UMLS:C0033687 - FACTA Search

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Query: UMLS:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

11 adult female dogs were given periodic intravenous injections of uranyl nitrate [UO2(NO3)2 . 6H2O] to create a syndrome of chronic uremia. Initially, dogs usually received 2.0 mg/kg of uranyl nitrate; subsequent doses were generally less. After the initial injection, there was an abrupt fall in creatinine clearance and rise in plasma urea nitrogen. Low and relatively constant creatinine clearances (10.2 +/- SD 2.7 ml/min) were easily maintained with further injections. Dogs developed proteinuria, aminoaciduria, weight loss, and plasma amino acid levels similar to those of chronically uremic humans and rats. With creatinine clearances of 4 ml/min or less, dogs became listless and lethargic, and daily activity and food intake decreased. Repeated injections of uranyl nitrate appear to be an easy and reliable method for creating a model of chronic uremia in dogs.
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PMID:Chronic uremia syndrome in dogs induced with uranyl nitrate. 736 Feb 99

Endogenous nitric oxide plays an important role in modulation of renal hemodynamics and sodium handling, with increased nitric oxide production inducing renal vasodilation and natriuresis. In the normal rat, nitric oxide activity increases as an adaptive response to increased dietary salt intake, perhaps facilitating natriuresis and thus blood pressure homeostasis. We hypothesized that impaired nitric oxide synthetic ability would result in sensitivity to the pressor effects of high dietary salt intake. Four groups of normal Sprague-Dawley rats were observed for eight weeks: Control, 0.4% NaCl chow and tap water; Salt, 4% NaCl chow and tap water; NAME, 0.4% NaCl chow and water containing the nitric oxide synthase inhibitor, L-nitro-arginine-methylester; Salt+NAME, 4% NaCl chow and water containing L-nitro-arginine-methylester. Compared to Controls, Salt rats demonstrated a significant increase in urinary excretion rate of the stable nitric oxide metabolites, NO2 and NO3, and had no increase in blood pressure. Furthermore, Salt rats had no functional or structural evidence of renal injury. In contrast, Salt+NAME rats demonstrated a significantly higher blood pressure than NAME rats, and urinary NO2 and NO3 excretion rate did not increase despite high salt intake. After eight weeks, Salt+NAME rats had significantly impaired renal function and proteinuria. We conclude that adaptive changes in endogenous NO production play a critical role in sodium and blood pressure homeostasis. Furthermore, impaired nitric oxide synthase activity may be a pathogenetic factor in the development of salt-sensitive hypertension.
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PMID:Endogenous nitric oxide synthesis determines sensitivity to the pressor effect of salt. 752 54

The effect of oral supplementation of L-arginine, the substrate of nitric oxide, (1.25 g/liter water) and captopril (15 mg/liter water) was studied in 5/6 nephrectomized rats for a period of three months. N-omega-nitro L-arginine, a nitric oxide synthase inhibitor, was given orally (70 mg/liter water) with or without L-arginine or captopril. The urinary excretion of nitrite (NO2) + nitrate (NO3), the known metabolites of nitric oxide, was taken as an index of nitric oxide production. Chronic renal failure rats were characterized by a low creatinine clearance, high FENa%, proteinuria, hypertension and a low urinary excretion of NO2 + NO3; 0.152 +/- 0.06 (P < 0.001) nmol/micrograms creatinine compared with 0.481 +/- 0.004 (P < 0.001) in normal rats and 0.479 +/- 0.11 (P < 0.001) in untreated sham-operated rats. Both L-arginine and captopril were effective in the normalization of all these parameters. The combination of L-arginine and captopril had no additive effects. The nitric oxide synthase inhibitor significantly diminished the captopril beneficial effect. It is concluded that chronic renal failure in rats is a low nitric oxide production state. The supplementation of L-arginine is shown to overcome this condition. It is suggested that the beneficial effect of captopril on chronic renal failure is through a specific L-arginine--nitric oxide synthase--nitric oxide pathway.
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PMID:Oral administration of L-arginine and captopril in rats prevents chronic renal failure by nitric oxide production. 764 19

