Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0003864 (arthritis)
 69,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats with adjuvant-induced arthritis were observed to have increased alkaline phosphatase, acid phosphatase (two isozymes), and ATPase activity in the radial zone of articular cartilage, at the osteochondral junction, and in the bone marrow elements. A qualitative and quantitative reduction azure A, PAS colloidal iron, alcian blud critical electrolyte concentration staining (0.4 and 0.9 M (mg Cl2) was also observed in corresponding areas. These findings suggest the degradation of the articular cartilage matrix with possible simultaneous or resultant calcification.
Arthritis Rheum
PMID:Histochemical investigation of adjuvant-induced arthritis. 13 70

Injury to the gastric mucosa associated with the use of aspirin and other NSAIDs appears to be principally attributable to impairment of mucosal defense mechanisms against damage by acid and pepsin, that are mediated largely by prostaglandins. Modification of the drug dose or delivery system and substitution of a less gastrotoxic agent, such as a nonacetylated salicylate, are among the initial approaches that have been used to reduce the risk of NSAID-induced gastric injury. Other recommended measures include the avoidance of cigarettes, concentrated alcohol, and combination therapy with multiple NSAIDs. In high-risk patients, especially those with previous peptic ulcer disease, prophylactic therapy with a cytoprotective or acid-secretion-reducing drug is indicated. Drugs often used in the treatment of NSAID-associated mucosal damage include H2-receptor blockers, which inhibit gastric acid secretion, and agents such as synthetic prostaglandins and sucralfate, which improve mucosal defense. More potent inhibitors of gastric acid, such as drugs which block H+/K+ ATPase, may offer improved results for healing NSAID-induced gastric ulcers resistant to other therapy. Because NSAID-induced gastric lesions are not always accompanied by symptoms, patients receiving these drugs must be closely monitored for signs of gastric injury. Small ulcers can generally be healed with antiulcer medications. In patients with larger ulcers, withdrawal of NSAID therapy is usually required, at least until healing has occurred.
Semin Arthritis Rheum 1990 Feb
PMID:NSAID-induced gastric injury: its pathogenesis and management. 218 75

The transport of calcium in vesicles of sarcoplasmic reticulum isolated from muscle specimens from 6 patients with early, active polymyositis and from 11 controls was examined. The time courses of calcium uptake and calcium-dependent ATPase activity were measured simultaneously. Calcium uptake by sarcoplasmic reticulum vesicles from patients with polymyositis was 50% less than that by vesicles from controls (P less than 0.001). In contrast, no difference in calcium-dependent ATPase activity was noted between vesicles from patients with polymyositis and controls. The demonstrated defect may be important in the pathogenesis of muscle weakness in polymyositis.
Arthritis Rheum 1984 Mar
PMID:Dysfunction of the sarcoplasmic reticulum in polymyositis. 623 Oct 32

We used the differential display technique in order to detect a new gene involved in murine type II collagen-induced arthritis (CIA). In this study, we have identified a novel gene, IF1, whose expression level is increased during the natural course of CIA. Northern blot analyses suggest that IF1 is involved in the natural course of CIA but is not involved as a trigger of CIA. IF1 is considered to be the murine ATPase inhibitor gene for several reasons. First, IF1 shows an extremely high homology to the rat ATPase inhibitor; the highly conserved region between rat and bovine amino acid residues 22-45, which is the minimum sequence showing ATPase inhibitory activities, is also highly conserved in IF1. Second, IF1 possesses a histidine-rich region in the same area, which is thought to be important for regulation of mammalian inhibitors. Third, the tissue distribution of IF1 is very suggestive. The expression of IF1 was very strong in energetic organs such as the heart, brain and kidney, and the development of arthritis requires great amounts of ATP. As arthritis develops rapidly, the cellular ATP pool may be decreased. Before the ATP pool is exhausted, the ATPase inhibitor may serve as a brake for ATP hydrolysis. If the supply of free energy can be reduced, the inflammation of arthritis may in turn be restored. Our hypothesis is that the ATPase inhibitor is involved in regulating the inflammatory responses.
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PMID:Differential display analysis of murine collagen-induced arthritis: cloning of the cDNA-encoding murine ATPase inhibitor. 949 1

