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)

N-(3,5-Dichlorophenyl)succinimide (NDPS) is an experimental fungicide which induces renal toxicity. The following study examined the nephrotoxicity induced by NDPS in streptozotocin (STZ) diabetic rats. Male Fischer 344 (F344) rats were injected with 35 mg/kg STZ (i.p.) or citrate buffer. Fourteen days after STZ or citrate buffer injection, the rats (4-6 rats/group) were injected with (0.4 or 1.0 mmol/kg) NDPS or vehicle (sesame oil, 2.5 ml/kg). Kidney weight, blood urea nitrogen (BUN) levels, morphology and renal cortical slice uptake of organic ions was quantitated 48 h after NDPS administration. A 0.4 mmol/kg dose of NDPS induced diuresis, increased kidney weight and a moderate elevation in BUN levels in the normoglycemic group. The 1.0 mmol/kg dose of NDPS produced diuresis, proteinuria, increased kidney weight and a marked increase in BUN levels in the normoglycemic group. The renal cortical slice uptake of p-aminohippurate (PAH) and tetraethylammonium (TEA) was also decreased 48 h after NDPS injection in the normoglycemic group. No alterations in kidney weight, BUN levels, morphology or renal cortical slice uptake of organic ions was observed in the diabetic animals treated with (0.4 or 1.0 mmol/kg) NDPS. The results of this study indicate that the renal toxicity of NDPS was reduced in the diabetic rat.
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PMID:N-(3,5-dichlorophenyl)succinimide nephrotoxicity in streptozotocin-induced diabetic rats. 214 59

The experimental agricultural fungicide N-(3,5-dichlorophenyl)succinimide (NDPS) has been shown to be a nephrotoxicant in Fischer 344 rats. Results of a previous study conducted in our laboratory suggested that glutathione might be an important modulator of NDPS-induced nephrotoxicity. The purpose of this study was to examine the effect of DL-buthionine-(S,R)-sulfoximine (BSO), an inhibitor of glutathione synthesis, on NDPS-induced renal effects. Male Fischer 344 rats received an intraperitoneal (i.p.) injection of BSO (890 mg/kg) in 0.9% saline (10 ml/kg) followed 2 h later by an i.p. injection of NDPS (0.4 or 1.0 mmol/kg) or sesame oil (2.5 ml/kg), and renal function monitored at 24 and 48 h. BSO pretreatment attenuated the diuresis, proteinuria, elevation in blood urea nitrogen (BUN) concentration and kidney weight, and decreases in organic ion accumulation by renal cortical slices induced by NDPS (0.4 or 1.0 mmol/kg) administration. Proximal tubular necrosis induced by NDPS administration also was attenuated by BSO pretreatment. These results indicate that BSO pretreatment attenuates NDPS-induced renal effects and that glutathione is important for modulating acute NDPS-induced nephropathy.
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PMID:Effect of buthionine sulfoximine on acute N-(3,5-dichlorophenyl)succinimide-induced nephrotoxicity in Fischer 344 rats. 235 74

A large number of carboximides have been synthesized, tested and, in some cases, marketed as agricultural fungicidal agents. One carboximide fungicide N-(3,5-dichlorophenyl)succinimide (NDPS) proved to be both highly efficacious as a fungicide and a nephrotoxin. The purpose of this study was to compare the acute nephrotoxic potential of three N-(3,5-dichlorophenyl)carboximide fungicides [NDPS, vinclozolin (VCLZ) and iprodione (IPDO)] to determine if nephrotoxic potential correlated with fungicidal efficacy among this class of structurally-related agricultural agents. Male Fischer 344 rats (4 rats/group) received a single intraperitoneal injection of a fungicide (0.4 or 1.0 mmol/kg) or vehicle (sesame oil, 2.5 ml/kg), and renal function was monitored at 24 and 48 h. NDPS (0.4 or 1.0 mmol/kg)-induced renal effects were characterized by marked diuresis, increased proteinuria, elevated blood urea nitrogen (BUN) concentration and kidney weights, decreased organic ion accumulation by renal cortical slices and proximal tubular necrosis. In contrast, IPDO and VCLZ (0.4 or 1.0 mmol/kg) administration resulted in only minor or no alterations in the renal function parameters studied and renal morphology. These results suggest that fungicidal efficacy does not correlate with acute nephrotoxic potential among the N-(3,5-dichlorophenyl)carboximide fungicides.
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PMID:Comparative acute renal effects of three N-(3,5-dichlorophenyl)carboximide fungicides: N-(3,5-dichlorophenyl)succinimide, vinclozolin and iprodione. 273 5

