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: EC:3.4.21.69 (APC)
16,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic inflammatory diseases and infections are a major cause of hyporesponse to erythropoiesis-stimulating factors. We conducted this prospective study in 107 patients in haemodialysis with dialysis liquid that was potentially contaminated from a bacteriological perspective in order to test the hypothesis that ultrapure dialysis liquid can improve the response to treatment with darbepoetin and reduce inflammatory markers. These patients had to have been stable in the last 8 weeks in relation to haemoglobin level and the administered dose of darbepoetin. Two filters (one of hydrophilic nylon and another of polysulfone) were added to the water treatment process, the first one prior to distribution ring output and the second before the dialyser. The patients were evaluated for 12 months. The dosage of darbepoetin was varied to maintain haemoglobin levels ranging from 11 to 14 g/dl. We measured resistance to the erythropoiesis-stimulating factor, defined as the quotient between weekly dose of darbepoetin and haemoglobin levels, baseline and every two months, the baseline and monthly endotoxin count and reactive protein C at baseline and every 6 months. 94 patients completed the study. The resistance index fell significantly during follow-up (p<0.001) and was measurable from the second month on. Haemoglobin levels remained within the established margins with a 34% reduction in the weekly dose of darbepoetin at the end of the follow-up period. Both reactive protein C and the endotoxin count were significantly reduced (p<0.001) compared to baseline after 6 and 12 months. To conclude, the bacteriological purity of the dialysis liquid reduces inflammatory markers in patients receiving haemodialysis, improving the response to treatment with darbepoetin in renal anaemia.
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PMID:[Importance of ultrapure dialysis liquid in response to the treatment of renal anaemia with darbepoetin in patients receiving haemodialysis]. 1756 65

Cadmium, a highly toxic heavy metal, is distributed widely in the general environment. The characteristic clinical manifestations of chronic cadmium intoxication include renal proximal tubular dysfunction, osteomalacia and anemia. Accumulating evidence suggests that cadmium toxicity may also affect various organs such as the liver, lung, testis and hematopoietic system. The aim of this study was to determine the effect of chronic cadmium exposure on the anticoagulant system in rats. Fourty-five adult Wistar albino rats were randomly allocated into 2 groups. While the control group was given tap water, the animals in the cadmium group were treated with 15 ppm CdCl(2) for 4 weeks. Blood cadmium concentration, prothrombin time, activated partial thromboplastin time, plasma protein C and antithrombin activity, and platelet count were determined in the rats. Blood cadmium concentrations increased in the experiment group compared to the control group (p < 0.001). Results also show that cadmium exposure shortened prothrombin time (p < 0.05) and activated partial thromboplastin time (p < 0.01) in rats. Protein C (p < 0.001) and antithrombin (p < 0.001) decreased to statistically significantly lower levels in rat plasma after cadmium exposure when compared to the control group. When the number of thrombocytes was compared between 2 groups, a decrease was observed in the group treated with CdCl(2), which was, however, not statistically significant (p > 0.05). In conclusion, when the parameters of the hemolytic system are considered, the decrease in protein C and antithrombin activities and the shortening of prothrombin time and activated partial thromboplastin time suggests the presence of a hypercoagulable state during chronic cadmium intoxication. Therefore, it may be stated that chronic cadmium toxicity sets the stage for hypercoagulation and hence increases the risk of thrombosis.
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PMID:The effects of chronic cadmium toxicity on the hemostatic system. 1756 33

