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:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To assess the importance of disease-induced increases in plasma concentrations of alpha1 acid glycoprotein (an acute-phase plasma protein that binds cationic drugs), we determined binding of propranolol in plasma from 53 patients and 25 healthy volunteers. Binding was increased in 10 patients with Crohn's disease (P less than 0.002), nine with inflammatory arthritis (P less than 0.002) and eight with chronic renal failure with superimposed inflammatory disease (P less than 0.01) as compared with healthy controls. The plasma binding of control subjects did not differ from that of 12 patients with chronic hepatic disease (P greater than 0.45) or 14 with uncomplicated renal failure (P greater than 0.80). Chlorpromazine binding, determined in 60 subjects, yielded similar results. Percentage of free drug and alpha1 acid glycoprotein concentration were inversely correlated (r = -0.77 with propranolol, P less than 0.001, and r = -0.69 with chlorpromazine, P less than 0.001). Increases in plasma protein binding in patients with inflammatory disease appear mediated by increases in alpha1 acid glycoprotein concentration, which may influence drug kinetics.
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PMID:Increased plasma protein binding of propranolol and chlorpromazine mediated by disease-induced elevations of plasma alpha1 acid glycoprotein. 8 6

Within three patient groups (1. advanced renal failure, 2. patients under chronic hemodialysis, 3. patients with renal transplants) 16 serum proteins were determined immunochemically employing MANCINIS method. The group mean values for each protein were compared, and the statistical significance of intergroup differences was examined. The most noteworthy results were the following: a distinct increase in prealbumin in all groups, least marked in the dialyzed patients; frequent elevation of alpha2-macroglobulin in the patients with transplanted kidney, but not in the other two groups; a significant increase in beta2-glycoprotein in all groups. Other changes affected several components of the acute phase reactants which were, in part, markedly elevated. On the other hand, alpha1-antitrypsin and transferrin remained largely within the normal range. Possible mechanisms accounting for some of these changes are discussed.
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PMID:[Serum protein values in uremic patients, dialysis-patients and patients with transplanted kidneys]. 33 71

Glycoprotein: galactosyl and glycoprotein: sialic acid transferase activity were measured in the serum of patients with renal insufficiency. Significant elevations in enzyme activity were found in all patients including those on regular hemodialysis. Galactosyl transferase activity was elevated in a group of renal transplant recipients with normal serum creatinine. Serum glycoproteins from renal failure serum have an altered carbohydrate composition, the major finding being a reduced galactose content. A smaller reduction in sialic acid content was also observed. The findings are discussed in terms of glycoprotein metabolism and the clinical setting of chronic renal failure.
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PMID:Glycoprotein metabolism in human renal disease: serum glycoproteins and glycoprotein: glycosyl transferase levels in chronic renal failure. 81 May 31

Urinary beta 2-microglobulin, albumin, IgG, Tamm-Horsfall mucoprotein, and glycoprotein were determined on PBD 0, 1, 3, 7, 14, 21, 27. It was found that the amount of albumin was double that of normal in patients with burn extent of 30%-50% TBSA, while IgG showed no change. In patients with over 50% TBSA burns, Alb was five-fold and IgG four-fold of normal. They probably indicated the degree of damage to the glomeruli. In 27 patients with infection, beta 2-m was increased, indicating damage to the proximal convoluted tubules. Glycoprotein showed a tendency to increase in moderate and severe burns, while it was markedly reduced in very large burns or renal failure, indicating damage to the ascending limb of thick medullary loop. The changes in the amount of urinary protein were more sensitive in reflecting early functional changes of the kidney.
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PMID:[Monitoring of renal function in burn patients with radioimmunological evaluation]. 130 61

