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)

Cadmium (Cd)-induced nephropathy was treated by triethylenepentaminehexaacetic acid (TTHA) in male Syrian hamsters. Hamsters injected three times a week with 3 mg/kg body wt CdCl2 showed proteinuria, urinary N-acetyl-beta-D-inglucosaminidase (NAG), and fractional excretion of sodium (FENa) when compared to saline-injected control. Cd-treated hamsters injected ip with TTHA 10 mg/kg body wt five times a week showed reduction of renal damage, including reductions in urinary protein (from 6.7 +/- 2.2 to 4.3 +/- 0.5 mg/d) and NAG (0.17 +/- 0.06 to 0.04 +/- 0.02 U/d). Urinary excretion of Cd was significantly increased (from 87 +/- 51.3 to 3052 +/- 1485 mg/L) by TTHA administration. Cd concentration in renal cortical tissue was slightly reduced (26.4 +/- 3.0 to 21.8 +/- 2.7 mg/g. protein). Excretion of malondialdehyde (MDA) was increased only in Cd-injected hamsters (to 2.1 +/- 1.6 nM/L), and elevated MDA in renal cortical tissue was not reduced by the administration of TTHA (1041 +/- 105 vs 1104 +/- 358 nM/g protein). Glutathione (GSH) concentration in the renal cortex was significantly elevated after Cd administration and further increased after TTHA administration (5.5 +/- 2.1 to 9.8 +/- 2.0 micrograms/50 mg protein). There were no marked effects on creatinine clearance (Ccr) and hematocrit. Moreover, renal morphological changes were improved significantly by treatment with TTHA. We demonstrated the efficacy of TTHA in the treatment of Cd-induced nephropathy in hamsters. Although the precise mechanism of the TTHA effects on Cd-induced nephropathy has not been elucidated, it might involve GSH reducing the elevated MDA concentration in renal tissue.
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PMID:Effect of triethylenepentaminehexaacetic acid on the renal damage in cadmium-treated Syrian hamsters. 860 83

Cadmium (Cd)-induced nephropathy in male Syrian hamsters was treated with D/L-penicillamine (D/L-p) or neomynophagen C (NMC). The subcutaneous injection of CdCl(2), 3 mg/kg, three times a week led to marked renal damage, ie., increased proteinuria and the excretion of urinary N-acetyl-beta-D-glucosaminidase (NAG) as compared with the saline-injected controls. Cd-treated hamsters that were injected intraperitoneally with D/L-p, 0.1 mg/kg, five times a week, showed less renal damage, including a reduction in urinary protein from 3.60 + or - 0.42 to 1.77 + or - 0.7 mg/d. NMC-treated hamsters showed a reduced excretion of NAG (from 1.47 +/ - 0.34 to 0.91 + or - 0.68 u/d). The concentration of Cd in renal cortical tissue was reduced slightly (from 2.78 + or - 0.08 to 2.34 + or - 0.3 mg/g.prot) by NMC treatment, but not by D/L-p. The elevated malondialdehyde (MDA) in renal cortical tissue was unaffected by administering D/L-p or NMC. The concentration of glutathione (CSH) in the renal cortex was not elevated after administering Cd, but the ratio of the reduced to the oxidized GSH was elevated. The Cd induced liver dysfunction, as compared with untreated controls. The dysfunction was improved slightly by NMC administration, but not by that of D/L-p. Changes in renal morphology induced by Cd involving marked degeneration and necrosis of tubules as shown by light microscopy, were unaffected by treatment with D/L-p or NMC. We thus demonstrated the efficacy of D/L-p of NMC in treating the nephropathy induced by Cd in hamsters. The mechanism of therapeutic effect is not known.
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PMID:Effects of a hepato-protective agent and a hepato-secreting chelator on cadmium-induced nephrotoxicity in Syrian hamsters. 886 Jun 61

