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)

Hyperuricemia is associated with hypertension and vascular disease, but whether this represents a causal relationship or an epiphenomenon remains unknown. We recently reported a model of mild hyperuricemia in rats that results in increased blood pressure and mild renal fibrosis. In this study, we examined the effect of hyperuricemia on the renal vasculature. Rats fed 2% oxonic acid and a low-salt diet for 7 wk developed mild hyperuricemia (1.8 vs. 1.4 mg/dl, P < 0.05), hypertension [147 vs. 127 mmHg systolic blood pressure (SBP), P < 0.05], and afferent arteriolar thickening, with a 35% increase in medial area (P < 0.05). Allopurinol or benziodarone prevented the hyperuricemia, hypertension, and arteriolopathy. Hydrochlorothiazide treatment did not prevent the hyperuricemia or arteriolopathy despite controlling blood pressure. In contrast, the arteriolopathy and hypertension were prevented by both enalapril and losartan. Uric acid also directly stimulated vascular smooth muscle cell proliferation in vitro, and this was partially inhibited by losartan. Thus hyperuricemia induces a renal arteriolopathy in rats that is blood pressure independent and involves the renin-angiotensin system.
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PMID:Hyperuricemia induces a primary renal arteriolopathy in rats by a blood pressure-independent mechanism. 1199 15

Chronic exposure to high altitude is associated with the development of erythrocytosis, proteinuria, and, in some cases, hyperuricemia. We examined the relationship between high-altitude polycythemia and proteinuria and hyperuricemia in Cerro de Pasco, Peru (altitude, 4,300 m). We studied 25 adult men with hematocrits less than 65% and 27 subjects with excessive erythrocytosis (EE; hematocrit > 65%) living in Cerro de Pasco, Peru and compared them with 28 control subjects living in Lima, Peru (at sea level) and after 48 hours of exposure to high altitude. Serum urate levels were significantly elevated in patients with EE at altitude, and gout occurred in 4 of 27 of these subjects. Urate level strongly correlated with hematocrit (r = 0.71; P < 0.0001). Urate production (24-hour urine urate excretion and urine urate-creatinine ratio) was increased in this group compared with those at sea level. Fractional urate excretion was not increased, and fractional lithium excretion was reduced, in keeping with increased proximal reabsorption of filtrate. Significantly higher blood pressures and decreased renin levels in the EE group were in keeping with increased proximal sodium reabsorption. Serum urate levels correlated with mean blood pressure (r = 0.50; P < 0.0001). Significant proteinuria was more prevalent in the EE group despite normal renal function. Hyperuricemia is common in subjects living at high altitude and associated with EE, hypertension, and proteinuria. The increase in uric acid levels appears to be caused by increased urate generation secondary to systemic hypoxia, although a relative impairment in renal excretion also may contribute.
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PMID:Hyperuricemia, hypertension, and proteinuria associated with high-altitude polycythemia. 1204 23

Pulmonary arterial hypertension is a malignant disease with a median survival of 3 years. Uric acid levels are elevated in severe heart failure and in states of hypoxemia. Early data suggest a correlation between hyperuricemia and severe pulmonary arterial hypertension. We studied 29 patients with pulmonary arterial hypertension diagnosed and treated between 1998 and 2001. Clinical characteristics (6 min walk test and New York Heart Association class) and hemodynamic parameters (pulmonary artery pressure, pulmonary vascular resistance and cardiac output) were evaluated and correlated to uric acid level in a retrospective study. Uric acid levels correlated positively with New York Heart Association class (r=0.66, P<0.001) and negatively with 6 min walk test (r=-0.35, P=0.03). Uric acid levels were higher in patients who died than in patients who survived at the end ofthe follow-up period (8.8 vs. 5.7 mg/dl, P=0.001). This study shows that uric acid levels are elevated in severe pulmonary arterial hypertension and can be used as a prognostic marker of disease severity.
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PMID:Hyperuricemia as a prognostic factor in pulmonary arterial hypertension. 1258 62

