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)

Injection of rats with large doses of bovine serum albumin causes proteinuria which may persist long after the period of overload has ended. In order to assess in this model of proteinuria the relative importance of podocytic epithelial changes versus alterations in anionic groups in the glomerular capillary wall a morphological study has been made of animals in which the kidneys were fixed by vascular perfusion or by in situ drip fixation. By transmission electron microscopy, podocytes showed protein droplets, cytoplasmic vacuoles, spreading of epithelial cytoplasm with loss of foot processes, and focal separation of epithelium from the glomerular basement membrane, occasionally with cytoplasmic disruption. Staining with colloidal iron showed no reduction in the density of anionic groups per unit area on epithelial cell surfaces or elsewhere in glomeruli. However, the reduced surface area of epithelial cells caused by the changes to their structure accounts adequately for the less intense glomerular colloidal iron staining evident by light microscopy. Changes in podocyte structure, particularly those leading to focal cytoplasmic defects on the outer surface of the glomerular basement membrane, appear to be more important than loss of glomerular anionic groups for the development of proteinuria in protein overload nephropathy.
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PMID:Glomerular podocytic injury in protein overload proteinuria. 241 4

Peripheral mononuclear blood cells isolated from nephrotic subjects with minimal-change nephrotic syndrome (selective proteinuria greater than 3.5 g/24 h) or various other forms of glomerulonephritis (non-selective proteinuria greater than 3.5 g/24 h) were stimulated with concanavalin A and cultured for 20 h in the presence of kidney tissue under standard conditions. Identical cultures were developed with phosphate-buffered saline from normal control donors. Triplicate cultures of each subject (3 X 10(6) cells/ml) were incubated with or without 5, 10, or 20 micrograms/ml concanavalin A per milliliter serum-free tissue culture medium upon cryostat sections from normal rat kidney. The cells were subsequently removed, and the tissue sections were washed and stained for sialoprotein using the colloidal iron method and evaluated for stainability of glomerular polyanion using light microscopy. The results show that peripheral mononuclear blood cells from subjects with minimal-change nephrotic syndrome had affected glomerular polyanion in vitro during incubation with kidney tissue in a significantly (p less than or equal to 0.005) higher number of cases (15/17) as compared with the number of glomerulonephritis patients who scored positive in 4 out of 14 cases, whereas this was the case in 3 out of 18 cases of the normal donors. It is concluded that stimulated cellular immune reactivity of peripheral mononuclear blood cells from subjects with minimal-change nephrotic syndrome in vitro is associated with the potential impairment in vitro of an important part of the glomerular filtration barrier. Since this cellular activity occurred to a significant lesser extent in other nephrotic subjects, this response is not related to the nephrotic state per se.
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PMID:Loss of glomerular polyanion in vitro induced by mononuclear blood cells from patients with minimal-change nephrotic syndrome. 242 34

A single intravenous injection of adriamycin (5mg per kg.) into rats induced nephrosis. In the various periods of the model, alterations of glomerular anionic sites stained with colloidal iron were analyzed quantitatively by image analyzer for the first time at home and abroad. The results showed that there was a significant decrease in glomerular anionic charge sites at 3 hours after administration of adriamycin as compared with that of the control animals (P less than 0.01). Marked loss of the anionic charge sites preceded the onset of proteinuria and was steadily increasing along with progress of the disease. The results suggest that loss of glomerular anionic charge sites may play an important role in the development of proteinuria in nephrotic syndrome.
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PMID:[Changes of glomerular fixed anionic charge sites in adriamycin nephrosis in rats]. 248 54

Sulfated glycosaminoglycans and sialoglycoproteins are thought to play a pivotal role in the glomerular capillary wall barrier to filtration since these anionic charged elements are important in the maintenance of capillary wall integrity and constitute a charge-selective filter. The development of proteinuria in puromycin aminonucleoside (PAN) nephrosis is associated with polyanion loss from the glomerular capillary wall structures. Since in PAN nephrosis the permeability of the mesangial area to plasma proteins and tracer substances has also been shown to be increased, the purpose of this study was to analyse the localization and distribution of anionic charges in the glomerular mesangium in this experimental model. Glycosaminoglycans were labeled by perfusion of the kidneys with ruthenium red solution (RR). Electron microscopic examination revealed the presence of distinct small RR granules ("anionic sites") in the mesangial intercellular matrix substance and in the laminae rarae of the glomerular basement membrane (GBM). The center-to-center spacing of the granules was measured and a frequency distribution of intervals in different interval classes was constructed. In normal glomeruli the anionic sites in the mesangial matrix showed a distribution pattern identical to the GBM with a maximal interval incidence at the 31-40 nm class. In nephrotic rats anionic site distributions in matrix and GBM did not change significantly. Sialoglycoproteins were labeled with colloidal iron (CI). In PAN nephrosis a decrease of CI binding was observed at the epithelial-basement membrane junction of the glomerular capillary wall. However, CI labeling of the mesangial matrix and mesangial cell membranes did not differ from that of normal glomeruli.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Localization and distribution of anionic charges in the glomerular mesangium of normal and nephrotic rats. 258 61

