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)

Glomerular epithelial cells (GECs) in vitro provide a useful model for the study of the mechanism(s) underlying the nephrotic syndrome of rats induced by the aminonucleoside of puromycin (PAN). Some of the toxicities of PAN are nonspecific, in that the constituent molecules of PAN (adenosine and puromycin) cause similar effects in vitro. These include GEC blebbing and rounding, reduced uptake of precursors of protein (leucine) and glycoprotein (glucosamine) synthesis, and increased permeability of the GEC membrane to adenosine. Some of the effects of PAN are not reproduced by adenosine or puromycin and are inhibited by the simultaneous presence of N6-monomethyl adenosine (MMA), a PAN analog and an in vivo blocker of nephrosis due to PAN. These processes may be related to the nephrotic syndrome and include the loss of adhesion to plastic; a reduction in the incorporation of 14C-glucosamine and 35S-sulfate both into molecules removable from the GEC surface by neuraminidase and into those moieties precipitated from the culture media by TCA; a marked reduction in the "ordering" of the lipids of the rigid GEC membrane, which is possibly dependent upon cell-surface proteins. These morphologic alterations in GECs and in the distribution of negatively charged molecules, which are either secreted or on the cell surface, correlate with observations made in PAN-induced nephrosis in rats in vivo. These include changes in the turnover and the array of sialic acid and heparan sulfate glycoprotein on the GECs and the glomerular basement membrane. The in vitro sensitivity of GECs to PAN and the effects of MMA suggest a role for these cells in in vivo aminonucleoside nephrotoxicity, where alterations in both the morphology and the anionic topology of GECs participate in the development of proteinuria.
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PMID:Effects of the aminonucleoside of puromycin on glomerular epithelial cells in vitro. 397 43

Scanning electron microscopy was used to study the morphologic characteristics of erythrocytes in women with preeclampsia and eclampsia. In nine nulliparous women with eclampsia, the proportion of abnormal red cells (schistocytes, echinocytes, and spherocytes) was significantly greater than in 12 normally pregnant control women (p less than 0.001). Likewise, the proportion of these abnormal erythrocyte forms was significantly greater in 12 nulliparous women with preeclampsia than in 25 normally pregnant control women (p = 0.009). Six women with mild pregnancy-induced hypertension without proteinuria were studied before and after magnesium sulfate therapy had been given, and no differences in the proportion of abnormal erythrocyte forms were found. Evidence for microangiopathic hemolysis, manifest by reticulocytosis and thrombocytopenia, was apparent with eclampsia, although only reticulocytosis was identified in women with preeclampsia. There was evidence for hepatic dysfunction in more than half of the women with eclampsia, and in nearly one third of those with preeclampsia. We speculate that compositional changes in the membrane, induced by plasma/erythrocyte lipid interchanges, which are predisposed by normal pregnancy and amplified by severe preeclampsia, especially in the presence of liver dysfunction, may have participated in the genesis of the red cell abnormalities observed. Furthermore, these abnormalities in the cell membrane may increase erythrocyte susceptibility to microangiopathic hemolysis.
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PMID:Erythrocyte morphology in women with severe preeclampsia and eclampsia. Preliminary observations with scanning electron microscopy. 405 Sep 10

The cationic ultrastructural tracer polyethyleneimine (PEI: pI approximately equal to 11.0), binds electrophysically to uniformly spaced discrete electron-dense anionic sites present in the laminae rarae of the rat glomerular basement membrane (GBM), mesangial reflections of the GBM, Bowman's capsule, and tubular basement membranes when administered intravenously. Computer-assisted morphometric analysis of glomerular anionic sites reveals that the maximum concentration of stainable lamina rara externa (lre) sites (21/10,000 A GBM) occurs 60 minutes after PEI injection with a site-site interspacing of 460 A. Lamina rara interna (lri) sites similarly demonstrate a maximum concentration (20/10,000 A GBM) at 60 minutes with a periodicity of 497 A. The concentration and distribution of anionic sites within the lri was irregular in pattern and markedly decreased in number, while the lre possesses an electrical field that is highly regular at all time intervals analyzed (15, 30, 60, 120, 180, 240, and 300 minutes). Immersion and perfusion of renal tissue with PEI reveals additional heavy staining of the epithelial and endothelial cell sialoprotein coatings. PEI appears to bind to glomerular anionic sites reversibly: ie, between 60 and 180 minutes the concentration of stained sites decreases. At 300 minutes, the interspacing once again approaches the 60-minute concentration. This suggests a dynamic turnover or dissociation followed by a reassociation of glomerular negatively charged PEI binding sites. In contrast, morphometric analysis of anionic sites stained with lysozyme and protamine sulfate reveals interspacings of 642 A and 585 A, respectively; in addition, these tracers produce major glomerular ultrastructural alterations and induce transient proteinuria. PEI does not induce proteinuria in rats, nor does it produce glomerular morphologic alterations when ten times the tracer dosage is administered intravenously. These findings indicate that the choice of ultrastructural charge tracer, the method of administering the tracer, and the time selected for analysis of tissue after administration of tracer significantly influences results. Morphometric analysis of the distribution of glomerular anionic sites in nonproteinuric rats provides a method of evaluating quantitative alterations of the glomerular charge barrier in renal disease models.
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PMID:Glomerular anionic site distribution in nonproteinuric rats. A computer-assisted morphometric analysis. 407 20

