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)

Nephrotic syndrome is characterized by marked urinary excretion of albumin and other intermediate-size plasma proteins. This results in a profound alteration of the metabolism of many plasma proteins and protein-bound substances, as well as certain cellular and tissue proteins. This review summarizes available data on the effect of nephrotic syndrome on the metabolism and regulation of erythropoietin (EPO) and transferrin, which are essential for erythropoiesis. Studies of humans and animals have documented significant urinary losses of both EPO and transferrin in nephrotic syndrome. Urinary losses of EPO have been shown to cause EPO-deficiency anemia and prevent the normal increase in plasma EPO level in response to anemia and hypoxia in nephrotic syndrome. Similarly, transferrinuria and increased transferrin catabolism have been shown to cause hypotransferrinemia and, in some cases, iron-deficiency anemia. In addition, dissociation of iron from filtered transferrin, occasioned by a reduction in tubular fluid pH, can promote tubulointerstitial injury through the iron-catalyzed generation of oxygen free radicals. This can account in part for the role of proteinuria as a risk factor for the progression of renal disease. Subcutaneous administration of recombinant EPO has been successfully used in the management of EPO-deficiency anemia in nephrotic syndrome. Similarly, iron supplementation and nutritional support are indicated in nephrotic patients with severe transferrinuria and iron-deficiency anemia. However, correction or amelioration of the underlying proteinuria, when possible, is the ideal approach to reversal of these complications.
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PMID:Erythropoietin and transferrin metabolism in nephrotic syndrome. 1143 Nov 74

Antioxidants of the vitamin E family have protective effects against metal toxicity. We examined the protective effect of racemic LLU-alpha [2,7,8-trimethyl-2-(carboxyethyl)-6-hydroxychroman] a metabolite of gamma-tocopherol, in comparison to the effect of alpha- and gamma-tocopherol in rats treated with sodium dichromate (Cr) or thallium sulfate (Tl). We measured metal nephrotoxicity based on urinary protein excretion and discussed it with respect to the metal concentration in renal tissue. The ranking of antioxidant activity (iron stimulated lipid peroxidation, luminol and lucigenin amplified chemiluminescence) was determined in the following order: alpha-tocopherol<gamma-tocopherol<LLU-alpha. Pretreatment with LLU-alpha produced lower chromate nephrotoxicity than alpha- or gamma-tocopherol, but did not influence Cr concentration in renal tissue. The protective effect of LLU-alpha against Cr toxicity seemed to be caused by its stronger antioxidant activity in comparison to alpha- and gamma-tocopherol. Pretreatment with LLU-alpha resulted in lower thallium-induced proteinuria, a lower concentration of Tl in the renal medulla, and higher urinary Tl excretion. Unlike LLU-alpha, which has been shown to inhibit K(+) channels in the apical membrane of the thick ascending limb of Henle's loop, we found that gamma-tocopherol did not. This finding reaffirmed the similarity between K(+) and Tl(+) and also explained the significantly decreased Tl concentration in the renal medulla in rats treated with LLU-alpha. We speculate that the protective effect of LLU-alpha against Tl nephrotoxicity is caused both by its antioxidant effect and, at least in part, by its ability to decrease Tl concentration as a consequence of inhibited Tl(+) uptake through K(+) channels. This finding confirmed the similarity between K(+) and Tl(+) and also explained the significantly decreased Tl concentration in the renal medulla in rats treated with LLU-alpha.
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PMID:LLU-alpha, an endogenous metabolite of gamma-tocopherol, is more effective against metal nephrotoxicity in rats than gamma-tocopherol. 1148 60