N-(3,5-Dichlorophenyl)succinimide (NDPS) induces nephrotoxicity via one or more metabolites which arise from oxidation of the succinimide ring. The purpose of this study was to examine the nephrotoxic potential of N-(3,5-dichlorophenyl)-3-hydroxysuccinamic acid (3-NDHSA), a potential metabolite of NDPS and a positional isomer of N-(3,5-dichlorophenyl)-2-hydroxysuccinamic acid (2-NDHSA), a known nephrotoxic metabolite of NDPS. Male Fischer 344 rats were administered a single intraperitoneal injection of 3-NDHSA (0.2 or 0.4 mmol/kg) or sesame oil (2.5 mmol/kg), and renal function was monitored at 24 and 48 h. Both doses of 3-NDHSA induced diuresis, increased proteinuria, glucosuria and hematuria, elevated blood urea nitrogen (BUN) concentrations and kidney weights, decreased organic ion accumulation by renal cortical slices, and induced proximal tubular necrosis. The characteristics of 3-NDHSA-induced nephrotoxicity were identical to NDPS-induced nephropathy, but were evident at lower doses with 3-NDHSA. These results demonstrate that 3-NDHSA is a nephrotoxicant which might contribute to NDPS-induced nephropathy.
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PMID:Acute nephrotoxicity induced by N-(3,5-dichlorophenyl)-3-hydroxysuccinamic acid in Fischer 344 rats. 278 90

N-(3,5-Dichlorophenyl)succinimide (NDPS), an experimental agricultural fungicide, has been shown to produce selective nephrotoxicity in rats. Previous studies have shown that a metabolite(s) of extrarenal origin contributes to acute NDPS-induced nephrotoxicity. The purpose of this study was to determine if the organic acid transport inhibitor probenecid could modify the renal toxicity produced by NDPS administration. Male Fischer 344 rats were administered a single intraperitoneal (i.p.) injection of probenecid (60, 90 and 120 mg/kg) or 0.9% saline (1.0 ml/kg) followed 30 min later by NDPS (0.4 or 1.0 mmol/kg, i.p.) or sesame oil (2.5 ml/kg, i.p.) Renal function was monitored at 24 h and 48 h. Probenecid (60 mg/kg) did not markedly alter NDPS-induced renal effects on either post-treatment day. However, pretreatment with probenecid (90 or 120 mg/kg) blocked or attenuated the diuresis, increased proteinuria, decreased tetraethylammonium (TEA), uptake, elevation in blood urea nitrogen (BUN) concentration and increased kidney weight produced by NDPS (0.4 mmol/kg) administration. Only increased kidney weight and BUN concentration, and decreased lactate-stimulated p-aminohippurate (PAH) uptake were altered by probenecid (120 mg/kg) pretreatment when NDPS (1.0 mmol/kg) was given. NDPS-induced changes in renal morphology were not prevented by pretreatment with any probenecid dose. These results suggest that at least one nephrotoxic metabolite of NDPS is an organic acid. However, this acidic metabolite might not be the major nephrotoxic metabolite or a precursor to the major nephrotoxic metabolite(s). The identity of these metabolites remains to be determined.
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PMID:The effect of probenecid on acute N-(3,5-dichlorophenyl)succinimide-induced nephrotoxicity in the Fischer 344 rat. 356 52