Previous studies have reported that uric acid stimulates vascular smooth muscle cell (VSMC) proliferation in vitro. We hypothesized that uric acid may also have direct proinflammatory effects on VSMCs. Crystal- and endotoxin-free uric acid was found to increase VSMC monocyte chemoattractant protein-1 (MCP-1) expression in a time- and dose-dependent manner, peaking at 24 hours. Increased mRNA and protein expression occurred as early as 3 hours after uric acid incubation and was partially dependent on posttranscriptional modification of MCP-1 mRNA. In addition, uric acid activated the transcription factors nuclear factor-kappaB and activator protein-1, as well as the MAPK signaling molecules ERK p44/42 and p38, and increased cyclooxygenase-2 (COX-2) mRNA expression. Inhibition of p38 (with SB 203580), ERK 44/42 (with UO126 or PD 98059), or COX-2 (with NS398) each significantly suppressed uric acid-induced MCP-1 expression at 24 hours, implicating these pathways in the response to uric acid. The ability of both n-acetyl-cysteine and diphenyleneionium (antioxidants) to inhibit uric acid-induced MCP-1 production suggested involvement of intracellular redox pathways. Uric acid regulates critical proinflammatory pathways in VSMCs, suggesting it may have a role in the vascular changes associated with hypertension and vascular disease.
Hypertension 2003 Jun
PMID:Uric acid stimulates monocyte chemoattractant protein-1 production in vascular smooth muscle cells via mitogen-activated protein kinase and cyclooxygenase-2. 1274 10

This study examined the utility of serum uric acid concentrations in the first day of life to identify infants with severe brain injury (grade III or IV intraventricular hemorrhage and/or periventricular leukomalacia). The serum uric acid concentrations in infants with severe brain injury were compared to those without. Severe brain injury was assessed in 151 infants with birthweight < or = 1,251 g admitted before 24 h of life. The risk of severe brain injury was related to 5-min Apgar scores (odds ratio 0.79, CI 0.63-0.98, p < 0.05) and seizures in the first day of life (odds ratio 4.44, CI 1.004-19.66, p < 0.05), but the mean uric acid levels did not differ between those with and without severe brain injury [5.11 +/- 1.88 mg/dl (303.9 +/- 111.8 micromol/l) vs. 5.77 +/- 2.13 mg/dl (343.2 +/- 126.7 micromol/l), p = 0.200]. Uric acid levels were related to serum creatinine (p < 0.001), time of uric acid sample (p < 0.001), maternal hypertension (p < 0.001), and base deficit (p = 0.032). Of the 80 infants seen in neurodevelopmental follow-up at a median 11 months postconceptional age, uric acid concentrations did not differ between the abnormal (n = 20) and normal subjects [5.38 +/- 1.72 mg/dl (320.0 +/- 102.3 micromol/l) vs. 6.02 +/- 2.55 mg/dl (358.1 +/- 151.8 micromol/l), p = 0.197]. Uric acid may not be a useful early marker for premature infants with severe brain injury.
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PMID:Lack of prognostic significance of early elevated serum uric acid levels in low birthweight infants. 1274 54

Experimental animal models suggest that uric acid might have a pathogenic role in the early development of primary hypertension. We hypothesized that serum uric acid is correlated with blood pressure in children with new-onset, untreated, primary hypertension. We evaluated 125 consecutive children referred to the Baylor Pediatric Renal Program for evaluation of hypertension. None of the subjects had previously been evaluated or treated for hypertension. The children ranged in age from 6 to 18 years (mean, 13.4+/-3.3) and had normal renal function (creatinine clearance >80 mL x min(-1) x 1.73 m(-2)). Sixty-three children had primary hypertension, 40 had secondary hypertension, and 22 had white-coat hypertension. Forty controls with normal blood pressure were recruited from the renal clinic. Uric acid levels were directly correlated with systolic (r=0.80, P=0.0002) and diastolic (r=0.66, P=0.0006) blood pressure in controls and in subjects with primary hypertension and were independent of renal function. Serum uric acid concentrations >5.5 mg/dL were found in 89% of subjects with primary hypertension, in 30% with secondary hypertension, in 0% with white-coat hypertension, and in 0% of controls. We conclude that serum uric acid is directly correlated with blood pressure in untreated children and that a serum uric acid value >5.5 mg/dL in an adolescent being evaluated for hypertension strongly suggests primary hypertension as opposed to white-coat or secondary hypertension. These results are consistent with the hypothesis that uric acid might have a role in the early pathogenesis of primary hypertension.
Hypertension 2003 Sep
PMID:Hyperuricemia in childhood primary hypertension. 1290 Apr 31

Uric acid has been suggested as a risk factor in cardiovascular disease since the beginning of the twentieth century. While some clinical evidence have found a significant, specific and independent association between the uric acid serum level and cardiovascular morbidity and mortality, others came to an opposite conclusion. Hyperuricemia commonly coexists with hyperlipidaemia, hypertension, diabetes, obesity and others cardiovascular risk factors. This strong association makes the the role of risk factors difficult to separate out. Thus, the role of uric acid as an independent risk marker remains an open question.
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PMID:[Role of uric acid in cardiovascular diseases]. 1505 51

