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

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.
Hypertension 2001 Nov
PMID:Elevated uric acid increases blood pressure in the rat by a novel crystal-independent mechanism. 1171 5

Humans have elevated serum uric acid as a result of a mutation in the urate oxidase (uricase) gene that occurred during the Miocene. We hypothesize that the mutation provided a survival advantage because of the ability of hyperuricemia to maintain blood pressure under low-salt dietary conditions, such as prevailed during that period. Mild hyperuricemia in rats acutely increases blood pressure by a renin-dependent mechanism that is most manifest under low-salt dietary conditions. Chronic hyperuricemia also causes salt sensitivity, in part by inducing preglomerular vascular disease. The vascular disease is mediated in part by uric acid-induced smooth muscle cell proliferation with activation of mitogen-activated protein kinases and stimulation of cyclooxygenase-2 and platelet-derived growth factor. Although it provided a survival advantage to early hominoids, hyperuricemia may have a major role in the current cardiovascular disease epidemic.
Hypertension 2002 Sep
PMID:Uric acid, hominoid evolution, and the pathogenesis of salt-sensitivity. 1221 79

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 manifestations of gout can be abolished permanently by lifelong urate-lowering therapy maintaining serum urate levels under 360 mmol/l, as this ensures dissolution of pathogenic crystals of monosodium urate monohydrate. Benzbromarone has been withdrawn from the market, leaving allopurinol as the only urate-lowering drug readily available in France. Allopurinol may induce unacceptable side effects, and in patients with dose-limiting renal failure it may not be sufficiently effective. Because allopurinol can induce serious side effects when given concomitantly with purine antimetabolites, it is contraindicated in organ transplant recipients. In patients who cannot tolerate allopurinol, dietary treatment, discontinuation of diuretic agents, and use of losartan or fenofibrate to treat concomitant hypertension or dyslipidemia, respectively, may ensure adequate control of serum urate levels. Desensitization to allopurinol can be attempted in patients with mild cutaneous hypersensitivity reactions but is difficult to perform and rarely used. Uricosuric agents may be helpful in patients with normal or diminished urate excretion. Probenecid is available in France from hospital pharmacies, and benzbromarone can be prescribed via a time-limited authorization procedure. Rasburicase, an Aspergillus urate oxidase produced by genetic engineering, is indicated to prevent acute hyperuricemia induced by chemotherapy for hematological malignancies. Factors that limit the use of rasburicase include the absence of a marketing authorization, the need for parenteral administration, and the absence of validated treatment schedules. Patients with renal failure precluding the use of effective allopurinol dosages are good candidates for benzbromarone therapy. Organ transplant recipients can be given benzbromarone, within the current restrictions to its use; alternatively, mycophenolate mofetil can be substituted for calcineurin inhibitors, which elevate serum urate levels, or for azathioprine, which contraindicates the use of allopurinol.
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PMID:Current management of gout in patients unresponsive or allergic to allopurinol. 1558 27

Several trials argued the possibility that hyperuricemia may have a direct effect on cardiovascular and renal disease. It has been shown that an elevated serum uric acid concentration is a predictor of cardiovascular events such as myocardial infarction. It also predicts the development of hypertension and in hypertensive patients, hyperuricemia is associated with increased cardiovascular morbidity and mortality. Hyperuricemia is a complication often seen in patients with chronic and acute renal disease. The relationship between serum uric acid level and the appearance or progression of renal dysfunction has been debated in the last years. During chemotherapy for hematological malignancies or more rarely for solid tumors, acute renal failure, secondary to a sudden marked increase in uric acid, is not such a rare complication. The therapeutic intervention includes hyper hydration, urinary alkalinization, and the use of uric acid decreasing agents such as allopurinol and rasburicase, a recent recombinant-urate oxidase. In our personal experience, patients with acute renal failure due to hyperuricemia, showed a better renal prognosis with rasburicase than allopurinol. Chronic hyperuricemia is also associated with chronic tubulo-interstitial disease with glomerular sclerosis, and renal dysfunction. Experimental trials showed that uric acid can affect kidneys through different mechanisms at glomerular, tubulo-interstitial and vascular level. Although allopurinol is often the drug of choice, caution must be used to avoid serious side effects. New therapeutic options, for treating hyperuricemia are needed in patients with renal dysfunction for slowing the progression to end stage kidney disease.
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PMID:Pharmacological treatment of acute and chronic hyperuricemia in kidney diseased patients. 1560 14

Hypertension is epidemic and currently affects 25% of the world's population and is a major cause of stroke, congestive heart failure, and end-stage renal disease. Interestingly, there is evidence that the increased frequency of hypertension is a recent event in human history and correlates with dietary changes associated with Westernization. In this article, we review the evidence that links uric acid to the cause and epidemiology of hypertension. Specifically, we review the evidence that the mutation of uricase that occurred in the Miocene that resulted in a higher serum uric acid in humans compared with most other mammals may have occurred as a means to increase blood pressure in early hominoids in response to a low-sodium and low-purine diet. We then review the evidence that the epidemic of hypertension that evolved with Westernization was associated with an increase in the intake of red meat with a marked increase in serum uric acid levels. Indeed, gout and hyperuricemia should be considered a part of the obesity, type 2 diabetes, and hypertension epidemic that is occurring worldwide. Although other mechanisms certainly contribute to the pathogenesis of hypertension, the possibility that serum uric acid level may have a major role is suggested by these studies.
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PMID:Uric acid, evolution and primitive cultures. 1566 Mar 28