Lipid peroxidation in the kidney has been shown to precede proteinuria in puromycin aminonucleoside (PAN)-induced nephropathy. The aim of this study was to determine if L-2-oxothiazolidine-4-carboxylic acid (procysteine) would protect rats against PAN-induced nephrotoxicity. Male Sprague-Dawley rats were treated with procysteine (16 mg/100 g body weight i.p.) 24 h and 30 min prior to receiving a single injection of PAN (15 mg/100 g body weight i.v.) followed by procysteine in the drinking water (4 g/l). Control rats received procysteine alone (intraperitoneally and in drinking water) or PAN alone and then plain water. Proteinuria was not significantly different between PAN/ procysteine and PAN groups, reaching a maximum at day 14 and persisting at day 28. Lipid peroxidation was more severe in PAN/procysteine rats reaching a maximum at day 3 (253 +/- 30 ng/mg protein) compared to day 5 in PAN rats (196 +/- 20 ng/mg protein). Procysteine alone did not modulate proteinuria over 28 days or lipid peroxidation over 7 days. GSH levels over 7 days were not elevated by procysteine and were virtually zero in PAN and PAN/procysteine rats. Focal glomerulosclerosis (FGS) was worse at day 28 in PAN/procysteine rats than in PAN rats (39 +/- 8.2 vs. 23 +/- 4.5%; p < 0.05). This study shows that procysteine as a potential source of reducing equivalents does not protect against renal lipid peroxidation and FGS in this model. On the contrary, PAN/procysteine rats developed significantly more FGS through yet unknown mechanisms.
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PMID:Supplementation with L-2-oxothiazolidine-4-carboxylic acid, a cysteine precursor, does not protect against lipid peroxidation in puromycin aminonucleoside-induced nephropathy. 886 28

In a group of 65 patients with lupus nephropathy the level of lipid peroxidation and of the capacity of antioxidant protection was followed up as influenced by the activity of superoxide dismutase (SOD), of catalase (CAT) and of glutathione peroxidase (GSH-Px) as well as of the concentration of glutathione. The determinations were made in total blood and the results were compared with those obtained in a control group of 30 apparently healthy subjects. The degree of lipid peroxidation seemed to be correlated with the extent of proteinuria. As compared with the normal values the activity of the three enzymes studied was decreased and did not correlate with the level of proteinuria. The decreased SOD and GSH-Px seemed to be relatively compensated by CAT activity. The level of GSH was also decreased as compared with the control values and did not correlate with the value of proteinuria. It is concluded that the great variation of individual values could be explained by the multifactorial character of the disease as well as by the metabolic response specific for every patient and by the mechanisms possibly related to the onset of renal disease.
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PMID:Oxidant stress and antioxidant protection in lupus nephropathy. 890 37

The effect of melatonin (MEL) on the nephropathy and the oxidative stress induced by a single and high dose of Adriamycin (AD) has been studied in Wistar male rats. MEL (50 microg/kg/day) was injected intraperitoneally 3 and 7 days, respectively, before and after AD injection (20 mg/kg i.p.). Trunk blood was drawn and triglycerides, total cholesterol, phospholipids, high-density lipoprotein cholesterol, urea, creatinine, total protein, lipoperoxides, and reduced glutathione (GSH) levels and catalase activity (CAT) were determined in serum. In kidney homogenates, lipoperoxides, GSH, and CAT were measured as well as total protein in urine. AD administration resulted in hyperlipidemia and high-grade proteinuria and a marked increase in serum lipoperoxides, urea, and creatinine. In the kidney, the increase in lipoperoxides was accompanied by a significant decrease of GSH and CAT. The efficiency of MEL was specially remarkable in restoring GSH, CAT, and proteinuria to the levels of controls. These results confirm the involvement of free radicals in the pathogenesis of nephrotoxicity induced by AD. Likewise, they show the high antioxidative power of MEL and its marked effect on the prevention and suppression of this nephropathy.
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PMID:Hyperlipidemic nephropathy induced by adriamycin: effect of melatonin administration. 922 37

