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)

In patients with proteinuria, indices of tubular damage are unreliable since filtered plasma enzymes could contribute to tubular enzymuria. Previous work has suggested the existence of various forms of the 'A' isoenzyme of N-acetyl-beta, D-glucosaminidase (NAG), one of which could be kidney specific and thus a useful marker of renal tubular damage. By using fast protein liquid chromatography, two forms of the 'A' isoenzyme, 'A1' and 'A2' were separated in human urine, plasma and kidney tissue. The isoenzyme profile in pathological urine resembled that seen in kidney tissue, the 'A2' isoenzyme predominating. The ratio A2/A1 in the urine of renal patients was significantly greater than in the plasma of renal patients, end-stage renal failure patients and healthy volunteers. There was no difference in the plasma ratios of the three groups studied. The clearances of total NAG, 'A1' and 'A2' isoenzymes were all greater than that of the lower molecular weight protein transferrin. This indicates that the origin of urinary NAG in patients with proteinuria is from the kidney itself. Thus, analysis of urinary NAG and its isoenzymes may be of benefit as an early predictor of renal tubular damage and may also be useful as a non-invasive indicator of disease progression.
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PMID:Origin and significance of urinary N-acetyl-beta, D-glucosaminidase (NAG) in renal patients with proteinuria. 893 56

In progressive renal disease the degree of renal failure correlates with interstitial scarring and the rate of progression correlates with the degree of proteinuria. This has led to the hypothesis that proteinuria may cause interstitial scarring. Human tubular cells (HTC) grown on permeable membrane supports were characterized to be predominantly of proximal tubular origin. HTC produce the matrix protein fibronectin in a polarised fashion the ratio of basolateral to apical secretion being 2.9 +/- 0.2 at 48 hours. The addition of serum proteins (1.0 mg/ml) to the apical medium resulted in increased basolateral secretion of fibronectin, 2.62 +/- 0.23-fold after 24 hours and 2.40 +/- 0.16-fold after 48 hours. Serum fractionation revealed that the stimulant to fibronectin production had a molecular weight 40 to 100 kDa. Platelet derived growth factor secretion was also stimulated to apical exposure to serum but transforming growth factor beta secretion was not detected. Addition of neutralizing anti-PDGF antibodies did not decrease fibronectin secretion. The activity of serum was not reproduced by albumin or by transferrin. Exposure of HTC to serum resulted in increased release of lactate dehydrogenase, suggesting a degree of cytotoxicity. This evidence could provide a mechanism for the link between proteinuria and interstitial scarring.
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PMID:Fibronectin production by human tubular cells: the effect of apical protein. 898 25

The Modification of Diet in Renal Disease (MDRD) Study examined the effects of dietary protein restriction and strict blood pressure control on the decline in glomerular filtration rate (GFR) in 840 patients with diverse renal diseases. We describe a systematic analysis to determine baseline factors that predict the decline in GFR, or which alter the efficacy of the diet or blood pressure interventions. Univariate analysis identified 18 of 41 investigated baseline factors as significant (P < 0.05) predictors of GFR decline. In multivariate analysis, six factors--greater urine protein excretion, diagnosis of polycystic kidney disease (PKD), lower serum transferrin, higher mean arterial pressure, black race, and lower serum HDL cholesterol--independently predicted a faster decline in GFR. Together with the study interventions, these six factors accounted for 34.5% and 33.9% of the variance between patients in GFR slopes in Studies A and B, respectively, with proteinuria and PKD playing the predominant role. The mean rate of GFR decline was not significantly related to baseline GFR, suggesting an approximately linear mean GFR decline as renal disease progresses. The 41 baseline predictors were also assessed for their interactions with the diet and blood pressure interventions. A greater benefit of the low blood pressure intervention was found in patients with higher baseline urine protein. None of the 41 baseline factors were shown to predict a greater or lesser effect of dietary protein restriction.
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PMID:Predictors of the progression of renal disease in the Modification of Diet in Renal Disease Study. 918 82

