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

Nitric oxide (NO) is an important factor in tissue trauma, but its detailed role in the pathogenesis remains unknown. In autoimmune vasculitis, it is possible that NO in one of the factors underlying tissue trauma and induction of autoimmune antibodies. To study its role on an animal model using mercury chloride (HgCl2), Brown Norway rats (BN rats) were given five injections of] HgCl2, each 1 mg/kg, over 10 days. Vasculitis and production of some autoimmune antibodies developed after HgCl2 injections. Urine nitrate/nitrite, metabolic production of NO, was produced in advance of the production of other autoimmune antibodies. To elucidate the role of NO, NG-nitro-L-arginine methyl ester (L-NAME), which is a nitric oxide synthase (NOS) inhibitor, was given in addition to HgCl2, at the daily dose of 30 mg/kg. There was no difference in production of autoimmune antibodies between this group and the control group, but urine protein excretion was suppressed in the HgCl2 + L-NAME group (p < 0.001). By immunohistochemical study, inducible NOS was positive in small vessels and mesangial cells in rat kidney. We conclude that in this animal model, over-production of NO leads to the production of autoimmune antibodies and inhibition of NOS production ameliorates proteinuria. These results suggest that NO plays an important role in the induction of renal injury in the rat model of autoimmune vasculitis.
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PMID:[The role of nitric oxide in mercury chloride-induced vasculitis in the brown Norway rat]. 928 9

Nitric oxide (NO), an L-arginine derivative, is implicated in neuronal transmission, immune response and vasodilation, and acts as a modulator of platelet function. Recent studies in the experimental model of renal mass reduction (RMR) in rats have generated the hypothesis that abnormalities in the NO synthetic pathway could play a key role in mediating the complex hemodynamic and hemostatic disorders associated with the progression of renal disease. Thus, renal NO generation is lower than normal in rats with RMR 7 days after surgery and progressively worsens with time in close correlation with signs of renal injury. This abnormality is due to a major defect in inducible NO synthase (iNOS) content in the kidney. In the same model, administration of either the NO precursor, L-arginine, or a NO-releasing compound reduces proteinuria, slows renal disease progression, and prolongs survival. In contrast, in the systemic circulation of uremic rats, NO is formed in excessive amounts, possibly caused by higher release from systemic vessels due to the augmented expression of both iNOS and endothelial NOS. Up-regulation of systemic NO synthesis might be a defense mechanism against uremic hypertension. On the other hand, a greater availability of NO to circulating cells may sustain the bleeding tendency, a well-known complication of uremia.
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PMID:Nitric oxide synthesis and L-arginine in uremia. 938 6

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

Insulin resistance and hyperinsulinemia are associated with essential hypertension. There is also evidence of hyperinsulinemia in women who developed hypertension in pregnancy (P). The present study examines whether chronic hyperinsulinemia in pregnant rats plays a role in the development of hypertension in pregnancy. A sustained-release insulin pellet was implanted subcutaneously in 15 Wistar rats (P-INS) 1 wk before and on day 7 of pregnancy; 14 control rats were sham-implanted (P-SHAM). Tail-cuff systolic BP (SBP), serum triglycerides, glucose, insulin, renal function, and urinary excretion of Na+ and of metabolites of nitric oxide were determined throughout pregnancy. Data were analyzed by ANOVA with basal body weight as covariate analysis of covariance. Results are expressed as the mean +/- SD. Body weight; water and food intake; urine volume; creatinine clearance; and level of proteinuria at the end of pregnancy were similar in both groups. The number of fetuses was 9 +/- 2.3 in P-INS versus 11 +/- 2.4 in pregnant control rats (P < 0.05). Before mating, SBP was similar, but at the end of pregnancy SBP was 110 +/- 18 mmHg in P-INS versus 85 +/- 12 mmHg in pregnant rats (P < 0.05). Serum triglycerides and Na+ were also higher in P-INS rats. The fractional excretion of Na+ was 3.1 +/- 1.0 versus 4.4 +/- 1.5, respectively (P < 0.01). The percent increase in nitric oxide metabolite excretion was 233 +/- 14 versus 370 +/- 17%, respectively (P < 0.01). Chronic hyperinsulinemia, without sugar supplementation, and hypertriglyceridemia may cause a decrease in the synthesis of nitric oxide in P-INS rats. The development of hypertension in these rats may be associated with an impaired vasodilatation, together with an increased renal sodium reabsorption.
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PMID:Chronic exogenous hyperinsulinemia in pregnancy: a rat model of pregnancy-induced hypertension. 944 81