The bindings of perindopril and of its active metabolite perindoprilat to human serum, isolated proteins and to erythrocytes were studied by equilibrium dialysis. Within the therapeutic concentrations range, perindopril was 74% bound to serum involving a non-saturable process, NKa = 2.87. The main binders are serum albumin and alpha 1-acid glycoprotein. The serum binding of perindoprilat involved two successive steps. First, a saturable high-affinity binding (Ka: 2.8 x 10(9) M-1) occurred, involving probably the angiotensin converting enzyme (ACE). The second binding step was non-saturable with a very weak binding capacity, NKa = 0.15, quite superimposable to the HSA bound perindoprilat. Free fatty acids (FFA) did not alter the binding to HSA. The binding of both compounds to erythrocytes was low especially with perindopril, when measured in the presence of plasma. A significant correlation showed that the overall serum binding percentage of both drugs was essentially determined by HSA concentration. Serum binding was decreased in renal failure or cirrhosis, this result was principally linked to the hypoalbuminemia. Interactions with other drugs were limited to the binding of salicylate, tolbutamide and digitoxin to HSA.
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PMID:Specific and high affinity binding of perindoprilat, but not of perindopril to blood ACE. 133 Sep 41

Fibronectin (Fn), an acute phase glycoprotein synthesized by the liver, has an important immunomodulatory role. We have investigated the changes in plasma Fn in patients after renal transplantation in order to determine whether these changes predict graft injury or rejection episodes. Besides normal healthy controls, healthy pregnant controls, and a trauma control group, we used two groups of chronic renal failure patients as controls: group I, patients with end-stage renal failure (ESRF) on peritoneal dialysis; group II, patients with ESRF on hemodialysis. These were compared with two groups of renal transplant patients: group III, patients 3 months after successful renal transplantation; group IV, patients studied sequentially 10 days immediately posttransplantation. The renal transplant patients were treated with low-dose cyclosporine, azathioprine, and steroids. Citrated plasma samples were collected for Fn assay by a sandwich-type ELISA and for SDS-PAGE analysis and Western blotting. The mean plasma Fn levels were as follows: healthy controls 311.6 SEM, 13.5 micrograms/ml; healthy pregnant controls 357 SEM, 5.9 micrograms/ml; trauma controls 262.3 SEM 31.7, micrograms/ml; group I 169 SEM, 25.1 micrograms/ml; group II 199 SEM, 27.2 micrograms/ml; group III 272 SEM, 21.7 micrograms/ml; group IV 212 SEM, 27.4 micrograms/ml (day 3 postop). There was a significant difference in the plasma Fn levels on day 3 posttransplant between the patients with delayed and immediate renal function (P less than 0.03) (group IV). A significant decrease in plasma Fn levels occurred immediately after steroid therapy was stopped (P less than 0.03) in patients treated for acute rejection. Plasma Fn levels were significantly decreased in the presence of delayed graft function but did not predict rejection.
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PMID:Plasma fibronectin levels during acute rejection and acute tubular necrosis in renal transplant patients. 141 24

Serum concentrations of apolipoprotein(a) [apo(a)], the unique glycoprotein of lipoprotein(a), are increased in patients with end-stage renal failure. We prospectively studied serum apo(a) and other lipoproteins in 20 consecutive patients, ages 46 +/- 11 years, before and for six months after successful renal transplantation. All patients received cyclosporine, and no patient was treated for hyperlipidemia. The mean creatinine clearance increased from 7.5 mL/min before transplant surgery to 40.9 mL/min six months afterwards (P less than 0.001). Apo(a) decreased from a median of 403 units/L before transplantation to 184 units/L at one week (P less than 0.001) and was 170 units/L (P less than 0.001) at six months. For the assay used, 1 unit of apo(a) is equivalent to 1 mg of lipoprotein(a). In contrast, from baseline to six months, increases were found for low-density lipoprotein (LDL) cholesterol (P = 0.03), high-density lipoprotein cholesterol (P = 0.06), apo B (P = 0.07), and apo A-I (P = 0.01). The decrease in apo(a) in individual patients was significantly correlated with the increase in creatinine clearance (r = -0.48, P less than 0.001). The single patient who developed nephrotic syndrome after renal transplantation had marked increases in apo(a) (693-1595 units/L), apo B, and LDL cholesterol, which paralleled the degree of proteinuria. These findings suggest that abnormal renal function affects the regulation of lipoprotein(a) metabolism.
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PMID:Decreases in apolipoprotein(a) after renal transplantation: implications for lipoprotein(a) metabolism. 154 51