More negatively-charged proteins are harder to pass through the glomerular charge barrier (GCB) and to be reabsorbed by renal tubules. Although the glycation of albumin increases its negative charge compared to non-glycated albumin, the glycation of transferrin does not change its charge. This difference enabled us to examine the charge-dependent renal function in diabetic proteinuria. The percentage of urinary glycated transferrin (serum %G-transferrin) positively correlated with serum fructosamine concentrations and the percentage of serum glycated albumin (serum %G-albumin) in all subjects. Urinary concentrations of transferrin and beta 2-microglobulin strongly correlated in diabetic patients with microproteinuria, while no significant correlation was observed in subjects with diabetic macroproteinuria or non-diabetic proteinuria. Urine/serum (U/S) ratio of %G-albumin in the patients with diabetic proteinuria was significantly lower than that in subjects with non-diabetic proteinuria, while no difference of the U/S ratio of %G-transferrin was observed between any groups. Furthermore, U-%G-transferrin/U-%G-albumin ratio was highest in the diabetic patients with microproteinuria. These results lead to the conclusion that the initial damage in diabetic kidney causing microproteinuria starts with the dysfunction of charge-dependent tubular reabsorption prior to a loss of GCB.
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PMID:Damage of charge-dependent renal tubular reabsorption causes diabetic microproteinuria. 918 9

Experimental studies have pointed to charge selectivity as an important determinant of glomerular permeability to macromolecules. Loss of glomerular basement membrane (GBM) polyanion has been proposed as a cause of the selective proteinuria in minimal change nephrotic syndrome (MCNS). However, the presence of less-anionic albumin in urine than plasma from MCNS and focal and segmental glomerulosclerosis (FSGS) patients has been interpreted both as evidence for partial maintenance of charge selectivity and for involvement of other pathogenic mechanisms. The exact role of charge selectivity in the pathogenesis of nephrotic proteinuria remains controversial. We have examined the clearance of endogenous proteins of differing size and charge in children with idiopathic nephrotic syndrome (NS). Chromatofocusing was used to determine the isoelectric points (pIs) of albumins in paired plasma and urine samples from patients with FSGS (n = 6) and MCNS (n = 6). Charge selectivity was assessed by comparing the pIs of the fractions with the highest albumin concentration (model pI) in plasma and urine. The difference between the modal pIs was defined as the delta modal pI. Charge selectivity was also assessed from the albumin/transferrin and IgG4/IgG1 clearance ratios; size selectivity from the IgG1/albumin and IgG1/transferrin as well as the IgG4/albumin and IgG4/transferrin clearances. In children with FSGS, the mean (+/-SD) delta modal pI was -0.05 +/- 0.16, and in MCNS -0.05 +/- 0.11. Neither value differed significantly from zero. The albumin/transferrin clearance ratio showed no significant difference between FSGS and MCNS, but the IgG4/IgG1 clearance ratio was significantly higher in MCNS (P < 0.05). Size selectivity was significantly reduced in FSGS compared with MCNS (for IgG1/transferrin P < 0.01 and for IgG1/albumin P < 0.05). For IgG4/transferrin and IgG4/albumin, P was < 0.05. In conclusion, there was no evidence for residual charge selectivity in idiopathic NS associated with either MCNS or FSGS during nephrotic-range proteinuria. There was a significant loss of GBM size selectivity in children with FSGS with heavy proteinuria compared with children with MCNS with heavy proteinuria.
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PMID:Charge and size selectivity of proteinuria in children with idiopathic nephrotic syndrome. 926 Feb 34

