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)

Anew model of thrombotic microangiopathy (TMA) was previously developed, and it was demonstrated that endothelial nitric oxide (NO) synthase (NOS) is upregulated in glomeruli in this model. It was hypothesized that the synthesis of NO, a potent vasodilator and platelet inhibitory factor, is induced as a defense mechanism. The goal of this study was to clarify the role of NO in this model. Ex vivo experiments using Western blotting and functional assays demonstrated upregulation of endothelial NOS in isolated glomeruli from TMA rats. In in vivo experiments, five groups of rats were studied, including rats with TMA treated with vehicle, N(G)-nitro-L-arginine methyl ester (L-NAME) (a NOS inhibitor), or L-N(6)-(1-iminoethyl)lysine (L-NIL) (a specific inducible NOS inhibitor) and normal control rats treated with vehicle or L-NAME. Blood urea nitrogen levels, BP, urinary nitrate/nitrite excretion, and proteinuria were measured. Histologic assessments using periodic acid-Schiff staining and immunohistologic studies with markers for endothelium, platelets, fibrin, cell proliferation, and apoptosis were also performed. L-NAME inhibition of NO synthesis in rats with TMA resulted in more severe glomerular and tubulointerstitial injury, which was accompanied by thrombus formation and a marked loss of endothelial cells, with more apoptotic cells. These changes were associated with severe renal function deterioration. In contrast, these features were less pronounced in the vehicle- or L-NIL-treated rats with TMA and were absent in the control animals. In conclusion, inhibition of NO production in this model of TMA markedly exacerbated renal injury. The absence of effects with L-NIL treatment suggests a minor role for inducible NOS in this model. These results suggest that production of NO, most likely by endothelial cells, is an important protective mechanism in TMA.
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PMID:Protective role of nitric oxide in a model of thrombotic microangiopathy in rats. 1156 7

A polymorphism in the ecto-nucleotide pyrophosphatase/phosphodiesterase 1 gene (ENPP1) (previously known as PC-1), resulting in an amino acid change from lysine to glutamine at codon 121 (K121Q), is associated with insulin resistance. A small follow-up study of patients with type 1 diabetes and proteinuria found that renal function declines more rapidly in carriers of the Q variant than in noncarriers. To examine this finding further, we conducted a large case-control study and a family-based study. Genomic DNA was obtained from 659 patients: 307 with normal urinary albumin excretion despite diabetes duration of >15 years (control subjects) and 352 with advanced diabetic nephropathy, of whom 200 had persistent proteinuria and 152 had end-stage renal disease (ESRD). Individuals were genotyped for Q and K variants using a previously described protocol. The frequency of Q variant carriers was 21.5% in control subjects, 31.5% in subjects with proteinuria, and 32.2% in subjects with ESRD (P = 0.012). In a stratified analysis according to duration of diabetes, the risk of early-onset ESRD for carriers of the Q variant was 2.3 times that for noncarriers (95% CI, 1.2-4.6). The Q variant was not associated with late-onset ESRD. Similar findings were obtained in a family-based study. We conclude that carriers of the Q variant of ENPP1 are at increased risk for developing ESRD early in the course of type 1 diabetes.
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PMID:Polymorphism in ecto-nucleotide pyrophosphatase/phosphodiesterase 1 gene (ENPP1/PC-1) and early development of advanced diabetic nephropathy in type 1 diabetes. 1191 43

Hyperalimentation solutions, with low protein content but rich in amino acids, have been more frequently used as a dietary treatment for renal terminal patients, with the purpose to increase their survival. However, the literature in this respect is contradictory. Some authors justify the use of amino acids due to the fact that they seem to regenerate damaged tubular cells (glycine, for example). Other authors, on the contrary, do not agree with this position, since some amino acids, like L-Serine and Lysine, are nephrotoxic. In 1977, it was demostrated that Lysine and Arginine inhibited protein tubular reabsorption, inducing proteinuria, while Glycine, Alanine, Asparagine and Glutamic Acid did not. In order to clarify this issue, we carried out a controlled animal study using uninephrectomized rats fed during nine weeks, with different hypoproteinic diets (4% protein content), enriched individually with five different amino acids. The hypoproteinic diets were enriched with Lysine and Arginine (essential amino acids) and Proline, Glutamic Acid and Asparagine (non essential amino acids). Assays for serum biochemical markers and renal function were carried-out pre-nephrectomy, two weeks after nephrectomy (post-nephrectomy control) and nine weeks post-diet for all the animals, no matter the diet to which they were subjected, the serum biochemistry results showed that all the hypoproteinic diets, enriched with amino acids, affected the renal function. The nephrotoxicity of the tested amino acids, followed this decreasing order: Glutamic Acid > Proline > Lysine > Asparagine > Arginine. hypoproteinic diets enriched with Lysine, Asparagine and Arginine, produced glomerular hyperfiltration, without proteinuria. In summary, our results point towards the idea that, contrarily to what has been described in the literature by some authors: enrichment of hypoproteinic diets with certain amino acids does not seem to protect against progression of renal disease in physiologically compromised kidneys.
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PMID:[Effect of hypoproteic diets enriched with essential and non-essential amino acids on the uninephrectomized rat ]. 1221 96

