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)

Ochratoxin A (OTA) is a mycotoxin produced by Aspergillus ochraceus as well as other molds. It is a natural contaminant of mouldy food and feed. OTA has a number of toxic effects, the most prominent being nephrotoxicity. Furthermore, OTA is immunosuppressive, genotoxic, teratogenic and carcinogenic. OTA inhibits protein synthesis by competition with phenylalanine in the phenylalanine-tRNA aminoacylation reaction. Recently, lipid peroxidation induced by OTA has been reported, indicating that the lesions induced by this mycotoxin could be also related to oxidative pathways. It was then interesting to study effects of the superoxide dismutase (SOD) and catalase on the nephrotoxicity induced by OTA in rats. The two enzymes (20 mg/kg body weight each) were given to rats by subcutaneous injection, every 48 h, 1 h before gavage by OTA (289 micrograms/kg b.w. every 48 h), for 3 weeks. SOD and catalase prevented most of the nephrotoxic effects induced by ochratoxin A, observed as enzymuria, proteinuria, creatinemia and increased urinary excretion of OTA. Altogether these results indicate (i) that superoxide radicals and hydrogen peroxide are likely to be involved in the damaging processes of OTA in vivo, (ii) that SOD and catalase might be used for prevention of renal lesions in cases of ochratoxicosis.
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PMID:Effect of superoxide dismutase and catalase on the nephrotoxicity induced by subchronical administration of ochratoxin A in rats. 819 87

The pathogenesis of steroid-sensitive nephrotic syndrome (SSNS) is poorly defined. We previously demonstrated that monocytes from SSNS patients with proteinuria were activated to display exaggerated phagocytosis of opsonized particles and paradoxically reduced chemotaxis. In this study, we evaluated the capacity of hydrogen peroxide (H2O2) release from monocytes in 19 patients with SSNS and 13 healthy controls, by exposure to phorbol myristate acetate (PMA), using scopoletin method. Of 19 patients of SSNS, 7 were proteinuric and 12 in remission. The H2O2 release was significantly higher in SSNS patients with proteinuria than those in remission or normal controls [177.49 +/- 94.75 (mean +/- S.D.) vs. 60.67 +/- 58.89 (p < 0.02) or 85.02 +/- 48.62 nmol/90 min/mg cell protein (p < 0.05)]. Follow-up measurements in two SSNS patients showed that H2O2 release was reduced when proteinuric condition was improved to be in remission. Our data suggest that monocytes in SSNS with proteinuria were activated and were prepared to receive some extracellular signaling leading to protein kinase-C activation for releasing H2O2.
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PMID:Capacity of H2O2 release from monocytes in steroid-sensitive nephrotic syndrome. 872 9

Renal tubular acidosis (RTA) is applied to a group of transport defects involving the reabsorption of bicarbonate (proximal RTA or type II), the excretion of hydrogen ion (distal RTA or type I), or both (type III). Aldosteron deficiency and resistant state to aldosteron form hyperkalemic RTA which is called type IV RTA. A large number of etiologies of RTA have been identified. Almost all RTA in childhood are congenital. In contrast, almost all RTA in adulthood are secondary. Two renal complications such as low molecular weight proteinuria and renal cyst formation have recently been described in distal RTA. Molecular defects of RTA will be identified in the near future.
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PMID:[Renal tubular acidosis (RTA)]. 890 39

Intensive treatment of non-insulin-dependent diabetes mellitus (NIDDM) decreases the rate of microvascular complications, but is associated with increased incidence of cardiovascular morbidity. Enhanced permeability of plasma membranes for sodium (e.g. sodium-hydrogen exchange, NHE) may predict the subset of diabetic patients for whom intensive modalities of treatment are indicated despite their potential risk. However, the accuracy of NHE as a marker of microangiopathy has not been assessed. In this study NHE as initial velocity of amiloride-inhibited H+ efflux from erythrocytes (pHi 6.35-6.45) into an Na(+)-containing medium (pHo 7.95-8.05), was estimated during 8 years of follow-up in 138 non-microalbuminuric diabetic patients (74 women, 64 men, age 52 +/- 4 years) treated with antihyperglycaemic drugs for 14 +/- 2 years. Appearance of microalbuminuria, overt proteinuria, azotaemia and retinopathy was assessed annually. Enhanced erythrocyte NHE predicted diabetic nephropathy alone and in association with a family history of hypertension and/or nephropathy with a sensitivity of 86 and 93%, respectively. No association was found between NHE and retinopathy in NIDDM. It is concluded that assessment of erythrocyte NHE can identify a subset of patients likely to develop renal damage, for whom an aggressive treatment approach might be considered.
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PMID:Amiloride-sensitive Na+/H+ exchange in erythrocytes of patients with NIDDM: a prospective study. 908 68

