Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0003873 (rheumatoid arthritis)
 53,068 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insoluble immunoglobulin aggregates present in the synovial fluid of patients with rheumatoid arthritis have been examined for their ability to activate reactive oxidant and granule enzyme secretion from bloodstream neutrophils. These insoluble complexes activated luminol chemiluminescence, but did not activate O2-, H2O2 or granule enzyme secretion and did not activate lucigenin chemiluminescence, which also measures reactive oxidant secretion. Hence, the luminol chemiluminescence detected after activation by insoluble immunoglobulin aggregates must be due to intracellularly generated reactive oxidants, i.e. produced within phagolysosomes. Because reactive oxidant and granule enzyme secretion has occurred within rheumatoid joints, other mechanisms of neutrophil activation must exist.
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PMID:Stimulation of neutrophils by insoluble immunoglobulin aggregates from synovial fluid of patients with rheumatoid arthritis. 131 95

Human serum contains catalase activity, which can protect alpha 1-proteinase inhibitor from inactivation by H2O2. The primary source of serum catalase is probably erythrocytic. The enzyme activity correlates with haemoglobin concentration in sera from control subjects but not in sera from patients with rheumatoid arthritis. Catalase is inactivated by oxidants, such as H2O2 and hypochlorous acid and it is suggested that the decrease in catalase/haemoglobin ratio observed in rheumatoid serum is due to oxidant stress associated with inflammation.
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PMID:Serum catalase as the protective agent against inactivation of alpha 1-proteinase inhibitor by hydrogen peroxide; comparison between normal and rheumatoid sera. 133 67

Synovial fluid isolated from 16 patients with rheumatoid arthritis activated luminol dependent chemiluminescence in bloodstream neutrophils, and the maximal activity stimulated varied over a 50-fold range. In contrast, these same fluids only activated a much lower range (two- to threefold) of maximal rates of lucigenin dependent chemiluminescence and cytochrome c reduction, two assays which only measure oxidant secretion which is independent of myeloperoxidase. Over 95% of the luminol dependent chemiluminescence activated by all samples was inhibited by azide (indicating its dependence upon myeloperoxidase), but anti-(myeloperoxidase) IgG (which specifically inhibits only the extracellular activity of this enzyme) only inhibited the response stimulated by some samples: those fluids which activated the highest luminol dependent chemiluminescence also stimulated the greatest activity of an extracellular myeloperoxidase-H2O2 system. A clear correlation was shown to exist between the activity of myeloperoxidase already present in the fluids (after its secretion from neutrophils in situ within the rheumatoid joint) and the ability of the fluid to activate luminol dependent chemiluminescence. It is concluded, therefore, that all synovial fluid samples tested possess almost equivalent levels of a factor(s) which activated O2-/H2O2 secretion and that the variations in the measured activity of the extracellular myeloperoxidase-H2O2 system are dependent upon the level of degranulation which had occurred within the joint.
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PMID:Activation of the neutrophil myeloperoxidase-H2O2 system by synovial fluid isolated from patients with rheumatoid arthritis. 185 10

The effects of hydrogen peroxide (H2O2) on the metabolism of cultured human synovial fibroblasts derived from joints of four patients with rheumatoid arthritis and three with osteoarthritis have been investigated. The exposure of rheumatoid cell cultures to this oxygen derived species at sublethal concentrations (1-100 mumol/l) induced a dose related inhibition of both hyaluronic acid (HA) and DNA synthesis. In contrast, in osteoarthritic cell lines a biphasic response was shown. At low concentrations of H2O2 (less than 10 mumol/l) a stimulatory effect on HA synthesis was noted, whereas in the presence of higher concentrations (greater than 10 mumol/l) a significant inhibition of synthesis occurred. These deleterious effects of H2O2 were partially reduced by the addition of catalase to the culture media. The finding that both HA and DNA synthesis were inhibited at concentrations of H2O2 less than those which caused loss of cell integrity (greater than 200 mumol/l) suggests oxidation of intracellular components, such as glyceraldehyde-3-phosphate dehydrogenase, and subsequent depletion of ATP concentrations.
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PMID:Effects of hydrogen peroxide on the metabolism of human rheumatoid and osteoarthritic synovial fibroblasts in vitro. 202 3