The aim of the present study was to evaluate the changes caused by adjuvant-induced arthritis in liver mitochondria and to investigate the effects of the nonsteroidal anti-inflammatory drug nimesulide. The main alterations observed in liver mitochondria from arthritic rats were: higher rates of state IV and state III respiration with beta-hydroxybutyrate as substrate; reduced respiratory control ratio and impaired capacity for swelling dependent on beta-hydroxybutyrate oxidation. No alterations were found in the activities of NADH oxidase and ATPase. Nimesulide produced: (1) stimulation of state IV respiration; (2) decrease in the ADP/O ratio and in the respiratory control ratio; (3) stimulation of ATPase activity of intact mitochondria; (4) inhibition of swelling driven by the oxidation of beta-hydroxybutyrate; (5) induction of passive swelling due to NH(3)/NH(4)+ redistribution. The activity of NADH oxidase was insensitive to nimesulide. Mitochondria from arthritic rats showed higher sensitivity to nimesulide regarding respiratory activity. The results of this work allow us to conclude that adjuvant-induced arthritis leads to quantitative changes in some mitochondrial functions and in the sensitivity to nimesulide. Direct evidence that nimesulide acts as an uncoupler was also presented. Since nimesulide was active in liver mitochondria at therapeutic levels, the impairment of energy metabolism could lead to disturbances in the liver responses to inflammation, a fact that should be considered in therapeutic intervention.
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PMID:The uncoupling effect of the nonsteroidal anti-inflammatory drug nimesulide in liver mitochondria from adjuvant-induced arthritic rats. 1133 36

Molecular imaging can reveal in vivo analysis and quantification of biochemical reactions. To enable cell-surface imaging of receptors, novel ligands have been developed which can be radiolabeled or imaged by bioluminescence. Specific examples include somatostatin receptors, estrogen and progesterone receptors, receptors involved in adhesion and externalization of phosphatidyl serine as an indicator of apoptosis. Central nervous system imaging can be carried out using ligands for receptors including dopamine, serotonin and Gamma amino butyric acid (GABA). In addition, tumor and metabolic imaging can be carried out with the Na-K ATPase pump using the tracer thallium-201 for SPECT or F-18 FDG for PET imaging. Finally, novel receptors or endogenous metabolic pathways can be analyzed combining cell-gene therapy to create specific tracer targets in cells that can be studied by molecular imaging. The challenge of molecular imaging is to first identify key pathways that are unique for a specific disease processes, such as atherosclerosis, cancer, CNS disorders, immunologic and arthritis disorders and next to devise a high-affinity specific small molecular ligand that can be adapted to be a radiolabeled tracer to study this pathway. Advances in genomics and proteomics combine with new peptide-chemistry approaches should provide a large number of targets and tracers in the near future to achieve these imaging objectives.
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PMID:Molecular imaging: new applications for biochemistry. 1255 16

The osteoclast is a bone-degrading polykaryon. Recent studies have clarified the differentiation of this cell and the biochemical mechanisms it uses to resorb bone. The osteoclast derives from a monocyte/macrophage precursor. Osteoclast formation requires permissive concentrations of M-CSF and is driven by contact with mesenchymal cells in bone that bear the TNF-family ligand RANKL. Osteoclast precursors express RANK, and the interaction between RANKL and RANK (which is inhibited by OPG) is the major determinant of osteoclast formation. Hormones, such as PTH/PTHrP, glucocorticoids and 1,25(OH)2D3, and humoral factors, including TNFalpha, interleukin-1, TGFss and prostaglandins, influence osteoclast formation by altering expression of these molecular factors. TNFalpha, IL-6 and IL-11 have also been shown to promote osteoclast formation by RANKL-independent processes. RANKL-dependent/independent osteoclast formation is likely to play an important role in conditions where there is pathological bone resorption such as inflammatory arthritis and malignant bone resorption. Osteoclast functional defects cause sclerotic bone disorders, many of which have recently been identified as specific genetic defects. Osteoclasts express specialized proteins including a vacuolar-type H+-ATPase that drives HCl secretion for dissolution of bone mineral. One v-ATPase component, the 116 kD V0 subunit, has several isoforms. Only one isoform, TCIRG1, is up-regulated in osteoclasts. Defects in TCIRG1 are common causes of osteopetrosis. HCl secretion is dependent on chloride channels; a chloride channel homologue, CLCN7, is another common defect in osteopetrosis. Humans who are deficient in carbonic anhydrase II or who have defects in phagocytosis also have variable defects in bone remodelling. Organic bone matrix is degraded by thiol proteinases, principally cathepsin K, and abnormalities in cathepsin K cause another sclerotic bone disorder, pycnodysostosis. Thus, bone turnover in normal subjects depends on relative expression of key cytokines, and defects in osteoclastic turnover usually reflect defects in specific ion transporters or enzymes that play essential roles in bone degradation.
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PMID:Recent advances in osteoclast biology and pathological bone resorption. 1470 87