We studied the possibility that tubule fluid iron could be involved in the pathogenesis of the tubulo-interstitial injury associated with primary glomerular disease. Tubule fluid iron is determined by the magnitude of the glomerular leak for transferrin and the iron saturation of transferrin. To minimize tubule fluid iron in an experimental model of glomerulonephritis, iron deficiency was induced in rats prior to the induction of nephrotoxic serum nephritis. Iron deficiency did not effect the development of glomerular disease as determined by proteinuria, but had a marked effect on preventing the development of tubulo-interstitial disease and renal functional deterioration. There was also a strong correlation between the amount of functional deterioration and extent of tubulo-interstitial disease and urinary iron excretion in both the control and iron deficient animals. It is proposed that injury results from iron being dissociated from transferrin at the more acid pH of the tubule fluid. Iron, a transition element, is able to catalyze the Haber-Weiss reaction with the formation of free hydroxyl radicals which causes renal tubule cell injury. This tubulo-interstitial injury is the major determinate of progressive renal functional deterioration in this experimental model of glomerulonephritis.
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PMID:Role of iron in the tubulo-interstitial injury in nephrotoxic serum nephritis. 261 88

Preeclampsia, a major cause of fetal and maternal morbidity and mortality, may be difficult to distinguish clinically from other hypertensive disorders of pregnancy. Signs helpful in its diagnosis include presentation during late gestation in a nullipara with edema and proteinuria, and one or more of the following: hemoconcentration, hypoalbuminemia, liver function and/or coagulation abnormalities, and increased urate levels. Measures that may prove useful in differentiating preeclampsia from less dangerous forms of hypertension are decreased antithrombin III levels, increments in serum iron and carboxyhemoglobin, and decreases in urinary calcium. Major pathophysiological features of preeclampsia are decreased cardiac output, pulmonary capillary wedge pressure, and plasma volume; and marked increases in peripheral vascular resistance, as well as exaggerated pressor responses to endogenous angiotensin II and catecholamines. Renal hemodynamics decrease, in part as a result of a characteristic morphological lesion in glomeruli ("endotheliosis"), and there may be increased vascular permeability leading to albumin loss from the intravascular space. When gestation is advanced, termination is the treatment of choice; when temporization is required, several antihypertensive medications whose safety and efficacy have been tested in pregnant women are available. Magnesium sulfate remains the drug of choice for impending convulsions (the eclamptic phase of the disease). Finally, the etiology of preeclampsia remains unknown, but a popular theory suggests that alterations in prostaglandin metabolism may be responsible for the hypertension and coagulopathy in this disorder. In this respect, prophylactic treatment with low doses of aspirin, which decrease platelet thromboxane production but spare endothelial prostacyclin release, may decrease the incidence of preeclampsia in "high-risk" populations.
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PMID:Preeclampsia: pathophysiology, diagnosis, and management. 265 50

Preeclampsia is a complication of pregnancy characterized by hypertension, edema and proteinuria, beginning after 20 weeks of gestation. Six percent of the pregnant women in North America develop this disease, which is associated with increased morbidity and mortality for the mother and her baby. The physiopathology remains uncertain despite many research efforts. Actual hypotheses seek to explain the vasospasm that characterizes the disease. Among the many factors influencing vascular reactivity and possibly implicated are: the renin-angiotensin system, prostaglandins, progesterone and its metabolites, calcium, magnesium, digoxin-like immunoreactive substance(s), auricular natriuretic factor, substances secreted by platelets and leukotrienes. Prevention of the disease is limited by the absence of a biological or clinical marker with good sensitivity and appropriate specificity. Many biochemical or hematological parameters have been reported: uric acid, calcium, magnesium, proteinuria, blood iron, hematocrit, platelet count, antithrombin III, estrogen and progesterone. The combination of several tests could be superior to the use of each test individually, providing a better sensitivity and improving the positive predictive value. With early detection, new therapies for the prevention of the disease could be experimented on the higher risk women before the apparition of clinical symptoms or signs. Furthermore, those tests could be used in the study of the pathophysiology and in the choice of the best therapy.
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PMID:[Preeclampsia: physiopathology and prospects for early detection]. 269 75