In the presence of O2, Fe(III) or Cu(II), and an appropriate electron donor, a number of enzymic and nonenzymic oxygen free radical-generating systems are able to catalyze the oxidative modification of proteins. Whereas random, global modification of many different amino acid residues and extensive fragmentation occurs when proteins are exposed to oxygen radicals produced by high energy radiation, only one or a few amino acid residues are modified and relatively little peptide bond cleavage occurs when proteins are exposed to metal-catalyzed oxidation (MCO) systems. The available evidence indicates that the MCO systems catalyze the reduction of Fe(III) to Fe(II) and of O2 to H2O2 and that these products react at metal-binding sites on the protein to produce active oxygen (free radical?) species (viz; OH, ferryl ion) which attack the side chains of amino acid residues at the metal-binding site. Among other modifications, carbonyl derivatives of some amino acid residues are formed; prolyl and arginyl residues are converted to glutamylsemialdehyde residues, lysyl residues are likely converted to 2-amino-adipylsemialdehyde residues; histidyl residues are converted to asparagine and/or aspartyl residues; prolyl residues are converted to glutamyl or pyroglutamyl residues; methionyl residues are converted to methionylsulfoxide residues; and cysteinyl residues to mixed-disulfide derivatives. The biological significance of these metal ion-catalyzed reactions is highlighted by the demonstration: (i) that oxidative modification of proteins "marks" them for degradation by most common proteases and especially by the cytosolic multicatalytic proteinase from mammalian cells; (ii) protein oxidation contributes substantially to the intracellular pool of catalytically inactive and less active, thermolabile forms of enzymes which accumulate in cells during aging, oxidative stress, and in various pathological states, including premature aging diseases (progeria, Werner's syndrome), muscular dystrophy, rheumatoid arthritis, cataractogenesis, chronic alcohol toxicity, pulmonary emphysema, and during tissue injury provoked by ischemia-reperfusion. Furthermore, the metal ion-catalyzed protein oxidation is the basis of biological mechanisms for regulating changes in enzyme levels in response to shifts from anaerobic to aerobic metabolism, and probably from one nutritional state to another. It is also involved in the killing of bacteria by neutrophils and in the loss of neutrophil function following repeated cycles of respiratory burst activity.
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PMID:Metal ion-catalyzed oxidation of proteins: biochemical mechanism and biological consequences. 228 87

Activated polymorphonuclear leucocytes (neutrophils) can generate both intracellular and extracellular luminol dependent chemiluminescence. As luminol dependent chemiluminescence largely measures the activity of the myeloperoxidase-H2O2 system, and as the extracellular activity of this enzyme may be responsible for the tissue damage associated with inflammatory conditions such as rheumatoid arthritis, the aim of this work was to distinguish between intracellular and extracellular chemiluminescence so that the extracellular activity of this enzyme could be evaluated. Azide was used as a non-specific inhibitor of both intracellular and extracellular chemiluminescence, whereas anti-(human myeloperoxidase) IgG was used to inhibit specifically the extracellular activity of myeloperoxidase. Thus this IgG is a useful analytical tool for studying the extracellular activity of the myeloperoxidase-H2O2 system in the pathology of rheumatoid arthritis.
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PMID:Role of myeloperoxidase in intracellular and extracellular chemiluminescence of neutrophils. 253 5

alpha 1-Antiproteinase is the major inhibitor of proteolytic enzymes, such as elastase, in human plasma. Its elastase-inhibitory capacity can be inactivated by exposure to hydroxyl radicals (.OH) generated either by pulse radiolysis or by an Fe3+-EDTA/H2O2/ascorbic acid system. Inactivation of alpha 1-antiproteinase by radiolytically-generated .OH under anoxic conditions was decreased by adding a range of anti-inflammatory drugs to the reaction mixtures, including the thiol compound penicillamine. However, under conditions favouring formation of oxysulphur radicals, protection by thiols such as penicillamine was much decreased. It is proposed that sulphur-containing radicals resulting from attack of biologically-produced oxidants upon penicillamine in the presence of O2 can themselves inactivate alpha 1-antiproteinase, and that such radicals might contribute to the side-effects produced by penicillamine or gold thiol therapy in rheumatoid arthritis.
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PMID:Apparent inactivation of alpha 1-antiproteinase by sulphur-containing radicals derived from penicillamine. 255 47

