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: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A series of 1-phenylpyrazoles was evaluated for inhibitory activity against xanthine oxidase in vitro. Of the compounds prepared, 1-(3-cyano-4-neopentyloxyphenyl)pyrazole-4-carboxylic acid (Y-700) had the most potent enzyme inhibition and displayed longer-lasting hypouricemic action than did allopurinol in a rat model of hyperuricemia induced by the uricase inhibitor potassium oxonate.
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PMID:Synthesis and structure-activity relationships of 1-phenylpyrazoles as xanthine oxidase inhibitors. 1129 82

Allopurinol is often prescribed for the treatment of hyperuricemia. It inhibits the uric acid production binding tightly to xanthine oxidase. Although it is generally well tolerated, an almost 10% prevalence of adverse reactions has been reported, particularly gastrointestinal and neurological effects. Some hypersensitivity syndromes have also been described (rash, vasculitis or exfoliative dermatitis). In these cases, if a substitute treatment is not available, a desensitization procedure to the drug must be considered. We present three patients with cutaneous hypersensitivity to allopurinol, two who developed urticaria and other one who had a fixed drug eruption. Skin test were all negatives with positive oral challenge test. An out- patient desensitization procedure to allopurinol was initiated, repeating the last tolerated doses for 4 or 5 days, and reaching maintenance therapeutic drug doses without any significant adverse effect (only one case of cutaneous pruritus). These experiences and the previously reported in the literature, show that the desensitization to allopurinol is a good therapeutic alternative in hypersensitivity reactions to the drug.
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PMID:[Hypersensitivity to allopurinol. Efficacy of a desensitizing protocol in 3 cases]. 1138 41

An elevation in circulating serum uric acid is strongly associated with the development of hypertension and renal disease, but whether uric acid has a causal role or whether it simply indicates patients at risk for these complications remains controversial. We tested the hypothesis that uric acid may have a causal role in the development of hypertension and renal disease by examining the effects of mild hyperuricemia in rats. Mild hyperuricemia was induced in rats by providing a uricase inhibitor (oxonic acid) in the diet. Hyperuricemic rats developed elevated blood pressure after 3 weeks, whereas control rats remained normotensive. The development of hypertension was prevented by concurrent treatment with either a xanthine oxidase inhibitor (allopurinol) or a uricosuric agent (benziodarone), both of which lowered uric acid levels. Blood pressure could also be lowered by reducing uric acid levels with either allopurinol or oxonic acid withdrawal. A direct relationship was found between blood pressure and uric acid (r=0.75, n=69), with a 10-mm Hg blood pressure increase for each 0.03-mmol/L (0.5-mg/dL) incremental rise in serum uric acid. The kidneys were devoid of urate crystals and were normal by light microscopy. However, immunohistochemical stains documented an ischemic type of injury with collagen deposition, macrophage infiltration, and an increase in tubular expression of osteopontin. Hyperuricemic rats also exhibited an increase in juxtaglomerular renin and a decrease in macula densa neuronal NO synthase. Both the renal injury and hypertension were reduced by treatment with enalapril or L-arginine. In conclusion, mild hyperuricemia causes hypertension and renal injury in the rat via a crystal-independent mechanism, with stimulation of the renin-angiotensin system and inhibition of neuronal NO synthase.
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PMID:Elevated uric acid increases blood pressure in the rat by a novel crystal-independent mechanism. 1171 5

The natural product aesculin was demonstrated to possess potent hypouricemic effects in in vivo models of hyperuricemia in both mice and rats pretreated with oxonate. Aesculin, when administered intraperitoneally to the oxonate-induced hyperuricemic rodents, was able to elicit dose-dependent hypouricemic effects. At doses of 150 mg/kg of aesculin or above, the serum urate levels of the oxonate-pretreated mice were not different from normal mice. Such an effect in mice was observed as quick as 1.5 h after aesculin administration and was persistent for at least 5 h after aesculin administration. In rats, similar hypouricemic effects of intraperitoneally administered aesculin could also be demonstrated at doses of 100 mg/kg of aesculin or above, the serum urate levels of the oxonate-pretreated rats were not different from normal rats. Again, the effect persisted for at least 5 h after aesculin administration. In both rodents, however, oral administration at the same doses did not produce any observable hypouricemic effects. In addition, aesculin, when tested in vitro on rat and mouse liver homogenates, did not elicit any measurable inhibitory actions on the xanthine oxidase/xanthine dehydrogenase activities.
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PMID:Aesculin possesses potent hypouricemic action in rodents but is devoid of xanthine oxidase/dehydrogenase inhibitory activity. 1185 75

