UMLS:C0003864 - FACTA Search

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)

Tetracyclines are potent inhibitors of 2 major matrix metalloproteinases which have been implicated in connective tissue degradation: collagenase and Type IV collagenase/gelatinase. We directly identified these enzyme activities in extracts of inflamed paw tissue from rats with adjuvant arthritis. Oral tetracycline therapy suppressed metalloproteinase activity in arthritic tissue, but even very high doses failed to exhibit substantial antiinflammatory efficacy (reduced joint swelling and paw diameter). Flurbiprofen, a conventional nonsteroidal antiinflammatory drug, reduced inflammatory indices as expected. The combination of the 2 agents administered orally completely inhibited collagenase activity, significantly inhibited gelatinase activity and produced substantial normalization of radiographic joint damage, far greater than either drug alone. Tetracycline inhibition curves in vitro suggest that the collagenase in this tissue is not of fibroblast origin. Tetracycline derivatives might be useful adjuncts to prevention of tissue damage in chronic inflammatory arthritides.
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PMID:Tetracyclines suppress matrix metalloproteinase activity in adjuvant arthritis and in combination with flurbiprofen, ameliorate bone damage. 140 31

Gelatinases (type IV collagenases) produced by normal peripheral blood leukocytes were studied by the use of a substrate conversion assay. When monocytes were stimulated with IL-1 beta discrete amounts of a 85-kDa gelatinase were detected. This type of gelatinase comigrated with a phorbol ester-inducible metalloproteinase from human tumor cells. The levels of induction of the monocytic enzyme after stimulation with IL-1, double-stranded RNA, LPS, and mitogens paralleled those of the secondary cytokine IL-6. When peripheral blood neutrophils were stimulated with IL-8 or PMA significant amounts of a 91-kDa neutrophil gelatinase were released, whereas with IL-1 beta no effect was observed. Both neutrophil and monocyte gelatinases cross-reacted in immunoprecipitation experiments with tumor cell-derived gelatinases. Further evidence for structural similarity between the IL-1-inducible monocytic (85 kDa) and the IL-8-regulated neutrophilic (91 kDa) gelatinases was obtained after purification of the proteins to homogeneity: both gelatinases possessed an identical amino terminal amino acid sequence and appeared as truncated forms of gelatinase from tumor cells. Synovial fluids of arthritic joints contained extremely high concentrations of the 91-kDa gelatinase. The concentrations of this type of gelatinase were correlated with the titers of the marker cytokine IL-6. The controlled production and activity of leukocyte-derived gelatinase may play an essential role in local proteolysis of the extracellular matrix and in leukocyte migration. In the arthritis patient this enzyme might contribute to the pathogenesis of joint destruction and might constitute a useful marker of disease status.
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PMID:Cytokine-mediated regulation of human leukocyte gelatinases and role in arthritis. 193 76

An antiserum was raised to rabbit bone gelatinase (type IV collagenase). It was shown by immunoblotting to detect both the low Mr (72,000) enzyme produced by connective tissue cells from rabbit, pig, human and mouse, as well as the high Mr (94,000-97,000) enzymes secreted by macrophages and polymorphonuclear leucocytes from these species, and by rabbit chondrocytes and endothelial cells. Crossed immunoblotting, antibody inhibition and deglycosylation studies indicated that the high and low Mr forms of gelatinase are immunologically distinct gene products, although their substrate specificity profiles are identical. The anti-gelatinase antiserum was used to immunolocalize the enzyme. Gelatinase was most efficiently detected in rabbit monocytes and connective tissue cells, but cells derived from the human and pig gave poor immunostaining, although mouse gelatinase stained well. The anti-gelatinase antiserum stained cells of the synovial tissue of rabbits at 14 days after induction of an antigen-induced arthritis, demonstrating its usefulness as a tool to assess the role of this enzyme in degradative events.
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PMID:Gelatinase (type IV collagenase) immunolocalization in cells and tissues: use of an antiserum to rabbit bone gelatinase that identifies high and low Mr forms. 255 14

