockade. 251

Short-term effects of ridogrel, a combined thromboxane synthase inhibitor and receptor antagonist, were investigated in 16 patients with uncomplicated essential hypertension. After a 2-week placebo period without antihypertensive medication, patients were admitted to the hospital overnight on two occasions 3 weeks apart. On each occasion, they received two doses of either placebo or ridogrel (300 mg) 12 hours apart according to a double-blind crossover protocol. Renal and systemic thromboxane A2 and prostacyclin biosynthesis were investigated by measuring urinary excretion of thromboxane B2, 6-oxo-prostaglandin F1 alpha, and their respective 2,3-dinor metabolites using gas chromatography/mass spectrometry. Responses of platelets to a thromboxane A2 mimetic and to adenosine diphosphate were studied turbidometrically. Blood pressure was measured automatically at 20-minute intervals. Ridogrel reduced excretion of 2,3-dinor-thromboxane B2 and thromboxane B2 compared with placebo (21 +/- 6 versus 279 +/- 28 and 14 +/- 4 versus 39 +/- 9 ng/g creatinine, respectively; P < .0001 and P < .05). Excretion of 2,3-dinor-6-oxoprostaglandin F1 alpha and 6-oxoprostaglandin F1 alpha was increased by ridogrel compared with placebo (184 +/- 20 versus 146 +/- 11 and 86 +/- 9 versus 58 +/- 6 ng/g creatinine, respectively; P < .05). Ridogrel selectively antagonized platelet aggregation to the thromboxane mimetic (P < .0001). Blood pressure did not differ significantly between ridogrel and placebo treatment periods. Thus, in patients with essential hypertension, acute administration of ridogrel reduces renal and extrarenal thromboxane A2 biosynthesis, increases renal and extrarenal prostacyclin biosynthesis, inhibits thromboxane receptor-activated platelet aggregation, but has no effect on systemic arterial pressure.
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PMID:Thromboxane A2 receptor antagonism and synthase inhibition in essential hypertension. 834 Jan 55