This study was carried out to elucidate whether the protective activity of (-)-epicatechin 3-O-gallate (ECg) against excessive peroxynitrite (ONOO(-)) production, is distinct from the activity of several well-known free radical inhibitors, the ONOO(-) inhibitors ebselen and uric acid, the superoxide anion (O(2)(-)) scavenger copper zinc superoxide dismutase (CuZnSOD) and the selective inducible nitric oxide synthase inhibitor L-N(6)-(1-iminoethyl)lysine hydrochloride (L-NIL). To generate ONOO(-), male Wistar rats (n = 6/group) were subjected to ischaemia-reperfusion process together with lipopolysaccharide (LPS) injection. Although ECg did not scavenge the ONOO(-) precursors nitric oxide (NO) and O(2)(-), it reduced the 3-nitrotyrosine level, a property similar to that of uric acid, but distinct from L-NIL. In addition, the elevation in myeloperoxidase activity was reversed by the administration of ECg, uric acid and SOD, but not by that of L-NIL. Furthermore, ECg was the more potent scavenger of the ONOO(-) decomposition product, the hydroxyl radical (*OH), than any other free radical inhibitor tested. The LPS plus ischaemia-reperfusion process resulted in renal dysfunction, estimated by measuring the parameters of renal function--serum urea nitrogen and creatinine levels. However, administration of ECg ameliorated renal dysfunction more than that of the other free radical inhibitors. Moreover, ECg reduced the excessive uric acid level, while the others did not, suggesting a property of ECg distinct from the others. Furthermore, proteinuria, which was demonstrated by the low- and high-molecular weight (LMW and HMW) protein bands of the sodium dodecyl sulfate-polyacrylamide gel electrophoresis pattern, caused by LPS plus ischaemia-reperfusion, was attenuated by administration of ECg and L-NIL, after which the HMW band intensities decreased and LMW protein bands were absent. This study indicates that, in an in-vivo model of ONOO(-) generation, ECg, L-NIL and uric acid exert stronger protective activity against ONOO(-)-induced oxidative damage than SOD and ebselen, and that the mechanism whereby ECg protects against ONOO(-) is distinct from that of L-NIL or uric acid.
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PMID:(-)-Epicatechin 3-O-gallate ameliorates the damages related to peroxynitrite production by mechanisms distinct from those of other free radical inhibitors. 1500 82

Advanced glycation end products (AGEs) have been associated with progressive vascular and renal damage in a variety of pathological conditions such as renal failure and diabetes mellitus. The formation of AGEs is generally attributed to increased oxidative and carbonyl stress or hyperglycemia. Activation of the cellular receptor of AGE (RAGE) leads to subsequent cellular activation and proinflammatory responses. Angiotensin (Ang) produces cellular oxidative stress and similarly promotes end organ damage via its type 1 receptor. We investigated the interrelation between these two systems in a new transgenic rat (TGR) model with Ang II-dependent hypertension and renal damage and in nontransgenic controls. TGR showed increased systolic blood pressure (approximately 210 mmHg), proteinuria, and increased renal collagen I mRNA expression compared with normotensive nontransgenic controls. Immunohistochemical staining of kidney sections showed colocalization for Nepsilon-carboxy(methyl)lysine, RAGE, and NF-kappaB in TGR glomeruli. These features were absent in nontransgenic controls. Our observations suggest a possible link between Ang II-dependent end-organ damage and the AGE/RAGE axis in vivo. TGRs provide an excellent model to study the interrelation between the renin-angiotensin system and the AGE/RAGE axis in promoting cardiovascular end-organ damage, which would otherwise not be possible in humans.
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PMID:Advanced glycation end products: a possible link to angiotensin in an animal model. 1603 93