Results from several radical scavenger studies indirectly suggested an involvement of reactive oxygen species in the pathogenesis of puromycin aminonucleoside glomerulopathy. In this study, generation of reactive oxygen species was examined directly in glomeruli isolated from rats in the acute phase of puromycin aminonucleoside nephrosis and related to the changes in the glomerular antioxidant defense. Five and nine days after puromycin aminonucleoside injection, gross proteinuria, reduced creatinine clearances, and typical changes of glomerular morphology were present. Levels of reactive oxygen species were increased eightfold in glomeruli isolated 15 min after puromycin aminonucleoside injection, returned to baseline levels on days 1 and 5 after injection, and rose again to 14-fold on day 9 after injection, as determined by chemiluminescence with luminol. Further analysis of increased glomerular radical generation, using the chemiluminescence enhancer lucigenin and different radical scavengers, suggested a predominant involvement of hydroxyl radical and hydrogen peroxide in the initial increase in reactive oxygen species 15 min after puromycin aminonucleoside. Nine days after induction of nephrosis, primarily superoxide anion and hydroxyl radical were found to contribute to increased reactive oxygen species. Despite oxidative stress, antioxidant enzymes were not induced in the course of nephrosis. On the contrary, catalase and glutathione peroxidase activities declined 9 d after puromycin aminonucleoside injection. The results indicate that a transient increase in glomerular reactive oxygen species is sufficient to induce the oxidative glomerular injury observed in this model and that the glomerulus may not necessarily respond to oxidative stress with an induction of antioxidant enzymes.
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PMID:Reactive oxygen species and antioxidant defense in puromycin aminonucleoside glomerulopathy. 935 75

Growth and injury represent recurrent and related themes in the study of progressive renal disease. We have previously demonstrated that a prooxidant diet, one deficient in antioxidants, selenium and vitamin E, induces renal enlargement, proteinuria, mild tubulointerstitial disease and diminished glomerular filtration rate (GFR). Our present study represents continued examination of these processes. We demonstrate that these diets increase thymidine incorporation into DNA and net DNA content in renal tissue, and induce expression of the mRNA for the proto-oncogene, c-myc, and the histone, H2b. We localize increased DNA synthesis as occurring mainly in the distal renal tubular epithelium. These deficient kidneys also exhibit interstitial expansion that parallels the pattern of DNA synthesis in that both processes are more prominent in the medulla than in the cortex. mRNAs for collagens I, III and IV in conjunction with transforming growth factor-beta1 (TGF-beta1) are up-regulated in the kidney in rats maintained on the deficient diet. In complementary in vitro studies, the exposure of rat kidney fibroblasts, NRK 49F cells, to noncytolytic doses of hydrogen peroxide, induces collagen III, collagen IV and TGF-beta1 mRNA. Induction of these genes is also observed in mesangial cells so exposed to noncytolytic doses of hydrogen peroxide. A final aspect of our study was the examination of renal generation of hydrogen peroxide and the profile of the hydrogen peroxide-degrading enzymes. Deficient kidneys exhibit increased mitochondrial generation of hydrogen peroxide independent of oxygen consumption but in conjunction with suppression of glutathione peroxidase mRNA and activity. Lipid peroxidation was increased twofold in the cortex and medulla of the deficient kidneys. Surprisingly, catalase activity, measured in the cortex and medulla, and whole kidney catalase mRNA were also reduced in rats maintained on the antioxidant deficient diet, effects that may further compromise the clearance of hydrogen peroxide. These changes in catalase represent an adverse response to this dietary deficiency, and may be relevant to decreased catalase activity described in chronic renal insufficiency. Thus, a chronic prooxidant state, with features that mimic those of clinical uremia, increases DNA synthesis of renal tubular epithelium, induces mRNA expression for collagens I, III and IV in conjunction with the mRNA for the fibrogenic cytokine, TGF-beta1. Oxidants also induce collagen III, collagen IV and TGF-beta1 mRNA in vitro.
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PMID:Redox regulation of renal DNA synthesis, transforming growth factor-beta1 and collagen gene expression. 946 Oct 96

Congenital lactic acidoses (CLAs) constitute a group of rare inborn errors of mitochondrial metabolism in which cellular energy failure is the defining biochemical abnormality. We report the principal manifestations of renal dysfunction in 35 children with CLA caused by defects in either the pyruvate dehydrogenase multienzyme complex or one or more components of the respiratory chain. The most prominent renal abnormalities included bicarbonaturia, phosphaturia, hypercalciuria, complete Fanconi's syndrome, proteinuria, and decreased glomerular filtration rate. These data were compared with those from 79 previously published cases. Clinical manifestations of renal dysfunction in CLA are common and may be the first presenting sign of the disease. The glomerulus and proximal renal tubule appear to be the anatomic sites most vulnerable to abnormal mitochondrial energy transduction. We propose that the primary defect in mitochondrial energy metabolism, together with the consequent intracellular accumulation of lactate and hydrogen ions, precipitates a state of tissue injury that, unless interrupted, becomes self-perpetuating and ultimately leads to renal cell death.
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PMID:Renal manifestations of congenital lactic acidosis. 1177 96