It has been claimed that intrarenal injection of polycations results in proteinuria due to neutralization of glomerular basement membrane polyanionic charge without any glomerular morphological changes. To study the effects of polycation infusion on the renal glomerulus, the left kidney of rats was directly injected with protamine sulphate through the renal artery. Urine was collected from each kidney before and after injection, and protein excretion rates were determined. Ninety minutes after completion of the injection both kidneys were perfusion-fixed and the morphology and colloidal iron staining of the kidneys were studied by light and electron microscopy. Intrarenal injection of 0.5, 1, and 2 mg of protamine sulphate produced minimal or mild proteinuria in the majority of animals. Higher doses (5 mg) commonly resulted in decreased protein excretion associated with oliguria. Colloidal iron staining of glomerular polyanionic sites was undiminished when compared with control kidneys. Injection of protamine sulphate resulted in capillary thrombosis and severe damage to both glomerular and tubular epithelium in 6 of 16 kidneys. In the remaining kidneys, milder focal changes were apparent. Although its mechanism of action is unclear, it is apparent that protamine sulphate, even in small doses, is toxic to the cellular components of the glomerulus and tubules, thus accounting for the range of changes observed in renal function.
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PMID:Protamine sulphate-induced proteinuria: the roles of glomerular injury and depletion of polyanion. 275 45

We examined the effect of scavengers of reactive oxygen metabolites on proteinuria in the passive Heymann nephritis model of membranous nephropathy. Passive Heymann nephritis was induced by a single intravenous injection of anti-Fx1A IgG in a dose of 10 mg/100 g body weight. Superoxide dismutase, a scavenger of superoxide or catalase which destroys hydrogen peroxide, did not affect the proteinuria. In contrast, dimethylthiourea (DMTU, 500 mg/kg followed by 125 mg/kg ip twice a day), a scavenger of hydroxyl radical, markedly reduced the proteinuria (day 5: anti-Fx1A 53 +/- 13, n = 18; anti-Fx1A + DMTU, 21 +/- 6 mg/24 h, n = 15, P less than 0.001). Experiments with 125I-labeled anti-Fx1A antibody demonstrated that DMTU did not affect the amount of antibody deposited in the kidney. Semiquantitative estimation of IgG and complement deposition in the kidney showed no differences between the DMTU-treated and control rats. A second hydroxyl radical scavenger, sodium benzoate (150 mg/kg ip twice a day), also resulted in marked reduction in proteinuria (day 5: anti-Fx1A 56 +/- 7, n = 9; anti-Fx1A + benzoate, 14 +/- 4 mg/24 h, n = 8, P less than 0.01). Because of the participation of iron in biological systems to generate hydroxyl radical, we also examined the effect of deferoxamine (DFO, 35 mg/day), an iron chelator, on the anti-Fx1A-induced proteinuria. There was a significant reduction in proteinuria in rats treated concurrently with DFO (day 5: anti-Fx1A 67 +/- 13, n = 15; anti-Fx1A + DFO, 29 +/- 4 mg/24 h, n = 15, P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence suggesting a role for hydroxyl radical in passive Heymann nephritis in rats. 283 37

A single intravenous injection of puromycin aminonucleoside (PAN) results in marked proteinuria and glomerular morphological changes that are similar to minimal change disease in humans. We examined the effect of hydroxyl radical scavengers and an iron chelator on PAN-induced proteinuria. PAN in a dose of 5 mg/100 g body wt significantly increased urinary protein by day 5 (saline: 15 +/- 2, N = 24: PAN: 63 +/- 17, N = 23, P less than 0.001); the proteinuria rapidly increased thereafter, reaching 216 +/- 34, N = 23 by day 7. Concurrent administration of hydroxyl radical scavengers dimethylthiourea, (DMTU 500 mg/kg followed by 125 mg/kg i.p. twice a day) and sodium benzoate (BENZ, 150 mg/kg followed by 125 mg/kg i.p. twice a day) starting the evening before PAN injection markedly reduced proteinuria throughout the course of the study (urinary protein, mg/24 hours on day 7, mean +/- SEM: PAN: 229 +/- 45, N = 15; PAN + DMTU: 30 +/- 5, N = 18; PAN + BENZ: 80 +/- 18, N = 16. Because of the participation of iron in biological systems to generate hydroxyl radical, we also examined the effect of deferoxamine (DFO, 30 mg/day), an iron chelator, on the PAN-induced proteinuria. Concurrent administration of DFO was also protective. In a second series of experiments, DMTU and DFO (administered as described above and then for two additional days after the PAN) provided marked protection even when they were stopped prior to the onset of proteinuria. The protective effects of two hydroxyl radical scavengers and iron chelator implicate an important role for hydroxyl radical in PAN-induced nephrotic syndrome.
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PMID:Evidence suggesting a role for hydroxyl radical in puromycin aminonucleoside-induced proteinuria. 284 72


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