About half of all the patients with CHF are anemic (they have a hemoglobin of < 12 g%). The prevalence and severity of this anemia increase with increasing severity of the CHF. The anemia is caused by a combination of poor nutrition, associated renal insufficiency causing inappropriately low Erythropoietin (EPO) levels, bone marrow depression and EPO resistance caused by excessive TNF alpha and other factors, gastrointestinal blood loss caused by aspirin, ACE inhibitors, EPO loss in the urine with proteinuria, and hemodilution caused by the excessive plasma volume. Studies have shown that the anemia is an independent risk factor for death in CHF, almost doubling the mortality rate. Correction of the anemia with subcutaneous EPO and IV iron improves cardiac function and functional capacity, helps prevent the progression of renal failure, markedly reduces hospitalization and diuretic doses, and improves self assessed quality of life. This so-called Cardio Renal Anemia Syndrome is very common in CHF. Its successful treatment demands close cooperation between cardiologists and nephrologists.
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PMID:The importance of anemia and its correction in the management of severe congestive heart failure. 1245 37

A 28-year-old female presented for evaluation of left flank pain and polyuria after having been exposed to cadmium in the jewelry manufacturing industry for approximately 3 years. This patient possessed both elevated 24-hr urinary ss2-microglobulin and elevated blood cadmium levels. Approximately 6 months after initial presentation, the patient resigned from her job due to shortness of breath, chest pain, and anxiety. Exposure to cadmium in the jewelry industry is a significant source of occupational cadmium exposure. Other occupational sources include the manufacture of nickel-cadmium batteries, metal plating, zinc and lead refining, smelting of cadmium and lead, and production of plastics. Cadmium is also an environmental pollutant that accumulates in leafy vegetables and plants, including tobacco. Major toxicities anticipated from cadmium exposure involve the renal, pulmonary, and, to a lesser extent, gastrointestinal systems. These include the development of renal proximal tubular dysfunction, glomerular damage with progressive renal disease, and respiratory symptoms including pneumonitis and emphysema. Low-level cadmium exposure has also been associated with increased urinary calcium excretion and direct bone toxicity, effects that recent research suggests may result in the development of osteoporosis. The body burden of cadmium, over half of which may reside in the kidneys, is most often measured through the use of urinary cadmium levels. Blood cadmium measurements generally reflect current or recent exposure and are especially useful in cases with a short exposure period and only minimal accumulation of cadmium in the kidneys. Both ss2-microglobulin and alpha1-microglobulin serve as organ-specific, early-effect biomarkers of tubular proteinuria and thus play a role in identifying early signs of cadmium-induced renal damage in those with potential exposures. In addition to ensuring workplace compliance with Occupational Safety and Health Administration-mandated monitoring and screening measures, it is prudent for those with cadmium exposure to maintain adequate intake of both iron and calcium, appropriate measures even in the absence of exposure.
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PMID:Cadmium exposure and nephropathy in a 28-year-old female metals worker. 1246 Aug 7

Intravascular precipitates, comprised at least in part of iron, formed regularly in rabbits given one or more injections of a saccharated iron oxide preparation intravenously, and these lodged in numerous capillaries throughout the body, particularly those of the lungs and kidneys. Large numbers of the brownish precipitates remained in the capillaries of the renal glomeruli during the first few days following injection of the iron, but most of them disappeared after 5 to 7 days, with only moderate amounts of brown pigment remaining in the endothelial cells of the renal glomeruli. Signs of acute injury of the glomerular tufts-namely) pyknosis of some of the endothelial cells, margination of leukocytes within the glomerular capillaries, and slight proliferation of the epithelial cells-also developed some 5 to 7 days following injection of the iron, along with marked proteinuria, which proved transitory if no further injections were given. When the iron preparation was given repeatedly over prolonged intervals, however, the proteinuria persisted and became extreme, and hypoproteinemia developed, often with hypercholesterolemia and transitory edema as well. Histological studies of the kidneys of rabbits manifesting the nephrotic syndrome, as just described, disclosed that virtually all the renal glomeruli were greatly altered, mainly owing to proliferation of the epithelial cells, together with some fibrosis and atrophy. Some of the rabbits having marked proteinuria and other functional changes eventually developed azotemia following repeated injections of the iron, and several of them lost weight and died; the renal glomeruli of these animals showed changes like those just described, but the alterations were more extensive. Considered together, the findings provide evidence that the intravascular precipitates first occluded the glomerular capillaries for a period of several days following injection of the iron and then largely disappeared from them just prior to the development of morphologic signs of glomerular injury and proteinuria. Hence the possibility was considered that the intracapillary precipitates might have produced acute injury to the walls of the glomerular capllaries through the agency of anoxia. But it is plain that the findings of the present study do not disclose the essential nature of the anatomical change responsible for the proteinuria, or the means whereby this was produced. The findings as a whole were briefly considered in relation to the pathogenesis of the nephrotic syndrome as it occurs naturally in human beings.
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PMID:Glomerular lesions and the nephrotic syndrome in rabbits given saccharated iron oxide intravenously; with special reference to the part played by intracapillary precipitates in the pathogenesis of the lesions. 1327 60