Uric acid (UA) is the final product of purine catabolism in man, and it is excreted mainly by the kidneys when renal function is not impaired. Consequently, serum (S) UA increases as a function of purine intake, and it varies inversely to uricosuria. The latter variable diminishes in response to low-sodium intakes and vice versa. Insofar as the diet is not usually controlled in studies in which the response of SUA to drugs is evaluated, most reports are to be considered cautiously. Common diuretics elevate SUA in healthy subjects, hypertensives and patients with heart failure, apparently by elevating net UA reabsorption in the nephronal proximal tubule. This drug action, which becomes noticeable shortly after the institution of treatment and remains throughout it, starts at low doses (e.g., 12.5 mg hydrochlorothiazide or 1.25 mg bendrofluazide once daily in subjects with uncomplicated hypertension) and increases in dose-dependent fashion. Beta-blockers tend to elevate SUA. The angiotensin-converting enzyme (ACE) inhibitors captopril, enalapril and ramipril have been found to increase uricosuria mildly, likely by lowering the net reabsorption of UA in the proximal tubule. These three drugs and lisinopril can blunt the rise in SUA provoked by diuretics in hypertensives if used at sufficiently high doses relative to the dose of the diuretic. The angiotensin II antagonist losartan augments uricosuria mildly and thereby decreases SUA. The cardiovascular implications of the response of SUA to drugs remain speculative. Uric acid can scavenge various reactive oxygen species and thus reduce oxidative stress, which seems to contribute to the development and/or progress of various cardiovascular conditions, including hypertension, atherosclerosis and heart failure. Consequently, it may be theorised that the elevations in SUA induced by diuretics might contribute to the established favourable action of these agents on cardiovascular prognosis. Conversely, diuretic-induced increases in SUA are to be considered detrimental according to an old hypothesis that maintains that SUA is a cardiovascular risk factor; this construct is largely based upon the results of selected epidemiological undertakings. The cardiovascular implications of the effects of drugs on SUA, if any, should be elucidated through purposive research.
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PMID:Cardiovascular drugs and serum uric acid. 1510 95

BACKGROUND: The topical role of uric acid and its relation to cardiovascular disease, renal disease, and hypertension is rapidly evolving. Its important role both historically and currently in the clinical clustering phenomenon of the metabolic syndrome (MS), type 2 diabetes mellitus (T2DM), atheroscleropathy, and non-diabetic atherosclerosis is of great importance. RESULTS: Uric acid is a marker of risk and it remains controversial as to its importance as a risk factor (causative role). In this review we will attempt to justify its important role as one of the many risk factors in the development of accelerated atherosclerosis and discuss its importance of being one of the multiple injurious stimuli to the endothelium, the arterial vessel wall, and capillaries. The role of uric acid, oxidative - redox stress, reactive oxygen species, and decreased endothelial nitric oxide and endothelial dysfunction cannot be over emphasized.In the atherosclerotic prooxidative environmental milieu the original antioxidant properties of uric acid paradoxically becomes prooxidant, thus contributing to the oxidation of lipoproteins within atherosclerotic plaques, regardless of their origins in the MS, T2DM, accelerated atherosclerosis (atheroscleropathy), or non-diabetic vulnerable atherosclerotic plaques. In this milieu there exists an antioxidant - prooxidant urate redox shuttle. CONCLUSION: Elevations of uric acid > 4 mg/dl should be considered a "red flag" in those patients at risk for cardiovascular disease and should alert the clinician to strive to utilize a global risk reduction program in a team effort to reduce the complications of the atherogenic process resulting in the morbid - mortal outcomes of cardiovascular disease.
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PMID:Uric acid: A new look at an old risk marker for cardiovascular disease, metabolic syndrome, and type 2 diabetes mellitus: The urate redox shuttle. 1550 32

Uric acid has been proposed as an important risk factor in the development of primary hypertension in humans. However, limited information is available linking childhood uric acid levels and blood pressure levels in adulthood. This study examined 334 whites and 243 blacks enrolled in the Bogalusa Heart Study as children aged 5 to 17 years and as adults aged 18 to 35 years. The average follow-up period was 12 years. Childhood uric acid was significantly correlated with childhood and adult blood pressure, both systolic and diastolic. In a multivariate regression analysis, adjusting for age, sex, race, childhood body mass index, childhood uric acid levels, and change in levels of uric acid were significant predictors of adult diastolic blood pressure, whereas change in uric acid was a significant predictor of adult systolic blood pressures. In conclusion, elevated childhood serum uric acid levels are associated with increased blood pressure beginning in childhood and higher blood pressure levels that persist into adulthood, in males and females, whites and blacks, suggesting that early elevations in serum uric acid levels may play a key role in the development of human hypertension.
Hypertension 2005 Jan
PMID:Childhood uric acid predicts adult blood pressure: the Bogalusa Heart Study. 1555 87


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