Lowe's syndrome (oculo-cerebro-renal syndrome) has been studied biochemically. The disease was characterized by proteinuria, sialic aciduria and the excretion of undersulfated chondroitin sulfate A due mainly to malfunction of renal tubules. However, cultured skin fibroblasts from patients were found also to produce markedly undersulfated glycosaminoglycans. The undersulfation was caused by depressed sulfation rather than by increased desulfation. Subsequent studies have revealed that degradation of active sulfate (adenosine 3'-phosphate 5'-phosphosulfate, PAPS) was markedly elevated in the cells from patients whereas PAPS biosynthesis or sulfate transfer of sulfate from PAPS to glycosaminoglycan acceptors were normal. The enzyme involved in PAPS degradation was then identified as a nucleotide pyrophosphatase which is capable of degrading various nucleotides. The level of the enzyme activity in patients' cells was about ten times higher than that in normal cells and the level in heterozygotes were intermediate between patients and normal individuals. It was suggested that Lowe's syndrome is caused by elevation of biosynthesis of a nucleotide pyrophosphatase having a capacity to degrade PAPS due to a defect in regulating the enzyme synthesis.
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PMID:Biochemical studies on Lowe's syndrome. 613 83

The effects of plasma volume expansion with hyperosmolar solutions with the use of dextran 40 and plasmanate were studied in a controlled manner in 32 primiparous pre-eclamptic patients. The patients who were being studied received either dextran 40 (Rheomacrodex) or plasmanate in addition to the routine treatment with sedatives, bed rest, and magnesium sulfate when indicated. The patients were randomly assigned by blind draw to control (13), dextran (10), and plasmanate (nine) groups. The renal status of all patients was evaluated prior to volume expansion therapy. Patients were monitored for blood pressure, proteinuria, output of urine, hematocrit, and creatinine clearance. There was significant improvement in hemoconcentration and output of urine, and a trend toward a lowering of the mean arterial blood pressure in patients who were receiving plasmanate or dextran for volume expansion.
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PMID:Plasma volume expansion in the treatment of pre-eclampsia. 615 61

The glycosaminoglycan (heparan sulfate) component of glomerular basement membranes from human kidneys of diabetic and nondiabetic subjects has been quantitated after isolation from protease digests of the membranes on DEAE-cellulose microcolumns. A significant decrease (P less than 0.005) in the glycosaminoglycan content of diabetic membranes was observed. Heparan sulfate was identified as the predominant glycosaminoglycan in both diabetic and control subjects and the extent of its sulfation appeared to be similar. The reduced level of glycosaminoglycan in the diabetic glomerular basement membrane was accompanied by a significant elevation of hexoses, which are primarily associated with the collagen component, suggesting that a redistribution of basement membrane macromolecules occurs in the diabetic state. Since heparan sulfate has been implicated as a major component of the glomerular anionic filtration barrier, its decreased content in diabetic basement membranes may contribute to the proteinuria observed in this disease.
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PMID:Effect of diabetes on the glycosaminoglycan component of the human glomerular basement membrane. 621 21

125Iodinated human beta 2 microglobulin (beta 2m, 5 to 30 mg) was administered to anesthetized rats. Clearance studies showed a low threshold of excretion of injected beta 2m and a high Tm of 400 to 600 micrograms X min-1 X kg-1. A glomerular sieving coefficient of 0.97 was calculated as the slope of the curve: beta 2m excretion rate = F (plasma beta 2m X glomerular filtration rate) for values above saturation. Electrophoresis analysis of proteinuria in agarose gel and sodium dodecyl sulfate polyacrylamide gel showed that injection of saturating doses of beta 2m induced the excretion of proteins of similar size but different charge and that of other proteins of different size. Among the latter, some were excreted transiently in association with beta 2m, whereas others had a delayed excretion suggesting existence of a complex mechanism of reabsorption whose steps remain to be elucidated.
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PMID:Renal tubular absorption of beta 2 microglobulin. 638 54