Cytokines play a pivotal role in synthesis and deposition of extracellular matrix in chronic renal failure (CRF). The proinflammatory properties of monocyte chemoattractant protein (MCP)-1 make it an ideal candidate cytokine for the production of interstitial inflammation in CRF. To investigate the possible role of proteinuria in inducing proximal tubular (PT) MCP-1, MCP-1 mRNA levels were measured by Northern blot and reverse transcription PCR in confluent monolayers of PT cells in primary culture in media containing a variety of proteins. PT cells produced MCP-1 mRNA in response to bovine serum albumin (BSA), delipidated BSA (dBSA; 0.5 to 30 mg/ml), holotransferrin, and apotransferrin (1 to 8 mg/ml). Unstimulated PT cells expressed very low levels of MCP-1 mRNA, detectable by reverse transcription PCR but not by Northern blot. The expression of MCP-1 mRNA reached a peak (sixfold greater than control) within 4 h of exposure to dBSA and was maintained for at least 24 h with continued exposure. Removal of dBSA from the media led to a rapid decline in MCP-1 mRNA expression. dBSA-induced MCP-1 expression was inhibited by lysine, an inhibitor of protein uptake, and reproduced by dBSA purified by gel and size-selective filtration. dBSA influenced MCP-1 expression at the level of transcription and probably translation, as evidenced by abrogation of MCP-1 by actinomycin D and superinduction with the protein synthesis inhibitor cycloheximide. The concentration of MCP-1 protein in response to dBSA added to the apical surface of PT cells was 2.4-fold greater in basolateral than in apical media, indicating basolateral secretion of MCP-1 protein. In summary, PT cell MCP-1 mRNA and protein expression are upregulated by albumin and transferrin, in concentrations similar to those of proteinuric urine. This effect could explain the link between proteinuria and interstitial inflammation in CRF.
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PMID:Induction of monocyte chemoattractant protein-1 in proximal tubule cells by urinary protein. 933 81

Clinical and experimental data have indicated that heavy proteinuria in renal glomerular diseases is associated with the formation of tubulointerstitial fibrosis and contributes to the progression of renal failure. In recent years studies have focused on the possibility that albumin and other proteins that accumulate in the lumen of proximal tubular cells as a consequence of glomerular permeability dysfunction, are a direct cause of tubular cell injury. Specific proteins that have been shown to be cytotoxic are transferrin/iron, lipoproteins and complement components, all of which appear in the urine in proteinuric states. As an additional pathway of injury one may consider the effects of lipids bound to albumin and lipoproteins, including oxidized low density lipoproteins, which, by inducing an oxidative stress to tubular cells, are potent cytotoxic molecules. Moreover, reabsorption of high molecular weight proteins activates proximal tubular cells to produce matrix proteins, cytokines, chemoattractants and vasoactive mediators that may-converge in stimulating interstitial inflammation and scarring. Given the functional toxicity of filtered proteins on the kidney, pharmacological and dietary manipulations aimed at reducing glomerular protein traffic may have a beneficial impact on the deterioration of renal function in progressive nephropathies.
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PMID:Role of increased glomerular protein traffic in the progression of renal failure. 935 Jun 74

Combined pancreas-kidney transplantation has been introduced in the treatment of patients with type 1 diabetes and renal failure 20 years ago. By 1985 374 combined pancreas-kidney transplantations had been reported to the International Pancreas Transplant Registries. Surgical drainage of the transplanted exocrine pancreas into the urinary bladder solves most of the postoperative problems encountered with the exocrine secretions. Furthermore, monitoring of pancreatic enzyme (amylase) activity in urine has been shown to be useful in diagnosis of rejection of the pancreatic graft. However, little attention has been paid to the biochemical consequences of high activities of proteolytic pancreatic enzymes on the determination of urinary proteins. The present case illustrates the difficulties in interpreting proteinuria in patients with combined pancreas-renal transplant with pancreaticocystostomia. In the propositus, interpretation of the urinary protein electrophoresis is hampered by the presence of pancreatic juice proteins and peptides originating from digestion of proteins by activated pancreatic enzymes. Results of immunochemically determined marker proteins ([micro]albumin, transferrin, beta 2-microglobulin) are unreliable due to digestion by pancreatic enzymes.
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PMID:Difficulties in evaluating urinalysis following combined pancreas-kidney transplantation. 936 5