We conducted longitudinal measurements of blood pressure and renal function in the conscious, chronically catheterized rat before and during acute nitric oxide synthase inhibition (N-nitro-L-arginine methylester [L-NAME], 37 micromol/kg IV) and then chronic administration of oral L-NAME (approximately 37 micromol/kg per 24 hours). These studies specifically investigate the impact on plasma and renal renin as well as volume status during the evolution of this hypertension in rats not subjected to acute experimental stress. Blood pressure progressively increased with chronic administration of L-NAME and reached values greatly above those seen with acute administration of L-NAME. There were parallel increases in renal vascular resistance and development of proteinuria, and glomerular filtration rate began to decline at day 21, coincident with the appearance of renal damage. Twenty-four-hour urinary nitrite and nitrate excretion remained depressed, reflecting reduced nitric oxide synthesis. The plasma renin activity was variable and only increased transiently at 21 days, thus the angiotensin II dependence of this hypertension is not caused by stimulated plasma renin activity. Despite severe hypertension, sodium intake and excretion were unchanged over the 21 days of L-NAME administration. Plasma volume was significantly reduced at days 2 and 12 of L-NAME administration; thus the prolonged plasma volume contraction must result from the acute natriuretic response to the initial acute L-NAME administration.
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PMID:Evolution of chronic nitric oxide inhibition hypertension: relationship to renal function. 944 85

Nitric oxide (NO) is an endogenous vasodilator synthesized in the endothelium by constitutive NO synthase (cNOS). We have shown that upregulation of cNOS activity in hypertension may contribute to forestalling left ventricular and aortic hypertrophy (Hypertension. 29: 235, 1997). NO has been shown to inhibit growth-related responses affecting vascular smooth muscle, and mesangial cells, as well as reduce production of extracellular matrix in response to injury. Here, we investigated the relationship between renal cNOS activity (conversion of [14C] L-arginine to [14C] L-citrulline) and glomerular (GIS) and tubulointerstitial (TIS) injury scores and urinary protein excretion, indices of renal injury, in age and blood pressure matched spontaneously hypertensive rats (SHR, SBP 220+/-9 mm Hg) fed 0.5% NaCl diet and Dahl salt-sensitive (DS) rats fed 4% NaCl diet (DS-4%, SBP 228+/-8 mm Hg) as well as their normotensive counterparts Wistar Kyoto rats fed 0.5% NaCl diet (WKY, 137+/-3 mm Hg) and DS rats fed 0.5% NaCl diet (DS-0.5%, SBP 135+/-4 mm Hg). In SHR, renal medullary cNOS activity was 89% higher than in WKY (8.91+/-0.98 vs 4.71+/-0.37 nmol/min/g protein, P<0.05) whereas, in hypertensive DS-4% rats cNOS activity was 43% lower than in DS-0.5% rats (1.98+/-0.16 vs 3.48+/-0.29 nmol/min/g protein, P<0.05). Renal cortical cNOS was lower than in medulla but similar in all groups; inducible NOS activity was not detected. Despite hypertension of similar severity and duration, hypertensive DS-4% developed 9 fold more GIS (190+/-42 vs 21+/-11), 20 fold more TIS (4.0+/-0.7 vs 0.2+/-0.3), and 5 fold more proteinuria (54+/-11 vs 8.5+/-3.0 mg/day), all P<0.05. The current studies, in conjunction with our recent studies in heart and aorta, strongly suggest that in hypertension, increased cNOS activity may provide a protective homeostatic role in all the end-organs that are targets of hypertensive injury.
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PMID:Nitric oxide synthase activity and renal injury in genetic hypertension. 945 14

Pregnancy-induced hypertension in women is associated with severe vasoconstriction and reductions in organ blood flow and cardiac output. Recent studies have indicated that nitric oxide (NO) synthesis inhibition during mid to late gestation in pregnant rats results in severe hypertension and proteinuria. The purpose of this study was to determine the systemic hemodynamic and regional blood flow alterations associated with chronic NO synthesis inhibition in the pregnant rat. The study was conducted in four groups of rats: virgin rats (n=6), pregnant rats (n=10), virgin rats treated with L-NAME (n=6), and pregnant rats treated with L-NAME (n=11). Rats were treated with L-NAME in drinking water at a dose of 1 mg/d for a week starting from day 13 of gestation in pregnant rats or an equivalent time for virgins. Mean arterial pressure (MAP), cardiac output, total peripheral resistance (TPR), and regional flows were measured by tracing radiolabeled microspheres in conscious rats. Pregnant rats that were given L-NAME showed significantly higher MAP (137+/-6 versus 96+/-2 mm Hg), higher TPR (5.08+/-0.58 versus 2.90+/-0.44 mm Hg/mL/min/100 g), and lower cardiac output (87.4+/-8.4 versus 113.3+/-11.1 mL/min) than pregnant controls. Chronic NO synthesis inhibition decreased the renal blood flow in pregnant rats at a significantly greater magnitude than in virgin rats. Significant reductions in regional blood flow to the heart, lungs, liver, diaphragm, and skeletal muscles were also observed in pregnant rats treated with L-NAME. The results of this study indicate that NO may play a role in mediating the alterations in systemic hemodynamics and regional blood flow in late pregnant rats.
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PMID:Systemic hemodynamics and regional blood flow during chronic nitric oxide synthesis inhibition in pregnant rats. 945 22