The IdiC protein (iron deficiency induced protein C) is encoded by orf5 (now called idiC), which is part of the iron-responsive idiB operon of Synechococcus elongatus PCC 7942. The 20.5 kDa IdiC protein has a putative transmembrane helix and belongs to the thioredoxin (TRX)-like [2Fe-2S] ferredoxin family. IdiC has the highest similarity to the peripheral subunit NuoE of the Escherichia coli NDH-1 complex. IdiC expression increased under iron starvation and also in the late growth phase, representing growth conditions, which favor photosynthetic cyclic and respiratory electron transport over photosynthetic linear electron transport from water to NADP+. Attempts to insertionally inactivate the idiC gene generated merodiploid mutants with a strongly reduced IdiC content (mutant MuD) but no IdiC-free mutant. Thus, IdiC seems to be an essential protein for the viability of S. elongatus under the used experimental conditions. Comparative analyses of S. elongatus wild type (WT) and mutant MuD showed that under iron limitation in WT and MuD the amount of the reaction center proteins PsbA and PsaA/B was highly reduced. MuD had a lower growth rate, chlorophyll content, and photosynthetic O2 evolving activity with bicarbonate as electron acceptor than WT. Immunoblot analyses also showed that in MuD, when grown under iron limitation, the amount of the proteins IdiC and IdiB was greatly reduced as compared to WT. As a consequence of the reduction of the transcription factor IdiB, IdiA and IrpA expression were also decreased. In addition, the IsiA protein concentration was lower in MuD than in WT, although the isiA mRNA was equally high in MuD and WT. Another significant difference was the lower expression of the ferredoxin:NADP+ oxidoreductase in mutant MuD under iron limitation compared to WT. A possible function of the protein IdiC in cyclic electron transport around photosystem I and/or in respiratory electron transport will be discussed.
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PMID:Characterization of the putative iron sulfur protein IdiC (ORF5) in Synechococcus elongatus PCC 7942. 1769 Sep 95

The aqueous lining of the lung surface exposed to the air is covered by lung surfactant, a film consisting of lipid and protein components. The main function of lung surfactant is to reduce the surface tension of the air-water interface to the low values necessary for breathing. This function requires the exchange of material between the lipid monolayer at the interface and lipid reservoirs under dynamic compression and expansion of the interface during the breathing cycle. We simulated the reversible exchange of material between the monolayer and lipid reservoirs under compression and expansion of the interface. We used a mixture of dipalmitoyl-phosphatidylcholine, palmitoyl-oleoyl-phosphatidylglycerol, cholesterol, and surfactant-associated protein C as a functional analog of mammalian lung surfactant. In our simulations, the monolayer collapses into the water subphase on compression and forms bilayer folds. On monolayer reexpansion, the material is transferred from the folds back to the interface. The simulations indicate that the connectivity of the bilayer aggregates to the monolayer is necessary for the reversibility of the monolayer-bilayer transformation. The simulations also show that bilayer aggregates are unstable in the air subphase and stable in the water subphase.
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PMID:The molecular mechanism of monolayer-bilayer transformations of lung surfactant from molecular dynamics simulations. 1770 66

A process of thrombin interaction with synthetic and natural substrates in the presence of Na+ ions has been analyzed in the survey. Molecular bases of this interaction have been presented, interrelation between the structure and function of thrombin has been noted; the nature of the unique site of its active centre which determines high thrombin affinity for the substrates and increase of its catalytic activity defined by the term of "specificity to univalent cations" have been considered in detail. Na+ ions play the role of allosteric effector in realization of two informational states of thrombin which penform, respectively, two fundamental and competing functions in the process of hemostasis. The molecular basis of the process of Na+ binding with thrombin is rather simple and depends only on the single site which importance for the enzyme function is marked by numerous investigations of a number of authors, and it is shown that Na(+)-binding site is distributed in the other zone of thrombin molecule as compared to exosites I and II, which do not take part in Na(+)-binding and allosteric transduction. Considerable attention was given to conformational conversions of a thrombin molecule caused by Na+ ions binding. It was shown that the transition slow <--> fast of the enzyme forms leads to formation of the ion pair Arg-187: Asp-222, optimal orientation of Asp-189 and Ser-195 for binding of substrates and considerable shift of the lateral chain Glu-192 determined by the disturbance of the lattice of water molecules which connects Na(+)-binding site with aminoacid Ser-195 of the active centre of the enzyme. New data have been presented which indicate that the changes in the lattice of water molecules and allosteric nucleus of Na(+)-binding site of the enzyme are the basic link of raising the affinity between the thrombin and substrate and mechanism of the enzyme activation by Na(+)-ions. The survey touches some problems of creation of allosteric inhibitors of thrombin which can take essential effect on Na(+)-binding site and favor stabilization of the anticoagulant slow-form of thrombin, and of enzyme rational mutants with selective specificity in respect of protein C which display effective and safe anticoagulant and antithrombotic effects in vivo.
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PMID:[Sodium ions as the effector of catalytic action of alpha-thrombin]. 1803 Jul 31