1. Proximal tubular cell dysfunction in chronic glomerular disease (CGD) has been ascribed, in part, to reabsorption of transferrin-iron from tubular fluid and subsequent cytosolic peroxidative injury. To investigate a possible role for altered mitochondrial function in tubular cell injury in CGD, renal cortical mitochondrial respiratory function was examined in rats with adriamycin nephrosis. 2. State 4 (resting) respiration was increased in adriamycin nephrosis in comparison with control (51 +/- 2 vs 43 +/- 2 ng atoms oxygen (O)/min per mg protein, respectively; P < 0.02). 3. Mitochondrial iron concentration was increased in nephrotic rats compared with control (9.52 +/- 0.70 vs 5.97 +/- 0.26 nmol Fe/mg protein, respectively; P < 0.001) and rates of state 3, state 4 and uncoupled respiration and the severity of proteinuria correlated with mitochondrial iron concentration. 4. To further define the relationship between mitochondrial iron accumulation and altered respiratory function, rats were loaded with iron. 5. In comparison with control, acute iron loading of normal rats impaired creatinine clearance (1.48 +/- 0.02 vs 0.40 +/- 0.29 mL/min), increased kidney weight (1.33 +/- 0.07 vs 1.74 +/- 0.14 g) and impaired mitochondrial enzyme activity (e.g. cytochrome oxidase 185.0 +/- 46.6 vs 362.0 +/- 32.8 delta log [cytochrome C]/min per mg protein; P < 0.05), but had no significant effect on rates of mitochondrial respiration or on mitochondrial fragility. 6. Mitochondrial iron concentration was not increased by iron loading, despite a similar increment in cytoplasmic iron to that seen in rats with adriamycin nephrosis. 7. In summary, resting mitochondrial respiration is increased in nephrotic rats in proportion to mitochondrial iron accumulation. Changes in mitochondrial oxygen consumption do not appear to be a primary event in the tubular cell injury of iron loading.
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PMID:Mitochondrial function in rat renal cortex in response to proteinuria and iron. 940 56

To avoid renal loss of large amounts of proteins, filtered proteins are reabsorbed by endocytosis along the proximal tubule. However, although protein reabsorption is a task of proximal tubular cells, it is also a threat because it may cause cell injury. This study determines whether exposure to bovine serum albumin (BSA) leads to regulatory changes in endocytosis of FITC-BSA in proximal tubule-derived opossum kidney cells. Preincubation with BSA led to a decrease of FITC-BSA endocytosis with an IC50 value of 0.58 g/L. Specific binding of FITC-BSA to the apical membrane was also reduced (IC50 = 0.69 g/L). Kinetic analyses revealed that maximal uptake rate and maximal binding capacity were decreased with no change in affinity. Similar effects were observed after preincubation with equimolar amounts of other proteins (lactalbumin, transferrin, and conalbumin), but not after preincubation with dextran. The effect of preincubation with BSA could be mimicked by preincubation with some amino acids. Preincubation with L-Ala, L-Gln, or NH4Cl, but not with L-Leu, L-Glu, or L-Asp, reduced FITC-BSA endocytosis and binding. Preincubation with BSA, but not with dextran, reduced protein degradation and increased ammonia production, vesicular pH, as well as the rate of lactate dehydrogenase release. Apical fluid-phase endocytosis and apical uptake of neutral amino acids were not reduced. It is concluded that proximal tubular cells reduce the uptake rate for proteins, but not for other substrates, in response to increased protein load. This reduction is achieved by reducing the number of apical binding sites, partially in response to increased ammoniagenesis with deranged vesicular pH and enzyme activities. Thus, increased protein filtration could result in reduced protein reabsorption, thereby enhancing proteinuria.
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PMID:Long-term protein exposure reduces albumin binding and uptake in proximal tubule-derived opossum kidney cells. 962 Dec 78

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