Hyperuricemia is associated with renal disease, but it is usually considered a marker of renal dysfunction rather than a risk factor for progression. Recent studies have reported that mild hyperuricemia in normal rats induced by the uricase inhibitor, oxonic acid (OA), results in hypertension, intrarenal vascular disease, and renal injury. This led to the hypothesis that uric acid may contribute to progressive renal disease. To examine the effect of hyperuricemia on renal disease progression, rats were fed 2% OA for 6 wk after 5/6 remnant kidney (RK) surgery with or without the xanthine oxidase inhibitor, allopurinol, or the uricosuric agent, benziodarone. Renal function and histologic studies were performed at 6 wk. Given observations that uric acid induces vascular disease, the effect of uric acid on vascular smooth muscle cells in culture was also examined. RK rats developed transient hyperuricemia (2.7 mg/dl at week 2), but then levels returned to baseline by week 6 (1.4 mg/dl). In contrast, RK+OA rats developed higher and more persistent hyperuricemia (6 wk, 3.2 mg/dl). Hyperuricemic rats demonstrated higher BP, greater proteinuria, and higher serum creatinine than RK rats. Hyperuricemic RK rats had more renal hypertrophy and greater glomerulosclerosis (24.2 +/- 2.5 versus 17.5 +/- 3.4%; P < 0.05) and interstitial fibrosis (1.89 +/- 0.45 versus 1.52 +/- 0.47; P < 0.05). Hyperuricemic rats developed vascular disease consisting of thickening of the preglomerular arteries with smooth muscle cell proliferation; these changes were significantly more severe than a historical RK group with similar BP. Allopurinol significantly reduced uric acid levels and blocked the renal functional and histologic changes. Benziodarone reduced uric acid levels less effectively and only partially improved BP and renal function, with minimal effect on the vascular changes. To better understand the mechanism for the vascular disease, the expression of COX-2 and renin were examined. Hyperuricemic rats showed increased renal renin and COX-2 expression, the latter especially in preglomerular arterial vessels. In in vitro studies, cultured vascular smooth muscle cells incubated with uric acid also generated COX-2 with time-dependent proliferation, which was prevented by either a COX-2 or TXA-2 receptor inhibitor. Hyperuricemia accelerates renal progression in the RK model via a mechanism linked to high systemic BP and COX-2-mediated, thromboxane-induced vascular disease. These studies provide direct evidence that uric acid may be a true mediator of renal disease and progression.
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PMID:A role for uric acid in the progression of renal disease. 1244 7

The standard prophylactic and treatment regimen for hyperuricemia in patients with hematological malignancies previously included vigorous hydration, urinary alkalinization, and a xanthine oxidase inhibitor, allopurinol, which blocks the conversion of hypoxanthine and xanthine to uric acid. However, xanthine is less soluble than uric acid, and preexisting uric acid is not affected by allopurinol. The enzyme urate oxidase, not present in mammals, converts uric acid to allantoin, which is 5-10 times more soluble than uric acid. A new recombinant form of urate oxidase, rasburicase, has recently been developed. In a phase I/II study of rasburicase in children and young adults with hematological malignancies, rasburicase was demonstrated to be well tolerated at 0.2 mg/kg/day intravenously, had a mean T1/2 of 21.2 +/- 12.0 hours, and induced a median decrease in uric acid from 9.7 mg/dL to 1.0 mg/dL (P < 0.001). We recently demonstrated, in a randomized prospective trial comparing rasburicase versus allopurinol in children with hematological malignancies at high risk of tumor lysis syndrome, that rasburicase significantly lowered the mean uric acid area under the curve 0 to 96 hours (128 +/- 70 mg/dL/hour vs. 329 +/- 129 mg/dL/hour; P < 0.001) and 4 hours post uric acid by 86% versus 12% (P < 0.001). Furthermore, in the hyperuricemic group, the baseline creatinine level decreased from 144% to 102% by 96 hours following rasburicase compared to an increase from 132% to 147% following allopurinol. Although the difference in effect on creatinine levels is not significant, the study was not designed or powered to question this effect. Lastly, in 510 patients with hematological malignancies at risk for tumor lysis syndrome who received rasburicase, only 2 (0.4%) have developed new renal complications requiring hemodialysis. In summary, in the prevention and treatment of hyperuricemia, patients with hematological malignancies at risk of tumor lysis syndrome appear to benefit significantly from the use of a recombinant urate oxidase (rasburicase).
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PMID:Prevention and treatment of hyperuricemia in hematological malignancies. 1252 86