The molecular understanding of protein stabilization by the disaccharide trehalose in extreme temperature or hydration conditions is still debated. In the present study, we investigated the role of trehalose on the dynamics of the protein C-phycocyanin (C-PC) by neutron scattering. To single out the motions of C-PC hydrogen (H) atoms in various trehalose/water environments, measurements were performed in deuterated trehalose and heavy water (D2O). We report that trehalose decreases the internal C-PC dynamics, as shown by a reduced diffusion coefficient of protein H atoms. By fitting the Elastic Incoherent Structure Factor--which gives access to the "geometry" of the internal proton motions--with the model of diffusion inside a sphere, we found that the presence of trehalose induces a significantly higher proportion of immobile C-PC hydrogens. We investigated, by elastic neutron scattering, the mean square displacements (MSDs) of deuterated trehalose/D2O-embedded C-PC as a function of temperature in the range of 40-318 K. Between 40 and approximately 225 K, harmonic MSDs of C-PC are slightly smaller in samples containing trehalose. Above a transition temperature of approximately 225 K, we observed anharmonic motions in all trehalose/water-coated C-PC samples. In the hydrated samples, MSDs are not significantly changed by addition of 15% trehalose but are slightly reduced by 30% trehalose. In opposition, no dynamical transition was detected in dry trehalose-embedded C-PC, whose hydrogen motions remain harmonic up to 318 K. These results suggest that a role of trehalose would be to stabilize proteins by inhibiting some fluctuations at the origin of protein unfolding and denaturation.
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PMID:Dynamics of C-phycocyanin in various deuterated trehalose/water environments measured by quasielastic and elastic neutron scattering. 1818 29

Bacterial DNA (bDNA) and lipopolysaccharide (LPS) are potent activators of immune cells such as monocytes and macrophages, which contribute to systemic inflammatory response syndrome (SIRS) and sepsis. Unfortunately, many experimental inflammatory antagonist-based therapies have failed in sepsis trials, and currently there is only one adjuvant therapy in clinical use, e.g. activated protein C. Artesunate (AS), a water-soluble derivative of dihydroartemisinin, has recently been demonstrated to protect against LPS-induced human umbilical vein endothelial cell (HUVEC) activation and injury by inhibiting tumor necrosis factor-alpha (TNF-alpha) mRNA expression. In the present study, heat-killed Escherichia coli was used to induce sepsis in the animal models. We observed that AS could protect mice against a lethal challenge with heat-killed E. coli in a dose-dependent manner. This protection was associated with reductions in serum TNF-alpha and measurable endotoxin levels. In addition, the treatment of murine peritoneal macrophage cells with AS strongly inhibited the release of TNF-alpha and IL-6 induced by CpG oligodeoxynucleotide (CpG ODN), LPS, or heat-killed E. coli in a dose-dependent manner. Experiments using affinity sensor technology revealed that AS could not directly bind to CpG ODN or LPS. Moreover, AS could not neutralize LPS in vitro. Further, flow cytometry revealed that AS could not alter the binding of CpG ODN to cell surfaces but could promote CpG ODN accumulation within RAW264.7 cells. Furthermore, AS reduced the expressions of TLR4 and TLR9 mRNA that were stimulated by LPS, CpG ODN, or heat-killed E. coli and inhibited heat killed E. coli-induced NF-kappaB activation. In conclusion, our results demonstrated that AS-mediated protection against a lethal heat-killed E. coli challenge was associated with a reduction in proinflammatory cytokine release and endotoxin levels via a mechanism involving a decrease in TLR4, TLR9 mRNA expression and NF-kappaB activation.
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PMID:Antimalarial artesunate protects sepsis model mice against heat-killed Escherichia coli challenge by decreasing TLR4, TLR9 mRNA expressions and transcription factor NF-kappa B activation. 1827 92