Preeclampsia is a leading cause of maternal and neonatal mortality and morbidity. It is a complex syndrome of undetermined etiologic origin, usually diagnosed during the second half of pregnancy, with clinical features of hypertension, proteinuria, and edema. No cure for preeclampsia exists, except premature delivery. There is increasing evidence that oxidative stress is an important contributing factor to the pathogenesis of preeclampsia. Oxidative stress is defined as an imbalance between reactive oxygen species (ROS), such as nitric oxide (NO*), superoxide anion (O2*-), and hydrogen peroxide (H2O2), and antioxidants, favouring an overabundance of ROS. The consequence of an overproduction of ROS can be observed as increased levels of markers of oxidative stress, such as lipid peroxides. Pregnant women affected by preeclampsia may have abnormal ROS production, particularly NO* and O2*-, abnormal levels of antioxidant defences, and increased placental lipid peroxidation. Several observations suggest that decreased bioavailability of endothelium-derived NO*, due to oxidative destruction of NO* by ROS, might contribute to the impaired endothelium-dependent vasodilatory responses and multisystemic pathology of preeclampsia, a phenomenon in which antioxidant vitamins may play a beneficial role. This review focuses on the rationale for vitamins C and E supplementation toward prevention of preeclampsia, with an emphasis on the limit of our scientific knowledge concerning the deleterious oxidative events taking place in this pathology.
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PMID:Current concepts in the use of antioxidants for the treatment of preeclampsia. 1297 Aug 9

Proton NMR spectroscopy of urine has previously been used to gain insight into the site and mechanism of toxic injury to the kidney. d-Serine injures the rat kidney, causing selective necrosis of the proximal straight tubules. Damage is accompanied by proteinuria, glucosuria, and amino aciduria, the latter preceding the onset of necrosis. This study has employed (1)H NMR spectroscopy of urine and (1)H NMR and (31)P NMR spectroscopy of kidney extracts to examine the nephrotoxic action of d-serine. Urine was collected 0-8 h (all doses) and 8-24, 24-48, 48-72, 72-96, and 96-120 h (500 mg/kg only) postdosing from Alderley Park rats given d-serine (62.5, 125, 250, and 500 mg/kg ip). (1)H NMR spectra were monitored for markers of tubular damage. Additionally, ATP and ADP were quantitated in kidney perchloric acid extracts, prepared after 0.5, 1, 2, 4, and 8 h (500 mg/kg) to assess energy status; serine was also measured in these samples. At 500 mg/kg, glucosuria, amino aciduria, and reduced citrate, alpha-ketoglutarate, and succinate were observed in urine at 0-8 h. Furthermore, serine and pyruvate levels were elevated at this time. After 8-24 h, similar changes were observed; however, they were more severe reflecting the development of the lesion prior to recovery. These perturbations were dose-related, in particular, for serine and pyruvate, with no alterations seen at 62.5 mg/kg. Kidney serine concentration rapidly increased, where it was maximal after 30 min and cleared by 8 h. A decline in ATP, to approximately 60-70% of control, was observed within the kidney at 2-4 h postdosing, when necrosis first becomes evident suggesting that mitochondrial function might be impaired in the early stages of d-serine-induced nephrotoxicity. The use of NMR spectroscopy has given a comprehensive overview of the effects of d-serine in vivo. Information on the excretion of serine and its effect on renal energy metabolism provides insight into the possible mechanism of renal tubule injury.
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PMID:1H NMR pattern recognition and 31P NMR studies with d-Serine in rat urine and kidney, time- and dose-related metabolic effects. 1456 62

Angiotensin II can induce oxidant stress by stimulating vascular superoxide production. Hypertension promotes mitochondrial function decline in brain, liver and heart. The aim of this study was to investigate whether a) hypertension is associated to kidney mitochondrial dysfunction, and b) angiotensin II blockade can reverse potential mitochondrial changes in hypertension. Four-month-old male spontaneously hypertensive rats (SHR) received drinking water containing candesartan (7.5 mg/kg/day, SHR+Cand), or no additions (SHR) for 4-months. Eight-month-old Wistar-Kyoto rats (WKY), that received water with no additions, were used as control. Systolic blood pressure, proteinuria, cortical glomerular area, and glomerular and tubulointerstitial alpha-smooth muscle actin labeling, were significantly higher, and creatinine clearance was significantly lower, in SHR relative to WKY and SHR+Cand. In SHR, kidney mitochondria membrane potential, and nitric oxide synthase and cytochrome oxidase activities were significantly lower than in WKY and SHR+Cand. In SHR, mitochondrial hydrogen peroxide production was significantly higher than in WKY and SHR+Cand. The results suggest that, in hypertension, increased mitochondrial oxidant production may mediate kidney mitochondria dysfunction. Candesartan preserved mitochondrial function, probably favoring the maintenance of adequate cellular and tissue function in the kidney. The known renal protective effects of candesartan in hypertension may be related to the improvement of mitochondrial function. This may be an additional or alternative explanation for some of the beneficial effects of AT1 receptor antagonists.
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PMID:Angiotensin II blockade improves mitochondrial function in spontaneously hypertensive rats. 1630 82

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