There is considerable evidence that osteoclasts are involved in the pathogenesis of juxta-articular bone destruction in rheumatoid arthritis. Vacuolar ATPases (V-ATPases), which are highly expressed in the ruffled border membrane of osteoclasts, play a central role in the process of bone resorption, and V-ATPase inhibitors are effective in preventing bone destruction in several animal models of lytic bone diseases. Here, we evaluated for the first time the effects of V-ATPase inhibition in rats with adjuvant-induced arthritis (AIA) using FR177995, a novel V-ATPase inhibitor. FR177995 completely inhibited H(+) transport driven by V-ATPase, but exerted no effect on the H(+) transport activities of F- and P-ATPase, indicating that FR177995 is a specific inhibitor of V-ATPase. FR177995 acted directly on osteoclastic bone resorption and equally inhibited in vitro bone resorption stimulated by IL-1, IL-6 or PTH. In addition, FR177995 dose-dependently reduced retinoic acid-induced hypercalcemia in thyroparathyroidectomized-ovariectomized rats. When FR177995 was administered to AIA rats once a day, the loss of femoral bone mineral density was significantly improved. Moreover, indicators of cartilage damage (arthritis score and glycosaminoglycan content in the femoral condyles) and inflammation parameters (paw swelling volume, erythrocyte sedimentation rate and plasma sialic acid level) were found to be unexpectedly ameliorated. These results strongly suggest that V-ATPase may be an interesting drug target in the treatment of rheumatoid arthritis.
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PMID:FR177995, a novel vacuolar ATPase inhibitor, exerts not only an inhibitory effect on bone destruction but also anti-immunoinflammatory effects in adjuvant-induced arthritic rats. 1715 74

Strong evidence suggests a mechanistic link between cholesterol metabolism and the formation of amyloid-beta peptides, the principal constituents of senile plaques found in the brains of patients with Alzheimer's disease. Here, we show that several fibrates and diaryl heterocycle cyclooxygenase inhibitors, among them the commonly used drugs fenofibrate and celecoxib, exhibit effects similar to those of cholesterol on cellular membranes and amyloid precursor protein (APP) processing. These drugs have the same effects on membrane rigidity as cholesterol, monitored here by an increase in fluorescence anisotropy. The effect of the drugs on cellular membranes was also reflected in the inhibitory action on the sarco(endo)plasmic reticulum Ca(2+)-ATPase, which is known to be inhibited by excess ordering of membrane lipids. The drug-induced decrease of membrane fluidity correlated with an increased association of APP and its beta-site cleaving enzyme BACE1 with detergent-resistant membranes (DRMs), which represent membrane clusters of substantial rigidity. DRMs are hypothesized to serve as platforms for the amyloidogenic processing of APP. According to this hypothesis, both cholesterol and the examined compounds stimulated the beta-secretase cleavage of APP, resulting in a massive increase of secreted amyloid-beta peptides. The membrane-ordering potential of the drugs was observed in a cell-free assay, suggesting that the amyloid-beta promoting effect was analog to cholesterol due to primary effect on membrane rigidity. Because fenofibrate and celecoxib are widely used in humans as hypolipidemic drugs for prevention of atherosclerosis and as anti-inflammatory drugs against arthritis, possible side effects should be considered upon long-term clinical application.
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PMID:Cholesterol-like effects of selective cyclooxygenase inhibitors and fibrates on cellular membranes and amyloid-beta production. 1739 89

Rheumatoid arthritis (RA) is a chronic inflammatory disorder affecting 1% of the population worldwide. Pulsed electromagnetic field (PEMF) has a number of well-documented physiological effects on cells and tissues including antiinflammatory effect. This study aims to explore the antiinflammatory effect of PEMF and its possible mechanism of action in amelioration of adjuvant induced arthritis (AIA). Arthritis was induced by a single intradermal injection of heat killed Mycobacterium tuberculosis at a concentration of 500 microg in 0.1 ml of paraffin oil into the right hind paw of rats. The arthritic animals showed a biphasic response regarding changes in the paw edema volume. During the chronic phase of the disease, arthritic animals showed an elevated level of lipid peroxides and depletion of antioxidant enzymes with significant radiological and histological changes. Besides, plasma membrane Ca(2+) ATPase (PMCA) activity was inhibited while intracellular Ca(2+) level as well as prostaglandin E(2) levels was noticed to be elevated in blood lymphocytes of arthritic rats. Exposure of arthritic rats to PEMF at 5 Hzx4 microT x 90 min, produced significant antiexudative effect resulting in the restoration of the altered parameters. The antiinflammatory effect could be partially mediated through the stabilizing action of PEMF on membranes as reflected by the restoration of PMCA and intracellular Ca(2+) levels in blood lymphocytes subsequently inhibiting PGE(2) biosynthesis. The results of this study indicated that PEMF could be developed as a potential therapy for RA in human beings.
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PMID:Low frequency and low intensity pulsed electromagnetic field exerts its antiinflammatory effect through restoration of plasma membrane calcium ATPase activity. 1753 62


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