The concentrations of human plasma albumin (HPA) and alpha-1-acid glycoprotein (AAG) were measured in the serum obtained from 84 healthy subjects, 56 umbilical cords, 41 patients with renal failure, 65 patients maintained on chronic hemodialysis and 46 patients with liver cirrhosis. Severity of liver dysfunction was assessed with the use of Pugh et al. [1973] classification. Of the cirrhotic patients, 12, 22 and 12 patients were classified as mild, moderate and severe liver dysfunction, respectively. The coefficient of variation of AAG was greater than HPA in all groups of subjects, and the variability of HPA and AAG is increased in patients compared to healthy subjects. As the liver dysfunction progresses, HPA concentration decreases whereas, the average AAG concentration is not changed in mild, moderate and severe liver dysfunction. The coefficients of variation for HPA and AAG in moderate and severe liver disease is over twice those for healthy subjects. The concentration of HPA is normally distributed in all groups of subjects, with the exception of the cord serum. The frequency distribution of AAG was normal in healthy subjects whereas, it was asymmetric, being positively skewed, in newborn, in renal and liver patients. The wide interindividual variability and the not-normal frequency distribution of AAG in liver or renal patients make its mean of little value in defining a group. Neither HPA nor AAG correlated with the clearance of creatinine in renal patients. In liver disease, HPA and AAG did not correlate with GPT and GOT activities, prothrombinic activity and bilirubin concentration. HPA did not correlate with AAG in any group.
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PMID:Interindividual variability in the concentrations of albumin and alpha-1-acid glycoprotein in patients with renal or liver disease, newborns and healthy subjects: implications for binding of drugs. 157 57

The renal glycoprotein hormone erythropoietin is an essential growth factor for the erythrocytic progenitors in the bone marrow. Erythropoietin deficiency is the main cause of the anemia in chronic renal failure. Genetical engineering has made it possible to produce recombinant human erythropoietin (rhu-Epo) in CHO cell cultures as a pharmaceutical compound. Endogenous and recombinant erythropoietin are similar with respect to their biological and chemical properties (M(r) 30,400 Da, protein content 60%, 165 amino acids, 4 carbohydrate side chains). With few side-effects, rhu-Epo corrects the anemia of predialysis and dialysis renal failure patients. In addition, rhu-Epo treatment may reduce the need for blood transfusion in other types of anemias, including those of rheumatoid arthritis, AIDS, malignant diseases and major surgical procedures. However, rhu-Epo has not been approved as yet for treatment of non-renal anemias in Germany.
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PMID:[Chemical structure, biotechnical production and clinical use of recombinant erythropoietin]. 164 21

Erythropoietin is a glycoprotein hormone that plays a vital role in erythropoiesis. It is mainly produced in the fetal liver till the third trimester of pregnancy. At that point, the kidney interstitium takes over this function and becomes the main source of erythropoietin. Hypoxia stimulates erythropoietin production by a mechanism that may require a heme protein as a second messenger. Erythropoietin stimulates the maturation of erythroid precursors (colony-forming unit-erythroid and burst-forming unit-erythroid) via at least two types of cell surface receptors. The higher-affinity receptors appear to be more important in modulating the effects of erythropoietin in vivo. Changes in intracellular calcium may ultimately mediate the action of erythropoietin on erythroid precursors. A specific and sensitive radioimmunoassay is now available for accurately measuring erythropoietin levels. All forms of erythrocytosis except polycythemia vera are associated with elevated erythropoietin levels. Levels are also high in cord blood obtained following fetal asphyxia. Reduced levels are seen in patients with anemia due to renal diseases. The response of erythropoietin to the degree of anemia appears to be attenuated in patients with cancer, chronic diseases, and human immunodeficiency virus (HIV) infection. Erythropoietin has been successfully used for treating patients with anemia due to renal failure. Its use has also been approved for the treatment of anemia patients receiving zidovudine for HIV infection. Encouraging results have been observed when erythropoietin was used to treat anemia due to rheumatoid arthritis, hematological malignancies, and prematurity. It has also been used to increase the yield of autologous blood collected prior to an elective surgical procedure. However, it has not proved to be useful in sickle cell anemia and myelodysplastic syndromes.
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PMID:Erythropoietin. Biology and clinical applications. 178 66


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