N-(3,5-Dichlorophenyl)succinimide (NDPS), an experimental agricultural fungicide, has been shown to be a selective nephrotoxin in Sprague-Dawley and Fischer 344 rats. Previous studies have demonstrated that a toxic metabolite contributes to or is responsible for acute NDPS-induced nephrotoxicity. The purpose of this study was to investigate the role of glutathione in NDPS-induced renal effects. In 1 set of experiments, male Sprague-Dawley or Fischer 344 rats received a single intraperitoneal (i.p.) injection of NDPS (0.4 or 1.0 mmol/kg) or sesame oil (2.5 ml/kg). Rats were killed at 1, 3, 6 or 24 h, and reduced (GSH) and oxidized (GSSG) glutathione concentrations determined in liver and renal cortex. In both rat strains NDPS (0.4 or 1.0 mmol/kg) administration produced small decreases in GSH concentrations (1 and 3 h) but moderate increases in GSSG concentrations (1 and 3 h) in liver and kidney. At 24 h both GSH and GSSG concentrations were increased, particularly in kidney. In a second set of experiments, rats were pretreated with the glutathione depletor diethyl maleate (DEM) (0.4 ml/kg, i.p.) 1 h prior to NDPS (0.2, 0.4 or 1.0 mmol/kg, i.p.) or sesame oil (2.5 ml/kg, i.p.) administration, and renal function monitored at 24 and 48 h. DEM pretreatment attenuated the increase in urine volume (24 and 48 h), proteinuria, glucosuria, hematuria and elevated blood urea nitrogen (BUN) concentration produced by NDPS (0.4 or 1.0 mmol/kg) in both Sprague-Dawley and Fischer 344 rats. NDPS-induced increases in kidney weight also were generally prevented by DEM pretreatment. Proximal tubular necrosis produced by NDPS administration was reduced by DEM but not prevented. Pretreatment with the cysteine conjugate beta-lyase inhibitor amino-oxyacetic acid (0.5 mmol/kg, i.p.) 1 h prior to NDPS (0.4 or 1.0 mmol/kg) markedly attenuated all NDPS-induced effects on renal function and morphology. These results suggest that glutathione does not play a protective role against NDPS-induced renal effects and that a glutathione or cysteine conjugate of NDPS might contribute to NDPS-induced nephrotoxicity.
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PMID:Role of glutathione in acute N-(3,5-dichlorophenyl) succinimide-induced nephrotoxicity in Sprague-Dawley and Fischer 344 rats. 360 74

N-(3,5-Dichlorophenyl)succinimide (NDPS) is an experimental agricultural fungicide which has been shown to be a selective nephrotoxin. The purpose of this study was to determine if a NDPS metabolite contributes to acute NDPS-induced nephrotoxicity. Male Sprague-Dawley or Fischer 344 rats were pretreated with a microsomal enzyme inducer [phenobarbital (PB) or 3-methylcholanthrene (3-MC)] or inhibitor [cobalt chloride (CoCl2) or piperonyl butoxide (PIBX)] followed by a single intraperitoneal injection of NDPS (0.2, 0.4 or 1.0 mmol/kg) or vehicle (sesame oil, 2.5 ml/kg). Renal function was monitored at 24 and 48 h. CoCl2 or PIBX pretreatment reduced NDPS-induced diuresis, proteinuria and hematuria, and reduced the increases seen in the blood urea nitrogen (BUN) concentration and kidney weight. NDPS-induced decreases in organic ion accumulation were not markedly altered by CoCl2 or PIBX pretreatment. PB pretreatment enhanced all NDPS- (0.2 mmol/kg) induced renal effects, while 3-MC pretreatment protected against NDPS-induced diuresis, proteinuria, hematuria, and increases in the BUN concentration observed in both rat strains. Kidney weight and organic ion uptake changes were not substantially different between NDPS-treated rats with or without 3-MC pretreatment. It was concluded that a metabolite(s) contributes to or is responsible for acute NDPS-induced nephrotoxicity and that at least 1 toxic metabolite might be of extrarenal origin.
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PMID:Effect of microsomal enzyme activity modulation on N-(3,5-dichlorophenyl)succinimide-induced nephrotoxicity. 362 11