Renal precipitation of uric acid associated with tumor lysis syndrome (TLS) is a major complication in the management of leukemia, lymphoma, and other drug-sensitive cancers. Management of hyperuricema has historically consisted of administration of allopurinol, hydration, alkalinization to maintain pH between 7.0 and 7.3, and in some cases diuresis. Allopurinol, a xanthine analogue, blocks xanthine oxidase and formation of uric acid. Urate oxidase converts uric acid to allantoin, which is 5-10 times more soluble than uric acid. Homo sapiens cannot express urate oxidase because of a nonsense mutation. Urate oxidase was initially purified from Aspergillus flavus fungus. Treatment with this nonrecombinant product had been effective in preventing renal precipitation of uric acid in cancer patients, but was associated with a relatively high frequency of allergic reactions. This enzyme was recently cloned from A. flavus and is now manufactured as a recombinant protein. Clinical trials have shown this drug to be more effective than allopurinol for prevention and treatment of hyperuricemia in leukemia and lymphoma patients. This drug has been approved in Europe as well as the US and several clinical trials are in progress to further determine its clinical utility in other patient subsets. The purpose of this meeting was to discuss usefulness of recombinant urate oxidase, also known as rasburicase, Fasturtec, and Elitek, for the management of TLS in certain cancer patients.
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PMID:Elitek-rasburicase: an effective means to prevent and treat hyperuricemia associated with tumor lysis syndrome, a Meeting Report, Dallas, Texas, January 2002. 1264 38

High uric acid levels are associated with increased morbidity and mortality rates in cardiovascular disease. In this article we explore the relationship between cardiovascular disease and xanthine oxidase activity. We look at the evidence that uric acid and its production via the xanthine oxidase pathway, may directly contribute to this increased cardiovascular risk. We examine the relationship between uric acid and other established cardiovascular risk factors and look at the evidence that reducing uric acid production may have a beneficial impact on cardiovascular morbidity and mortality. We conclude that although there is currently insufficient evidence to recommend the routine use of xanthine oxidase inhibitors in those with cardiovascular disease and asymptomatic hyperuricemia, there is sufficient evidence to warrant a large scale morbidity and mortality trial.
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PMID:Hyperuricemia and adverse outcomes in cardiovascular disease: potential for therapeutic intervention. 1472 64

A substantial body of epidemiological and experimental evidence suggests that serum uric acid is an important, independent risk factor for cardiovascular and renal disease especially in patients with hypertension, heart failure, or diabetes. Elevated serum uric acid is highly predictive of mortality in patients with heart failure or coronary artery disease and of cardiovascular events in patients with diabetes. Further, patients with hypertension and hyperuricemia have a 3- to 5-fold increased risk of experiencing coronary artery disease or cerebrovascular disease compared with patients with normal uric acid levels. Although the mechanisms by which uric acid may play a pathogenetic role in cardiovascular disease is unclear, hyperuricemia is associated with deleterious effects on endothelial dysfunction, oxidative metabolism, platelet adhesiveness, hemorheology, and aggregation. Xanthine oxidase inhibitors (e.g., allopurinol) or a variety of uricosuric agents (e.g., probenecid, sulfinpyrazone, benzbromarone, and benziodarone) can lower elevated uric acid levels but it is unknown whether these agents reversibly impact cardiovascular outcomes. However, the findings of the recent LIFE study in patients with hypertension and left ventricular hypertrophy suggest the possibility that a treatment-induced decrease in serum uric acid may indeed attenuate cardiovascular risk. LIFE showed that approximately 29% (14% to 107%, p = 0.004) of the treatment benefit of a losartan-based versus atenolol-based therapy on the primary composite endpoint (death, myocardial infarction, or stroke) may be ascribed to differences in achieved serum uric acid levels. Overall, serum uric acid may be a powerful tool to help stratify risk for cardiovascular disease. At the very least, it should be carefully considered when evaluating overall cardiovascular risk.
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PMID:Uric acid: role in cardiovascular disease and effects of losartan. 1502 46

Although allopurinol has been available for approximately 50 years, hyperuricemia and its sequelae are not only prevalent, but the incidence and costs associated with this disorder continue to increase. However, several new therapies have been developed. Recombinant urate oxidase has been useful in the treatment of tumor lysis hyperuricemia, and pegylated urate oxidase shows promise in patients with hyperuricemia and gout. Febuxostat and Y-700 are new oral xanthine oxidase inhibitors that are in human clinical trials. Tailoring of antilipid therapy in selected hyperuricemic and hyperlipidemic patients with fenofibrate may be of benefit in lowering blood cholesterol and uric acid levels. Similarly, treatment of selected hyperuricemic patients who also are hypertensive with losartan or amlodipine may be beneficial in lowering blood pressure and hyperuricemia. Despite these advances, new treatments for hyperuricemia are needed.
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PMID:Serum uric acid-lowering therapies: where are we heading in management of hyperuricemia and the potential role of uricase. 1513 5


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