Tissue transglutaminase (tTG) is a Ca(2+)-dependent enzyme which stabilizes the extracellular matrix (ECM) through post-translational modification, and may play an important role in the pathogenesis of focal and segmental glomerulosclerosis (FSGS). Here, we have investigated whether tTG contributes to the glomerular ECM expansion in the puromycin aminonucleoside (PAN)-injection-induced experimental rat model of FSGS. The localization and expression of tTG, MMP-9 gelatinase, and the ECM component fibronectin (FN) in kidneys was determined by immunohistochemistry and measured by semi-quantitative analysis. Protein levels of tTG and MMP-9 were also analyzed by Western blotting.In situtransglutaminase activity was assayed by measurement of incorporated substrate and the immunofluorescence staining for the cross-linking product, epsilon-(gamma-glutamyl) lysine. Prominent proteinuria, a typical pathological feature of FSGS, was observed in PAN injection group rats. tTG immunoreactivity was located markedly in glomeruli and the levels of this protein in whole-kidney homogenates of PAN injection group rats were significantly increased (361+/- 106% control, P< 0.05). Similarly, transglutaminase activity and epsilon-(gamma-glutamyl) lysine were also predominately located within glomeruli and were much more intense in the PAN-injected group than that in control animals. MMP-9 was also located primarily within glomeruli. In PAN-injected kidneys, protein levels of active MMP-9 were significantly reduced (59+/- 27% control, P< 0.01), while pro-MMP-9 levels increased (148+/- 42% control, P< 0.05). Remarkable expression of glomerular fibronectin (FN) was found in PAN injection group rats. Semi-quantitative analysis demonstrated this increased intensity of FN staining in the PAN-injected rats was 149+/- 23% of the control values (P< 0.05). Enhanced cross-linking of ECM by tissue transglutaminase and decreased degradation due to reduced active MMP-9 expression may be at least partially responsible for the deposition of FN within injured glomeruli in experimental FSGS.
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PMID:Increase in extracellular cross-linking by tissue transglutaminase and reduction in expression of MMP-9 contribute differentially to focal segmental glomerulosclerosis in rats. 1647 88

Intravenous infusion of basic amino acids is used experimentally and pharmacologically to prevent renal proximal tubular uptake of filtered proteins. Intravenously injected L-lysine is rapidly cleared from plasma and the effect on tubular protein reabsorption is transient. To obtain a more sustained effect, we developed a model of oral L-lysine administration and characterized this model by analyzing urinary protein excretion and proximal tubule uptake of filtered proteins. Rats placed in metabolic cages were treated with 20 mmol/kg/6 h of L-lysine, glycine, or water. Urines were analyzed for proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, immunoblotting, and radioimmunoassay. Proximal tubule uptake of proteins and expression of apical membrane receptors were investigated by immunocytochemistry. In vitro uptake and receptor expression were studied using a yolk sac cell line. L-lysine administration produced increased urinary excretion of a large number of proteins while the effect on tubular accumulation of selected proteins was variable. L-lysine treatment induced changes in the localization of two receptors responsible for tubular endocytosis of filtered proteins. In conclusion, oral L-lysine treatment induced proteinuria, in particular albuminuria, as efficiently as previous reports on intravenous infusion. The effect on tubular protein accumulation was variable suggesting differential effects on tubular reabsorption and degradation of filtered proteins. Changes in tubular protein handling were accompanied by changes in the localization of the endocytic receptors, megalin, and cubilin. In vitro experiments supported the in vivo observations. The findings suggest that L-lysine may affect receptor trafficking in addition to possible effects on the direct binding of ligands to the receptors.
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PMID:Characterization of proteinuria and tubular protein uptake in a new model of oral L-lysine administration in rats. 1650 56

Several lines of evidence suggest that both advanced glycation end products (AGEs) and oxidation processes play key roles in the physiology of aging and age-related pathologies, leading to irreversible proteins modifications in both tissues and the extracellular matrix. Such an accelerated accumulation of these modifications has been reported to be present in several age-related chronic diseases, such as atherosclerosis, diabetes, arthritis, and neurodegenerative diseases. The current literature reveals that the specific inhibition of AGEs may constitute an innovative therapeutic goal. In experimental animals, the use of sartans significantly reduces blood pressure and kidney pentosidine content, improving both histologic renal damage and proteinuria. In this study, 12 subjects who were affected by diabetes mellitus and hypertension were subjected to oral antihypertensive therapy with valsartan (class of sartans) with timed sampling of plasma and urine pentosidine, N(epsilon)-(carboxymethyl)lysine (CML), malondialdehyde, and isoprostanes levels, respectively, at baseline and after both 3 and 6 months, with parallel ongoing evaluation of glycemic control and blood pressure levels. Valsartan elicited a good antihypertensive effect with a 30% decrease in plasma pentosidine levels (P < .05) after 3 months of therapy, followed by a slight increase after 6 months. Urinary pentosidine concentrations exhibited a 40% decrease after 3 months (215 +/- 19 vs 129 +/- 23 nmol/24 h) and a further significant reduction after 6 months of therapy (105 +/- 24 nmol/24 h). Plasma CML levels showed a progressive decrease after 3 months (23.15 +/- 3.215 vs 19.88 +/- 1.684 micromol/mL) and achieved a further slight reduction after 6 months of therapy (19.48 +/- 1.339 micromol/mL); for urinary CML, a statistically significant reduction was gained after the sixth month of therapy (48.51 +/- 5.70 vs 30.30 +/- 2.77 micromol/24 h after 3 months and 27.02 +/- 4.13 micromol/24 h after 6 months; F = 7.62, P < .005). Plasma and urinary concentrations of malondialdehyde were slightly modified by valsartan treatment; the mean levels after both 3 and 6 months did not significantly differ from baseline. Urinary 15-F2t-isoprostanes (2.96 +/- 0.45 ng/24 h) levels displayed a progressive decrease after both 3 (2.27 +/- 0.31 ng/24 h) and 6 months (1.70 +/- 0.23 ng/24 h) with statistical significance achieved only at the end of the study (P < .05). The present data suggest interesting in vivo antiglycation and antioxidation effects of this angiotensin II receptor antagonist with reductions in plasma and urinary pentosidine, plasma CML, and urinary isoprostanes levels. The present study supports an antagonistic role of valsartan in the production of AGEs precursors through the chelation of transition metals and an antioxidant activity that scavenges reactive oxygen species. This property of valsartan may broaden the scope of newly developed pharmacologic inhibitors of advanced glycoxidation.
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PMID:Effects of valsartan therapy on protein glycoxidation. 1714 34