The nephrotoxicity of three platinum (CPL, KP734, KP735) and three ruthenium coordination complexes (KP418, KP692, KP1019) was tested in rats in comparison to cisplatin (CP). Renal functional changes (excretion of water, protein, p-aminohippurate (PAH) and osmolytes) were not observed after the administration of 10% of the LD450 of the compounds given twice a week for up to 5 weeks. After a relatively high single dose of the substances (50% of the LD50), signs of nephrotoxicity on the day of maximal renal damage decreased in the following order: CP, KP418, CPL, KP734, KP735, KP692 and KP1019. In comparison to CP, proteinuria was significantly lower after the administration of any of the compounds, especially KP692 and KP1019. Neither renal lipid peroxidation (TBARS) nor glutathion status (GSH, GSSG) was affected. In summary, KP735 in the group of platinum complexes and KP1019 in the ruthenium group had the lowest nephrotoxicity. Other investigators have shown that all complexes induced anti-neoplastic activity under analogous experimental conditions.
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PMID:Comparative nephrotoxicity of some antitumour-active platinum and ruthenium complexes in rats. 957 Jun 91

We have studied the effects of melatonin and retinol palmitate (RP) on the nephropathy and oxidative stress induced by a single and high dose of adriamycin (AD) in Wistar male rats. A dose of melatonin (75 microg/kg/day) and a dose of RP (0.25 g oily solution/kg/day, s.c.) were injected 3 and 9 days before and after the administration of AD (25 mg/kg, i.p.), respectively. After the decapitation, samples were taken from the neck vascular trunk in order to determine the triglycerides, total cholesterol, phospholipids, HDL-cholesterol, total proteins, urea, lipoperoxides, and reduced glutathione (GSH). We estimated the lipoperoxide and glutathione (GSH) contents in renal homogenates, and the excretion of proteins in urine over a 24 hr period. The administration of AD caused significant increases in proteinuria and in the other parameters studied [lipids (triglycerides, total cholesterol, phospholipids, and HDL-cholesterol), non-protein nitrogen compounds, and lipoperoxides]. AD increased the lipoperoxide content, but it decreased the GSH content in the kidney. Both melatonin and RP, although melatonin more significantly, decreased the intensity of the changes produced by the administration of AD alone. In fact, melatonin was quite efficient in reducing the formation of lipoperoxides, restoring renal GSH content and decreasing remarkably the severity of proteinuria. These results support the powerful antioxidant action of melatonin at renal level and a lower antioxidant action of retinol. Likewise, these data reinforce the hypothesis which supports the pathogenetic role and the close relation between the oxidative stress and the expression of the nephropathy induced by AD. However, in spite of this obvious antioxidant effect of melatonin in the kidney, additional studies are required to establish accurately the role of this pineal indole in the regulation and dynamics of the antioxidative defense enzyme system, which neutralizes the damaging effect of free radicals, both endogenous and exogenous, in this organ.
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PMID:Protective role of melatonin and retinol palmitate in oxidative stress and hyperlipidemic nephropathy induced by adriamycin in rats. 975 29

Eighteen children with steroid-sensitive nephrotic syndrome (SSNS) were studied. The control group comprised 20 healthy children. The following indirect parameters of reactive oxygen species activity were determined in nephrotic patients during four stages of the disease (full relapse before prednisone administration, disappearance of proteinuria, prednisone cessation, unmaintained remission): plasma malondialdehyde (MDA) levels, copper/zinc superoxide dismutase (CuZn SOD) activity and glutathione peroxidase (GPX) activity in erythrocytes, reduced glutathione (GSH) and vitamin C levels in whole blood, and vitamin E level in serum. Increased MDA levels, reduced vitamin C levels, and enhanced CuZn SOD activity were found in relapse. GSH concentration was high during all four stages. Vitamin E level was also increased, parallel to the pattern of serum lipids. GPX activity remained low during the proteinuria stage and in remission. We conclude that the majority of abnormal findings can be attributed to the hyperlipidemia of NS. Low GPX activity may be a factor limiting the antioxidant capacity in NS. The present study is inconclusive regarding the role of free radicals in the proteinuria of NS.
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PMID:Antioxidant status of children with steroid-sensitive nephrotic syndrome. 987 20