Prolonged hyperuricemia is associated with the development of hypertension, renal arteriolosclerosis, glomerulosclerosis, and tubulointerstitial injury. It confers a greater risk than proteinuria for developing chronic renal disease and is associated with the development of hypertension. Mild chronic hyperuricemia without intrarenal crystal deposition was induced in rats by inhibiting uricase with oxonic acid. Hyperuricemic rats developed hypertension, afferent arteriolar thickening, and mild renal interstitial fibrosis. Additionally, hyperuricemia accelerated renal damage and vascular disease in rats undergoing renal ablation. To better understand the role of hyperuricemia in the kidney, micropuncture studies were performed. Hyperuricemia resulted in renal cortical vasoconstriction (single nephron glomerular filtration rate (SNGFR) 35%, P < .05) and glomerular hypertension (P < .05). The possibility that hyperuricemia could modify renal hemodynamic disturbances during progression of renal disease was tested in rats with 5/6 nephrectomy. Hyperuricemia accentuated the renal vascular damage and caused cortical vasoconstriction (SNGFR 40%, P < .05) and persistent glomerular hypertension. In conclusion, hyperuricemia impairs the autoregulatory response of preglomerular vessels, resulting in glomerular hypertension. Lumen obliteration induced by vascular wall thickening results in severe vasoconstriction. The resulting ischemia is a potent stimulus that induces tubulointerstitial inflammation and fibrosis as well as arterial hypertension.
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PMID:Hemodynamics of hyperuricemia. 1566 Mar 30

Uric acid might often be regarded as a simple marker of renal disease. Although it is well known that hyperuricemia causes gout which is associated with renal insufficiency and cardiovascular disease, one might think that it could attribute to the intrarenal urate crystal, but not to uric acid per se. In order to clarify the role of uric acid in the kidney, we hypothesized that uric acid causes renal disease. To generate mild hyperuricemia without intrarenal crystal in rats, we used low doses of an uricase inhibitor (2% oxonic acid). Hyperuricemia induced systemic hypertension, glomerular hypertrophy/hypertension, afferent arteriolar sclerosis, and macrophage infiltration in normal rat kidney. In progressive renal disease, such as cyclosporine nephropathy and remnant kidney in rat, uric acid accelerated the progression of renal disease. Thus, we concluded that uric acid is not a simple marker, but a cause of renal disease.
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PMID:Uric acid--a uremic toxin? 1636 44

In most mammals purine degradation ultimately leads to the formation of allantoin. Humans lack the enzyme uricase, which catalyzes the conversion of uric acid to allantoin. The resulting higher level of uric acid has been hypothesized to play a role as an antioxidant. Hyperuricaemia is usually an asymptomatic condition which is hypothesized to play a role in cardiovascular disease and hypertension. Some hyperuricaemic individuals develop gout, an inflammatory arthritis caused by the deposition of monosodium urate crystals in joints. Over time, acute intermittent gouty arthritis can develop into a chronic condition with deposits of monosodium urate (MSU) crystals in joints and as tophi. The mechanisms by which MSU crystals lead to an acute inflammatory arthritis are under investigation and current knowledge is reviewed here. Treatment of gout includes management of acute flares with anti-inflammatory medications such as non-steroidal anti-inflammatory drugs or corticosteroids and long term management with urate-lowering therapy when indicated. Future directions in the treatment of gout, in part guided by a better understanding of pathophysiology, are discussed.
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PMID:Overview of hyperuricaemia and gout. 1637 32

In humans, uric acid (UA) is the main urinary metabolite of purines, whereas in other species (avians) it is the chief nitrogen compound excreted in the urine. The absence of uricase, due to nonsense or splice mutations occurring during the evolution of primates, results in blood urate levels much higher in humans than in other mammalians. This could have favorable implications, including protection from oxidative damage, as well as possibly allowing better blood pressure (BP) control in settings of low dietary Na+ intake. UA is a stimulus of the renin-angiotensin system (RAS). Moreover, blood UA levels are a major marker of proximal tubular function and overall volume status. On the other hand, hyperuricemia is a co-factor in Na+ -sensitive arterial hypertension, a marker and perhaps itself responsible for microvascular and systemic damage through RAS stimulation, inhibitory effects on endothelial cells, and the proliferation of perivascular smooth muscle cells. Recent studies in rats rendered hyperuricemic through administration of oxonic acid demonstrate the induction of hypertension and severe microvascular damage when associated with subtotal nephrectomy or chronic cyclosporine treatment. The opportunity to pharmacologically manipulate blood UA levels through inhibitors of synthesis (allopurinol), uricosuric agents (benziodarone), or recombinant urate oxidase (rasburicase) provides a relevant therapeutic potential in UA metabolism disorders, tumor lysis syndrome, and possibly in essential hypertension, as well as chronic progressive renal disease.
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PMID:[Role of uric acid in hypertension and in the progression of chronic renal disease]. 1652 Oct 70


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