Studies were conducted to evaluate 1) the effect of an acidic, copper sulfate-based commercial sanitizer on pathogenic, indicator, and spoilage bacteria in a model scalder system, 2) the effect of this sanitizer on total aerobic bacteria (APC) and Escherichia coli counts, and Salmonella prevalence on broiler chicken carcasses when applied during scalding or scalding and postpick dipping, and 3) the ability of sanitizer to extend the shelf-life of broiler chicken carcasses. Exposure of Salmonella Typhimurium, Listeria monocytogenes, Staphylococcus aureus, Pseudomonas fluorescens, or Shewanella putrefaciens to the sanitizer in scalder water at 54 degrees C for 2 min resulted in complete elimination of these bacterial species. Exposure of E. coli to the treated scald water resulted in a 4.9 log(10) reduction. These data suggest that this sanitizer would be effective for use in scalders. When applied during scalding in a commercial processing plant, APC and E. coli counts were significantly (P <or= 0.05) reduced on all days of sampling. The average log10 reduction overall was 3.80 and 3.05 for APC and E. coli, respectively. Salmonella prevalence was reduced by an average of 30%. For carcasses that were scalded, picked, and dipped postpick using this sanitizer, APC were significantly P <or= 0.05) reduced on all days of sampling by an average of 1.19 log10. Escherichia coli counts were reduced on all but 2 d of sampling for carcasses scalded, picked, and dipped in this sanitizer, except for d 2 and 10. Averages on these days were higher for controls, but were not significantly different. Salmonella prevalence was not consistently impacted overall. For the shelf-life study, odor scores were significantly (P <or= 0.05) reduced for treated carcasses at d 8 through 14 of storage. The psychrotrophic plate counts were significantly (P <or= 0.05) lower on treated carcasses at d 6 through 14 of storage. This sanitizer suppressed spoilage bacteria with a 99.99% reduction at d 10 and a 99.9% reduction at d 12 of storage. This effect could result in an extension of the shelf life of the poultry carcasses by up to 4 d.
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PMID:The effect of an acidic, copper sulfate-based commercial sanitizer on indicator, pathogenic, and spoilage bacteria associated with broiler chicken carcasses when applied at various intervention points during poultry processing. 1857 27

This study demonstrates that masking the Feb regions of a monoclonal antibody (Mab) with synthetic antigens prior to covalent immobilization efficiency. Water-soluble adducts of poly(2-methyloxazoline) polymers and a synthetic-peptide epitope for the Mab were constructed. These synthetic antigens are referred to as Fab-masking antigents (FMAs). The antibody used in this study is a Ca(2+)-dependent murine monoclonal lgG directed against the plasma protein, human protein C (hPC). The FMAs were pre-equilibrated with Mab in the presence of calcium prior to immobilization and were then removed by EDTA, which destabilized the FMA-Mab complexes. The antigen binding efficiency and accessibility of the Fab domain of the immobilized antibody was significantly increased for Mab immobilized in the presence of FMA relative to those Mab immobilized without FMA. The increase in binding efficiency was most pronounced for the largest FMA employed. No appreciable differences were detected in the avidity of hPC-Mab complexes formed by immunosorbents produced by either masked or unmasked antibody. These results provide evidence that orientation may play an important role in the binding activity of immobilized antibodies.
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PMID:The use of Fab-masking antigens to enhance the activity of immobilized antibodies. 1860 Sep

Synthetic polymers have long been used to modify various properties of proteins such as activity and solubility. Polyethylene glycol (PEG) has been widely used to form adducts with enzymes and antibodies. In this study, the polyoxazoline family of water-soluble polymers was used to synthesize adducts containing a synthetic peptide recognized by a monoclonal antibody (MAb) directed against human protein C (hPC). This is the first application of direct conjugation of unterminated or "living" polymer to a peptide. The avidity of the antibody for the various adducts was characterized with respect to size and hydrophilicity of methyl- and ethyl-substituted polyoxazoline polymers (POX). Avidity of the adducts was not found to be dependent upon the hydrophilicity and was slightly decreased due to polymer modification. The methyl-POX-peptide adducts were found to be highly water soluble, while the ethyl-POX-peptide adducts showed sporadic problems with aqueous solubility. Because the polymer-peptide adducts retained avidity for the antibody, polyoxazoline polymers may have potential application to protein-adduct chemistry.
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PMID:Polyoxazoline-peptide adducts that retain antibody avidity. 1860 Sep 1


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