Long-term administration of SASP does offer clinical benefit and has a demonstrable disease modifying effect in rheumatoid arthritis, though its mode of action remains obscure. We have studied the in vitro effects of SASP and its metabolites, that is SP, ASA, AcSP and AcASA, on the blast-formation of lymphocytes, the cytotoxic activity of NK cell, the phagocytosis and H2O2 production of monocyte and the fMLP-induced chemotaxis and superoxide anions production of PMNs. We have obtained the following results: (1) the blast-formation of lymphocytes by PHA and Protein A was significantly inhibited by SASP, but not by the metabolites; (2) the cytotoxic activity of the NK cell was inhibited by SP and AcSP, but not by SASP, ASA and AcASA; (3) on monocyte, SP, AcSP and AcASA inhibited phagocytosis, and all of drugs had no effect on the production of H2O2; (4) on PMNs, SASP, SP and ASA significantly inhibited fMLP-induced chemotaxis, and SASP and all of its metabolites significantly inhibited a release of superoxide anions by stimulation of fMLP and PMA; (5) SASP and ASA scavenged superoxide radical at the concentration comparable to clinical doses. In vivo, the above effects may be exhibited in proportion to each blood concentrations of drugs. In particular, it appears that SASP, SP and AcSP play an important role in the therapeutic efficacy in rheumatoid arthritis.
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PMID:[Effect of salazosulfapyridine and its metabolites on immunocompetent cells]. 257 59

Free radical attack upon uric acid (UA) nonenzymatically generates allantoin (ALT), and the presence of ALT in human plasma suggests free radical intervention within the body. To assess this possibility, we determined plasma ALT in patients with chronic renal failure (CRF) and some other diseases by high-performance liquid-chromatography (HPLC). Heparinized blood samples were obtained from 15 healthy controls, CRF patients under conservative management (n = 13) or hemodialysis (HD) treatment (n = 8) and patients with gout (n = 11) or rheumatoid arthritis (RA, n = 13). Although not seen in normal plasma samples, ALT was detected in 63% and 31% of patients receiving HD and conservative treatment, respectively. The plasma ALT level decreased after each HD session. ALT was also detected in 18% and 23% of the patients with gout and RA, respectively. ALT was found to be generated by ultraviolet radiation or by the addition of H2O2 to a normal pool-plasma. Addition of Fe(2+) and H2O2 increased the ALT level to about twice that of only H2O2. Addition of either catalase, desferal, EDTA, DMTU, DMSO or mannitol to the plasma decreased ALT generation. These findings suggest that ALT is generated from UA attacked by free radicals, especially by the hydroxyl radical, and that UA plays a role as an antioxidant in the plasma of patients with CRF and some other diseases.
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PMID:[A new role of uric acid as an antioxidant in human plasma]. 260 55

Oxidant species such as superoxide radical (O.2-), hydrogen peroxide (H2O2), hydroxyl radical (HO.), and lipid peroxides (LOOH) are becoming increasingly implicated in human disease. However, the question of whether such oxidants are a major cause of tissue injury in human disease or are merely produced during such injury has been difficult to answer because of inadequate experimental techniques, and possibly because of an overemphasis on lipid peroxidation as a mechanism of oxidant injury. Recent developments in methodology, in our understanding of the primary mechanism of oxidant toxicity to cells, and in concepts of antioxidant protection are reviewed. Good evidence now exists for some role of oxidant damage to tissues in the pathology of several human diseases, including rheumatoid arthritis, reperfusion injury, immune injury to lung and kidney, and cerebral trauma or ischemia. These have led to promising suggestions for new therapeutic approaches.
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PMID:Oxidants and human disease: some new concepts. 282 68


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