Previous studies have suggested that nitric oxide (NO) plays a role in regulation of renal vascular tone and sodium handling. We questioned whether the effects of NO synthase inhibition on renal function are direct or due to increased renal perfusion pressure (RPP) and whether stimulation of endogenous NO activity plays a role in adaptation to increased dietary salt intake. Intrarenal arterial infusion of the NO synthase inhibitor NG-monomethyl-L-arginine (L-NMMA) in control rats resulted in decreased glomerular filtration rate, renal vasoconstriction, natriuresis, and proteinuria. When RPP was held at basal levels with suprarenal aortic snare, L-NMMA had similar hemodynamic effects but decreased sodium excretion and did not induce proteinuria. Exposure of rats to high salt intake (1% NaCl drinking water) for 2 wk induced increased serum concentration and urinary excretion of the NO decomposition products, NO2 + NO3. Urinary NO2 + NO3 and sodium excretion were significantly correlated. Compared with controls, chronically salt-loaded rats also demonstrated enhanced renal hemodynamic responses to NO synthase inhibition. We conclude that the endogenous NO system directly modulates renal hemodynamics and sodium handling and participates in the renal adaptation to increased dietary salt intake. Enhanced NO synthesis in response to increased salt intake may facilitate sodium excretion and allow maintenance of normal blood pressure.
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PMID:Adaptation to increased dietary salt intake in the rat. Role of endogenous nitric oxide. 767 14

The present study was undertaken to investigate whether the development of proteinuria in the borderline hypertensive rat (BHR) is influenced by the Y chromosome and to determine if the onset of proteinuria in the BHR is delayed when blood pressure is lowered with enalapril, an angiotensin I converting enzyme inhibitor. Male F1, rats were the first-generation offspring of the mating of spontaneously hypertensive (SHR) females and Wistar-Kyoto (WKY) males and the mating of SHR males and WKY females. At 20 weeks of age, enalapril (125 mg/l) was added to the drinking water. Untreated BHR and enalapril-treated BHR (BHRE) were followed to 90-100 weeks of age. Urine was collected every 10-20 weeks for determination of protein, albumin, and nitric oxide (NO2/NO3) metabolite excretion. Indirect blood pressure in BHR from both crosses was approximately 175 mm Hg from 20 to 90-100 weeks of age. Enalapril lowered blood pressure by about 30 mm Hg, but was ineffective in reducing urinary protein or albumin excretion rates at any age. Urinary excretion of nitric oxide metabolites was similar in all groups at all time periods. There were significant differences in the percent of glomerulosclerosis between the two matings. Based on these results, renal injury in the BHR is not associated with the Y chromosome and can be dissociated from hypertension. Further studies using congenic and transgenic technology will be necessary to identify functions of genes and associations with hypertension in order to understand the kidney disease in this model of hypertension.
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PMID:Sex chromosomes do not influence renal injury in borderline hypertensive rats. 885 66

This study was designed to determine whether the diabetic BioBreeding rat develops significant renal injury following long-term moderate to severe hyperglycaemia. Diabetic and control rats were followed from the onset of diabetes (2-4 months) to 18 months of age. Frank proteinuria and/or albuminuria were always absent. Glomerular filtration rate, measured by inulin clearance (ml min-1 (100 g body weight)-1), was significantly higher in diabetic rats than in controls at 10, 12 and 18 months of age. Advanced glycosylation end-product cross-links assessed by percentage solubility of tail tendon collagen were moderately increased in diabetic compared with control animals. Urinary excretion of advanced glycosylation end-products in unfractionated urine and in urine fractionated for low molecular mass peptides (< 10 kDa) was 11-fold greater in the diabetic rats than in the control group. Urinary excretion of nitric oxide metabolites (nmol NO2- and NO3- (24 h)-1) were significantly (P < 0.05) greater in diabetic rats than in controls after 8 months of age. Mild histopathology resembling human diabetic nephropathy, including increased mesangial volume and glomerular basement membrane thickness, was detected at 18 months of age. The findings of hyperfiltration and mild glomerular morphological changes in diabetic BioBreeding rats are similar to the abnormalities seen in stage 2 human diabetic nephropathy. We hypothesize that two factors which may contribute to the resistance or tolerance to renal injury in the BioBreeding diabetic rat are increased nitric oxide production and the decreased accumulation of advanced glycosylation end-products.
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PMID:Resistance to glomerular injury in the diabetic biobreeding rat. 896 13

The purpose of the present study was to examine renal functional changes caused by chronic blockade of nitric oxide (NO) synthesis in young rats. Two types of NO synthase inhibitor were used: NG-nitro-L-arginine methyl ester (L-NAME) as a non-selective inhibitor and aminoguanidine (AG) as a selective inhibitor of the inducible isoform. Oral administration of L-NAME (20-80 mg/dL of drinking water), not AG (400 mg/dL), for 4 weeks induced systemic hypertension in the treated rats. Both inhibitors caused a significant reduction in urinary excretion of NO2-/NO3-. Rats treated with L-NAME developed proteinuria and tubular enzymuria (high excretion of N-acetyl-beta-D-glucosaminidase) in a dose-dependent fashion, with normal serum levels of creatinine, albumin and cholesterol. Chronic AG administration did not alter the urinary levels of protein and N-acetyl-beta-D-glucosaminidase or serum laboratory values. Overall, these observations highlight the importance of the continuous generation of NO by the constitutive isoform in the control of vascular tone and the maintenance of renal glomerular and tubular function. Oral administration of L-NAME may serve as a model of chronic NO-deficient hypertension with renal injury in young rats.
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PMID:Renal functional measurements in young rats with chronic inhibition of nitric oxide synthase. 900 96