Previous investigations have demonstrated that Hachimi-jio-gan, a Chinese prescription consisting of eight crude drugs, has a therapeutic potential in diabetes and diabetic nephropathy, using these model rats. To add to these findings, we performed this study to assess whether one of the crude drugs, Corni Fructus (Cornus officinalis SIEB. et ZUCC.), had an effect on streptozotocin-induced diabetic rats as a major active constituent, compared with an inhibitor of advanced glycation end-product (AGE) formation, aminoguanidine. Diabetic rats were orally administrated Corni Fructus extract (50, 100, 200 mg/kg body weight/d) or aminoguanidine (100 mg/kg body weight/d). Treatment with Corni Fructus for 10 d suppressed hyperglycemia, proteinuria, renal AGE formation, and related protein expressions, i.e., receptor for AGEs, nuclear factor-kappaB, transforming growth factor-beta1, and Nepsilon-(carboxymethyl)lysine, in the same way as with aminoguanidine. However, improvement of renal function, shown via serum creatinine (Cr) and Cr clearance, was superior to aminoguanidine treatment. In conclusion, the present study supported the hypothesis that Corni Fructus plays an important role against diabetic pathogenesis, i.e., reducing glucose toxicities, up-regulating renal function, and consequently ameliorating glycation-associated renal damage; thus, this study may provide a new recognition of crude drugs to clarify the mechanisms of Chinese prescriptions.
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PMID:Beneficial effect of Corni Fructus, a constituent of Hachimi-jio-gan, on advanced glycation end-product-mediated renal injury in Streptozotocin-treated diabetic rats. 1732 49

Nitric oxide (NO) is important for the homeostasis of organ functions. We studied the structural and functional changes in the cardiovascular (CV) and renal systems following early NO deprivation by various nonspecific and specific NO synthase (NOS) inhibitors: N-nitro-L-arginine methyl ester (L-NAME), N-nitro-L-arginine (L-NA), S-methyl-isothiourea (SMT), and L-N6-(1-iminoethyl)-lysine (L-Nil). The aim is to elucidate the involvement of NO through endothelial or inducible NOS (eNOS and iNOS). Drugs were given to spontaneously hypertensive rats (SHR) and age-matched normotensive Wistar Kyoto rats (WKY) from a young age (5-wk-old). Physiological, biochemical, and pathological examinations were performed. L-NAME and L-NA treatment caused a rapid increase in tail cuff pressure (TCP). The TCP of SHR reached a malignant level within 30 days with signs of stroke, proteinuria [corrected] severe glomerular sclerosis, and moderate ventricular hypertrophy (VH). The plasma nitrite/nitrate was reduced, while creatinine, urea nitrogen and uric acid were elevated. The renal tissue cyclic guanosine monophosphate (cGMP) was decreased with an elevated collagen content. The numbers of sclerotic glomeruli, arteriolar and glomerular injury scores were markedly increased, accompanied by reduction in renal blood flow, filtration rate, and fraction. Plasma endothelin-1 was increased following L,-NAME or L-NA treatment for 10 days. The expression of eNOS and iNOS mRNA was depressed by L-NAME and L-NA. The relevant iNOS inhibitors, SMT and L-Nil depressed the iNOS expression, but did not produce significant changes in CV and renal systems. The continuous release of NO via the eNOS system provides a compensatory mechanism to prevent the genetically hypertensive rats from rapid progression to malignant phase. Removal of this compensation results in VH, stroke, glomerular damage, renal function impairment, and sudden death.
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PMID:Malignant alterations following early blockade of nitric oxide synthase in hypertensive rats. 1844 11

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