Renin-induced proteinuria in the rat was investigated, with special emphasis on the relationship between the enzymatic activity and the proteinuric effect of renin. The dependence of the proteinuric effect on the enzymatic activity was shown by using (a) renin preparations of widely varying purity and (b) chemically modified "active" and "inactive" renin derivatives. Angiotensin II, the pressor product of the enzymatic action of renin, also produced significant proteinuria. Adrenalectomy abolished the proteinuria induced by renin. Proteinuria, however, occurred as a result of pretreatment with DOCA, or aldosterone, or without treatment, 7 to 8 weeks after adrenalectomy. Electron microscopic studies of the kidney at the time of maximal proteinuria showed focal flattening and fusion of epithelial foot processes, as well as swelling and vesicle formation in endothelial and epithelial cells of the glomeruli. Studies with intravenously injected saccharated iron oxide showed increased permeability of the glomerular capillary basement membrane to these particles. These changes were transient and were not seen 24 hours after renin injection. Adrenalectomy prevented these changes. It is concluded that renin, acting through angiotensin, causes glomerular capillary damage with increased permeability of these structures to protein and resultant proteinuria. The adrenal glands participate in a permissive role in this phenomenon.
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PMID:STUDIES ON THE MECHANISM OF EXPERIMENTAL PROTEINURIA INDUCED BY RENIN. 1421 26

The ICR-derived glomerulonephritis (ICGN) mouse, a new inbred mouse strain with a hereditary nephrotic syndrome, is considered to be a good model of human idiopathic nephrotic syndrome and notably exhibits proteinuria and hypoproteinemia from the neonatal stage. In chronic renal disorder (CRD), anemia is a major subsequent symptom (renal anemia). The precise cause of renal anemia remains unclear, primarily owing to the lack of appropriate spontaneous animal models for CRD. To establish adequate animal models for anemia with CRD, we examined the hematological-biochemical properties and histopathological characteristics. With the deterioration of renal function, ICGN mice developed a normochromic and normocytic anemia, and exhibited normochromic and microcytic at the terminal stage. The expression of erythropoietin (EPO) mRNA both in the kidneys and liver and the EPO leak into the urine were observed in ICGN mice, indicating a disrupted metabolism of EPO in ICGN mice. In addition, a lack of iron induced by the hemolysis in the spleen and the leak of transferrin into urine as proteinuria aggravated the anemic condition. In conclusion, the ICGN mouse is a good model for anemia with CRD.
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PMID:Anemia with chronic renal disorder and disrupted metabolism of erythropoietin in ICR-derived glomerulonephritis (ICGN) mice. 1513 73

Oxidants derived either from leukocytes in proliferative glomerular nephritis or from resident glomerular cells in nonproliferative glomerulonephritis have been shown to have several biologic effects relevant to chronic kidney disease. These include: the ability of oxidants to damage glomerular basement membrane (GBM) and to directly induce proteinuria; effects that would lead to a fall in the glomerular filtration rate; and effects that would account for the morphologic changes observed in chronic kidney disease. In experimental models the role of oxidants has been demonstrated in both proliferative glomerulonephritis (e.g., anti-GBM antibody disease) as well as experimental models of minimal change disease and membranous nephropathy. Oxidants have also been shown to be an important mediator of the various pathways that have been implicated in diabetic nephropathy. Antioxidants and iron chelators have also been shown to retard functional and morphologic changes observed in progressive kidney disease. Taken together, these experimental studies suggest an important role of oxidants in chronic kidney disease.
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PMID:Oxidants and iron in chronic kidney disease. 1546 4