Aqueous solutions of the cisplatin analog aqua(1,1-bis(aminomethyl)-cyclohexane)sulfatoplatinum(II) (TNO-6, spiroplatin) principally contain hydrolyzed and oligomerized molecules. Sodium sulfate reduces the hydrolysis of the sulfato ligand. We investigated the influence of the equilibrium state on nephrotoxicity of spiroplatin in rats receiving 3 doses of 3 mg/kg with an interval of 8 days. Rats (n = 6) treated with spiroplatin solubilized in isoosmotic sodium sulfate (impaired hydrolysis) showed less toxicity as measured by proteinuria, platinum excretion and body weight, than the group treated with spiroplatin solubilized in 5% glucose. This result indicates that the presence of hydrolysis products plays a role in the toxicity of spiroplatin.
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PMID:Influence of hydrolysis products of aqua(1,1-bis(aminomethyl)cyclohexane)sulfatoplatinum(II) on toxicity in rats. 654 26

In the present study in Munich-Wistar rats during the initial stages of autologous immune complex nephritis (protein excretion 3 to 50 mg/24 hours) we examined the sequential changes in binding of cationized ferritin to anionic sites, as well as alterations in staining with colloidal iron of podocyte membrane sialoglycoprotein and correlated these with changes in glomerular basement membrane permeability to native ferritin. The results are compared with those obtained from rats with advanced autologous immune complex nephritis (protein excretion 100 to 350 mg/24 hours) and with normal control rats. The formation of the smallest detectable immune complex deposits was associated with a concomitant decrease in binding of cationized ferritin to anionic sites in the lamina rara externa in the area of the deposits. This was accompanied by a diminution in staining by colloidal iron of the epithelial cell coat overlying the deposits. The staining of the remainder of the epithelial cell glycocalyx, however, remained unaltered even in the presence of severe proteinuria. Alterations in the permeability of the glomerular basement membrane to native ferritin could not be documented until protein excretion exceeded 10 mg/24 hours. The gradual loss of staining of the epithelial cell glycocalyx adjacent to immune complexes supports the concept that, as immune complexes are formed in situ by the interaction of antibodies with a glycoprotein present on the epithelial cell surface, they are shed and gradually accumulate in the lamina rara externa. Furthermore, as the immune complex deposits enlarge they destroy and/or mask the heparan sulfate anionic sites in the lamina rara externa resulting in a decreased number of anionic binding sites for cationized ferritin.
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PMID:Alterations in glomerular anionic sites in autologous immune complex nephritis. 662 Sep 83

Cadmium metallothionein (CdMT) nephrotoxicity was studied in rats injected i.p. with a single nonlethal dose of CdMT (0.6 mg of Cd per kg). Within 8 hr of CdMT injection, urine volume and urine sodium excretion were increased and sodium dodecyl sulfate gel electrophoresis of urine proteins showed that elevated levels of low molecular weight proteins were present in the urines of CdMT-treated rats. Urine RNAase activity was also elevated, approximately 7-fold, by CdMT but not by zinc metallothionein (ZnMT) or lysozyme at equivalent protein doses, demonstrating that a proteinuria indicative of proximal tubule cell dysfunction develops as an early response to CdMT exposure. Ultrastructural alterations were also present in animals injected with CdMT but not ZnMT or lysozyme. The earliest alterations occurred in the lysosome compartment of the cell. By 1 hr, the number of small lysosomes in renal proximal convoluted tubule cells increased significantly with no changes in other organelle compartments. By 4 and 8 hr, there was a further increase in lysosome number with a concomitant decrease in size and a marked increase in the number of small clear apical vacuoles. Lysosomal cathepsin D activity was decreased at 4 and 8 hr after CdMT injection, and in vitro studies indicated that this effect was not due to a direct inhibition of the enzyme by Cd++ or CdMT. Thus, both lysosome size and protease activity were rapidly altered by CdMT exposure. Studies of Cd binding in the kidney suggest that non-MT-bound Cd is an important factor in CdMT-associated toxicity. Approximately 97% of the Cd present in the cytoplasm at 1 hr was non-MT-bound. Prior induction of renal MT by treatment with zinc (20 mg of Zn per kg as ZnSO4, i.p. 16 hr before CdMT injection) markedly reduced non-MT binding of Cd++ in kidneys of treated animals and inhibited the alterations in urine volume and low molecular weight protein reabsorption induced by CdMT. These data suggest that acute CdMT exposure provides an excellent system for studying the mechanism of cadmium tubular proteinuria and that the intracellular renal MT pool plays a key role in regulating this process.
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PMID:Cadmium-Metallothionein nephropathy: relationships between ultrastructural/biochemical alterations and intracellular cadmium binding. 670 45


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