Previous studies have shown that the experimental agricultural fungicide N-(3,5-dichlorophenyl)succinimide (NDPS) produces acute nephrotoxicity via a reactive intermediate in Sprague-Dawley and Fischer-344 rats. The purpose of this study was to examine if an arene oxide intermediate is a toxic metabolite contributing to NDPS-induced nephropathy in rats. N-(3,4,5-Trichlorophenyl)succinimide (NTPS) was prepared to prevent arene oxide formation of NDPS, and its nephrotoxic potential was determined in Sprague-Dawley and Fischer-344 rats. Rats were administered a single intraperitoneal injection of NTPS (0.4 or 1.0 mmol/kg) or sesame oil (2.5 ml/kg), and renal function was monitored at 24 and 48 h. NTPS (0.4 or 1.0 mmol/kg) administration produced diuresis, proteinuria, glucosuria, hematuria, decreased accumulation of p-aminohippurate (PAH) and tetraethylammonium (TEA), and increased blood urea nitrogen (BUN) and kidney weight in both strains. Extensive proximal tubular necrosis was observed in both strains of rat. The magnitude of these effects was similar to those previously reported for NDPS-induced nephrotoxicity in Sprague-Dawley and Fischer-344 rats. It was concluded that an arene oxide metabolite does not contribute to the nephrotoxic potential of NDPS. The results of the present study indicate that lipophilic character alone is not a good predictor of the nephrotoxic potential for NDPS and NTPS.
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PMID:Acute N-(3,4,5-trichlorophenyl)succinimide-induced nephrotoxicity in Sprague-Dawley and Fischer-344 rats. 372 98

Deuterium labelling of the succinimide ring of N-(3,5-dichlorophenyl) succinimide (NDPS) markedly reduced the acute nephrotoxicity produced by NDPS administration to Fischer 344 rats. Administration of the deuterium-labelled derivative, NDPS-d4, to male Fischer 344 rats failed to produce the marked diuresis, increased proteinuria, glucosuria, hematuria, elevated blood urea nitrogen (BUN) concentration and kidney weight, decreased basal p-aminohippurate (PAH) accumulation, and proximal tubular necrosis which are characteristic of NDPS-induced nephrotoxicity. However, lactate-stimulated PAH and tetraethylammonium (TEA) accumulation were decreased by NDPS-d4 (1.0 mmol/kg). The lack of nephrotoxicity produced by NDPS-d4 suggests that oxidation at the carbon-carbon bridge of the succinimide ring is an important biotransformation step in the generation of the nephrotoxic species of NDPS.
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PMID:Deuterium isotope effect in acute N-(3,5-dichlorophenyl)succinimide-induced nephrotoxicity. 376 9

The time course for the onset of N-(3,5-dichlorophenyl)succinimide (NDPS)-induced nephrotoxicity was studied in male Sprague-Dawley rats. The ability of rats to recover from a single nephrotoxic dose (100 or 200 mg/kg) of NDPS also was examined. One hour following NDPS administration (200 mg/kg, i.p.), p-aminohippurate (PAH) accumulation by renal cortical slices was decreased 51%. Changes in renal morphology, proteinuria, hematuria, and diuresis were observed at 3 h. Renal damage at 6 h was similar to that seen at 24 h with tubular necrosis greater than that observed at 3 h and some lumina plugged with PAS+ material. Accumulation of both PAH and tetraethylammonium (TEA) by renal cortical slices was decreased; and proteinuria, hematuria, and polyuria were increased at 6 h and 24 h. Blood urea nitrogen (BUN) was not increased until 24 h. Renal function began to return to normal in rats receiving NDPS (100 mg/kg, i.p.) by 48 h, and functional recovery was complete by 168 h, although slight morphological changes were still evident. However, not all rats receiving NDPS (200 mg/kg, i.p.) recovered by 168 h, and some rats (3 of 7) died of renal failure between 96 h and 168 h. Widespread tubular necrosis and increased kidney weight were also present in this group at 168 h. Thus, NDPS-induced nephrotoxicity was evident by 1 h, established by 6 h and maximum between 24 h and 48 h. Recovery from NDPS-induced nephropathy was found to be dose-dependent, and incomplete in some animals at a dose of 200 mg/kg.
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PMID:Onset of and recovery from acute N-(3,5-dichlorophenyl)succinimide-induced nephrotoxicity in Sprague-Dawley rats. 671 May 45


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