A 66 years female, who was since last year under astenia, arthralgias, pimply lesions in spread plates and tests showing eritrosedimentation over 100 mm, anemi, leucocitosis with neutrofilia, policlonal hypergammaglobulinemia, slight proteinuria and IgE on 900. This patient was sporadically treated with corticoids. When made the medical consult had lost 34lb., was under anorexy, as well as dyspepsia. Hemoglobyn 6.9 gr/dl, leucocytes 20000/mm3, neutrofils at 90%, proteinogram the same as former, with hypoalbuminemia. She was taking prednisona, 16 mg/day. When examined showed depress of conscience, astenia, and dermic lesions already quoted. 4 cm nonpainful right axillary adenopaty adhered to deep planes. Medulogram with increased iron, hyperegenerative. Ganglionar biopsia: linfoid hyperplasic process linked to inmune response. Toracoabdominal tomography with adenomegalia in torax and retroperitoneo. Skin biopsia: neutrofilic vasculitis. The patient suspends the 16 mg of prednisona and fever as well as generalized adenopatias come up. After laying aside other ethiologies, and understanding as Castleman Multicentric disease, it is started to supply prednisona 1 mg/kg of weight with a clinical and biochemical fast and outstanding response. After 7 months it was progressively suspended the esteroids and 60 days later, the process fall back; for that, corticoids are restarted, with a good evolution. The illness of Castleman although it is not very frequent, it should be considered as differential diagnosis in those clinical cases that are accompanied with important general commitment, linphadenopaties and respons to steroid therapy.
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PMID:[Castleman disease]. 1621 96

Clinical studies have demonstrated that some antihypertensive agents provide renoprotection independent of BP lowering. Recent in vitro and in vivo studies evaluated the mechanisms involved in this protection. First, the in vitro effects of several angiotensin II type 1 receptor blockers (ARB), calcium channel blockers (CCB), and beta blockers (BB) on various mediators were compared: Formation of pentosidine (an advanced glycation end product), hydroxyl radical-induced formation of o-tyrosine, and transition metals-induced oxidation of ascorbic acid (the Fenton reaction). All of the six tested ARB but neither the six CCB nor the nine BB inhibited pentosidine formation. ARB, as well as BB but not CCB, inhibited hydroxyl radicals-mediated o-tyrosine formation. ARB but neither BB nor CCB inhibited efficiently transition metals-catalyzed oxidation of ascorbic acid. Second, the in vivo consequences for the kidney of these various in vitro effects were evaluated. Hypertensive, type 2 diabetic rats with nephropathy, SHR/NDmcr-cp, were given for 20 wk either olmesartan (ARB) or nifedipine (CCB), or atenolol (BB). Despite similar BP reduction, only ARB significantly reduced proteinuria and prevented glomerular and tubulointerstitial damage (mesangial activation, podocyte injury, tubulointerstitial injury, and inflammatory cell infiltration). It is interesting that only ARB prevented abnormal iron deposition in the interstitium, corrected chronic hypoxia, reduced expressions of heme oxygenase and p47phox (a subunit of NADPHoxidase), and inhibited pentosidine formation (which correlates well with proteinuria). These observations confirm unique renoprotective properties of ARB, independent of BP lowering but related to decreased oxidative stress (hydroxyl radicals scavenging and inhibition of the Fenton reaction), correction of chronic hypoxia, and inhibition of advanced glycation end product formation and of abnormal iron deposition. These benefits of ARB may contribute to the renoprotection observed beyond BP lowering.
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PMID:Renoprotective properties of angiotensin receptor blockers beyond blood pressure lowering. 1623 4


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