Proteinuria is an independent risk factor for progression of renal diseases. Glia maturation factor-beta (GMF-beta), a 17-kDa brain-specific protein originally purified as a neurotrophic factor from brain, was induced in renal proximal tubular (PT) cells by proteinuria. To examine the role of GMF-beta in PT cells, we constructed PT cell lines continuously expressing GMF-beta. The PT cells overexpressing GMF-beta acquired susceptibility to cell death upon stimulation with tumor necrosis factor-alpha and angiotensin II, both of which are reported to cause oxidative stress. GMF-beta overexpression also promoted oxidative insults by H2O2, leading to the reorganization of F-actin as well as apoptosis in non-brain cells (not only PT cells, but also NIH 3T3 cells). The measurement of intracellular reactive oxygen species in the GMF-beta-overexpressing cells showed a sustained increase in H2O2 in response to tumor necrosis factor-alpha, angiotensin II, and H2O2 stimuli. The sustained increase in H2O2 was caused by an increase in the activity of the H2O2-producing enzyme copper/zinc-superoxide dismutase, a decrease in the activities of the H2O2-reducing enzymes catalase and glutathione peroxidase, and a depletion of the content of the cellular glutathione peroxidase substrate GSH. The p38 pathway was significantly involved in the sustained oxidative stress to the cells. Taken together, the alteration of the antioxidant enzyme activities, in particular the peroxide-scavenging deficit, underlies the susceptibility to cell death in GMF-beta-overexpressing cells. In conclusion, we suggest that the proteinuria induction of GMF-beta in renal PT cells may play a critical role in the progression of renal diseases by enhancing oxidative injuries.
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PMID:Induction of glia maturation factor-beta in proximal tubular cells leads to vulnerability to oxidative injury through the p38 pathway and changes in antioxidant enzyme activities. 1279 1

Exercise-induced proteinuria is a common consequence of physical activity, although its mechanism is not clear. We investigated whether free radicals generated during exercise play a role in post-exercise proteinuria in sedentary and treadmill-running trained rats, separately. Sedentary and trained rats were randomly divided into four sub-groups: control, antioxidant treatment, exhaustive exercise and an exhaustive exercise plus antioxidant treatment group. Antioxidant therapy was applied by intragastric catheter for 4 weeks with vitamin C (ascorbic acid, 50 mg x kg(-1) x day(-1)) and vitamin E (alpha-tocopherol, 20 mg x kg(-1).day(-1)). Twenty-four-hour urine samples were used for measuring protein levels and protein electrophoresis. Thiobarbituric acid (TBARS) and glutathione (GSH) levels, superoxide dismutase (SOD) and catalase (CAT) activities were assayed in blood and tissues. Increased urinary protein levels and mixed type proteinuria in electrophoresis were identified after exhaustive exercise in sedentary rats. Erythrocyte, kidney and muscle TBARS levels were significantly elevated in this group. Antioxidant treatment prevented the increase in urinary protein levels, TBARS levels and the occurrence of mixed type proteinuria after exhaustive exercise in sedentary rats. Exhaustive exercise in trained rats resulted in elevation of urine protein levels and mixed type proteinuria although kidney TBARS levels were not changed compared to those of the trained controls. Antioxidant therapy in trained and exhausted-trained animals resulted in decreased TBARS levels in the kidney but it did not affect urinary-increased protein levels or electrophoresis in exhausted animals. This findings suggest that the exercise-induced oxidant stress may contribute to post-exercise proteinuria in sedentary rats. However, this mechanism may not be responsible for proteinuria in trained rats.
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PMID:The effect of reactive oxidant generation in acute exercise-induced proteinuria in trained and untrained rats. 1290 46

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