Cationic colloid gold, a polycationic histochemical probe, was used to analyze the distribution of glomerular basement membrane (GBM) polyanions, including heparan sulfate protoglycan in genetic salt-sensitive (SBH/Y) and resistant (SBN/Y) hypertensive rats, with or without high dietary salt intake. GBM morphology, renal function and nitric oxide, as measured by plasma and urine nitrite (NO2) and nitrate (NO3) were also determined. In the salt-sensitive rats the high-salt dietary intake resulted in severe hypertension, proteinuria and decreased glomerular filtration rate. After 1 month of high-salt intake, the average width of the GBM of salt-sensitive rats was higher by 27% than that of salt-resistant rats. The number of GBM anionic sites (lamina rata externa and interna) was much lower in both salt-sensitive and salt-resistant groups after 1 month of salt loading, 8.04+/-0.36 and 7.8+/-0.25 counts/cm, respectively, compared to the respective values of non-salt-loaded animals, 20.58+/-1.08 counts/cm in the SBH/Y (p < 0.001) and 21+/-1.86 counts/cm in the SBN/Y (p < 0.001). A decreased nitric oxide production was found in the salt-sensitive rats before and after salt loading compared with the salt-resistant group. No correlation was found between the nitric oxide changes and the GBM modifications. It is concluded that high-salt intake may be deleterious to the permselectivity of the GBM. It is suggested that salt restriction in hypertension may have a beneficial effect in preventing GBM permselectivity changes and proteinuria.
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PMID:Glomerular basement membrane polyanionic sites and nitric oxide in genetically salt-sensitive and resistant hypertensive rats. 939 26

We used streptozotocin (STZ) to induce the animal model of diabetes mellitus in rats. On the 7th and 14th days of induction, kidney disorder, the levels of NO3- in plasma and tissue homogenate in different periods were observed. The NO3- levels in relation to the application of L-arginine (L-Arg) were also noted. The results showed that the kidney weight/body weight ratio significantly increased in different periods (P < 0.05). On the 7th day profuse proteinuria appeared and it markedly increased on the 14th day: creatinine clearance rate (Ccr) significantly raised, too (P < 0.005). The NO3- levels in plasma and tissue homogenate were getting higher with time. The level of NO3- significantly increased after L-Arg was perfused. It indicated that kidney disorder was present at the early stage of diabetes, and the raised Ccr indirectly indicated the increase of glomerular filtration rate. These suggest that NO3- and L-Arg may be important mediums which have effects of hyperfiltration and hyperperfusion of glomerulus.
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PMID:[L-arginine and nitric oxide have effects on glomerulus hyperperfusion of early diabetic rats]. 1068 27

Cationic colloidal gold (CCG), a polycationic histochemical probe, was used to analyze the distribution of glomerular basement membrane (GBM) polyanions, mainly heparan sulfate proteoglycan in spontaneous hypertensive rats (SHR) with or without salt loading and antihypertensive treatment with propranolol. The changes of mean GBM width and anionic sites distribution were assessed by electron microscopy. Plasma and urinary nitrates (NO(x)) were measured by nitrite (NO2) + nitrate (NO3), stable metabolites of NO. SHR had decreased NO production and increased GBM width (27%) compared with the control Wistar-Kyoto (WKY) rats. The chronic high dietary salt intake resulted in a significant increase in blood pressure, proteinuria, and renal function in the SHR rats. The chronic high salt dietary intake resulted in a decrease in NO in the WKY and a further reduction in NO production in the SHR. The GBM anionic sites count was similar in the SHR and WKY nonsalt-loaded groups, 13.5 +/- 0.5 and 12.8 +/- 0.4 CCG counts/microm GBM, respectively, but significantly lower in both salt-loaded SHR and WKY, 9.9 +/- 0.55 (P < .01) and 9.6 +/- 0.55 (P < .01) CCG counts/microm GBM, respectively. Antihypertensive treatment with propranolol in the salt-loaded SHR group resulted in lower blood pressure, a further decrease in NO production, but no significant changes in GBM width and anionic sites count. It is concluded that chronic high salt intake may be deleterious to the permselectivity of the GBM. A low NO production state that results from chronic salt loading in already hypertensive rats will result in more severe organ (renal) damage, most probably by the addition of the loss of GBM permselectivity to the existing pathomorphologic changes.
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PMID:Glomerular basement membrane polyanion distribution and nitric oxide in spontaneous hypertensive rats: effects of salt loading and antihypertensive therapy with propranolol. 1093 77

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