Nitric oxide (NO), an L-arginine derivative, is implicated in neuronal transmission, immune response and vasodilation, besides acting as a platelet function modulator. A number of recent studies in the experimental model of renal mass reduction (RMR) in rats have proposed the hypothesis that abnormalities of the NO synthetic pathway could have a key role in mediating the complex hemodynamic and hemostatic disorders associated with the progression of renal disease. Thus, renal NO generation is lower than normal in rats with RMR seven days after surgery, and progressively worsens with time in close correlation with signs of renal injury. This abnormality is due to a strong defect of inducible NO synthase (iNOS) content in the kidney. In the same model, administration of either the NO precursor, L-arginine, or a NO-releasing compound reduces proteinuria, slows renal disease progression and prolongs survival. On the other hand RMR is associated with a progressive increase of renal synthesis of the potent vasoconstrictor peptide, endothelin-1 (ET-1), whose mRNA is expressed in excessive amounts in cortical tubules early after surgical ablation. In this setting, a marked reduction of NO, in the face of continuous local generation of ET-1, may well contribute to intraglomerular capillary hypertension and cell proliferation. Actually, administration of a selective ETA receptor antagonist to RMR rats reduced abnormal permeability to proteins and prevented renal function deterioration. In the same model the ETA receptor antagonist also corrected the impaired renal NO synthesis, suggesting that excessive ET-1 bioactivity might also be responsible for the progressive reduction of renal NO. In keeping with this possibility are recent in vitro data that ET-1 inhibits iNOS transcription, a process mediated by interaction of the peptide with subtype A receptors. Nitric oxide and ET-1 have profound and opposite effects on glomerular and tubular function. Thus, abnormalities of renal NO and ET-1 synthetic pathways, as documented in the RMR model, likely have major and complementary roles in promoting alteration in renal hemodynamics and functions in progressive nephropathies.
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PMID:Nitric oxide/endothelin balance after nephron reduction. 955 34

Although a lot of animal models of proteinuria have been established, proposals for the mechanisms of proteinuria are still controversial. In this work, during an 18-day trial, mice injected with a single dose of adriamycin (AD) rapidly showed combined glomerular albuminuria and immunoglobulinuria, progressively elevated levels of nitrite/nitrate in urine, hypercholesterolemia, abnormal renal function, segmentally or globally glomerular hyalinosis/sclerosis associated with tubular atrophy, enhanced glomerular deposition of immunoglobulins and fibrinogen, augmented expression of matrix components in the whole glomerular tuft, and loss of glomerular negative charge property. These laboratory and pathological features are comparatively similar to those of human focal segmental glomerulosclerosis in the advanced state. Juxtamedullary glomeruli appear to be more susceptible to the AD-related nephrotoxicity than those in the superficial renal cortex. A change in size-dependent glomerular permselectivity may precede a charge-dependent defect in glomeruli in this mouse model of proteinuria. Data in this study confirm the hypothesis of glomerular hyperfiltration involved in the pathogenesis of this chronic glomerulopathy associated with proteinuria in mice. In addition, nitric oxide may play a crucial role in the progression of the chronic glomerulopathy model.
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PMID:Experimental focal segmental glomerulosclerosis in mice. 957 71

Over-expression of iNOS is implicated in the pathogenesis of glomerulonephritis in animal models of systemic lupus erythematosus. The aim of this study was to evaluate the effect of aminoguanidine, a selective inhibitor of iNOS, for the protection from glomerulosclerosis in NZB/W F1 mice. Female NZB/W F1 mice (n = 8) were treated with aminoguanidine (1 g/l) in drinking water for 4 months starting at age 2 months before the onset of glomerulonephritis. Controls were age- and sex-matched mice (n = 10) without aminoguanidine treatment. By glomerular microdissection and reverse-transcription competitive polymerase chain reaction, we found that glomerular iNOS/beta-actin and TGF-beta1/beta-actin mRNA ratios were reduced 15.1% (P<0.05) and 61.3% (P<0.01), respectively, in aminoguanidine-treated mice. Aminoguanidine significantly reduced the glomerular iNOS staining, urinary nitrite production and degree of glomerulosclerosis. In addition, the glomerular volume and mean glomerular cell number were reduced 33.2% (P<0.01) and 32.8% (P<0.01), respectively. Likewise, the urinary proteinuria was also significantly reduced by aminoguanidine. These results indicate that administration of aminoguanidine may reduce the progression of glomerulosclerosis in NZB/W F1 mice, possibly through inhibition of glomerular nitric oxide production.
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PMID:Aminoguanidine reduces glomerular inducible nitric oxide synthase (iNOS) and transforming growth factor-beta 1 (TGF-beta1) mRNA expression and diminishes glomerulosclerosis in NZB/W F1 mice. 971 76


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