The destruction of articular cartilage in immune inflammatory arthritic disease involves the proteolytic degradation of its extracellular matrix. The role of activated matrix metalloproteinases (MMPs) in the chondrodestructive process was studied by identifying a selective cleavage product of aggrecan in murine arthritis models initiated by immunization with either type II collagen or proteoglycan. We conducted semiquantitative immunocytochemical studies of VDIPEN341 using a monospecific polyclonal antibody requiring the free COOH group of the COOH-terminal Asn for epitope detection. This antibody recognizes the aggrecan G1 domain fragment generated by MMP [i.e., stromelysin (SLN) or gelatinase A] cleavage of aggrecan between Asn341-Phe342 but does not recognize intact aggrecan. VDIPEN was undetectable in normal mouse cartilage but was observed in the articular cartilage (AC) of mice with collagen-induced arthritis 10 d after immunization, without histological damage and clinical symptoms. This aggrecan neoepitope was colocalized with high levels of glycosaminoglycans (GAGs) in pericellular matrices of AC chondrocytes but was not seen at the articular surface at this early time. Digestion of normal (VDIPEN negative) mouse paw cryosections with SLN also produced heavy pericellular VDIPEN labeling. Computer-based image analysis showed that the amount of VDIPEN expression increased dramatically by 20 d (70% of the SLN maximum) and was correlated with GAG depletion. Both infiltration of inflammatory cells into the synovial cavity and early AC erosion were also very prominent at this time. Analysis of adjacent sections showed that both induction of VDIPEN and GAG depletion were strikingly codistributed within sites of articular cartilage damage. Similar results occurred in proteoglycan-induced arthritis, a more progressive and chronic model of inflammatory arthritis. These studies demonstrate for the first time the MMP-dependent catabolism of aggrecan at sites of chondrodestruction during inflammatory arthritis.
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PMID:VDIPEN, a metalloproteinase-generated neoepitope, is induced and immunolocalized in articular cartilage during inflammatory arthritis. 753 57

The tetracycline analogs minocycline and doxycycline are inhibitors of metalloproteinases (MMPs) and have been shown to inhibit angiogenesis in vivo. To further study the mechanism of action of these compounds we tested them in an in vitro model of angiogenesis: aortic sprouting in fibrin gels. Angiogenesis was quantitated in this system by a unique application of planar morphometry. Both compounds were found to potently inhibit angiogenesis in this model. To further characterize the activity of these compounds against MMPs, we determined the IC50S of both compounds against representatives of three classes of metalloproteinases: fibroblast collagenase, stromelysin, and gelatinase A. Doxycycline was found to inhibit collagenase, gelatinase A and stromelysin with IC50S of 452 microM, 56 microM and 32 microM, respectively. Minocycline was found to inhibit only stromelysin in the micromolar range with an IC50 of 290 microM. Since these results suggest that these compounds may not have been inhibiting in vitro angiogenesis by an MMP-dependent mechanism, we decided to test the effects of the potent MMP inhibitor BB-94. This compound failed to inhibit aortic sprouting in fibrin gels, thus strongly suggesting that both doxycycline and minocycline act by an MMP-independent mechanism. These results have implications for the mechanism of action of tetracycline analogs, particularly where they are being considered for the treatment of disorders of extracellular matrix degradation including periodontal disease, arthritis, and tumor angiogenesis.
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PMID:The tetracycline analogs minocycline and doxycycline inhibit angiogenesis in vitro by a non-metalloproteinase-dependent mechanism. 754 75

To examine the clinical significance of neutrophil gelatinase in rheumatic diseases, plasma and synovial fluid (SF) gelatinase levels were determined in 62 patients with rheumatoid arthritis (RA), 12 patients with ankylosing spondylitis (AS), 18 patients with osteoarthritis (OA) and 17 healthy controls. The gelatinase level was measured by enzyme-linked immunoassay (ELISA). The assay had a sensitivity of 1 ng/ml and a working range of 5-25 ng/ml. Gelatinase levels were significantly higher in the plasma of patients with RA and of patients with RA complicated by amyloidosis or vasculitis as compared to those of healthy controls. Moreover, the mean value of gelatinase in the plasma of patients with RA complicated by vasculitis was found to be significantly higher than that of RA patients without vasculitis. A significant increase in gelatinase concentration was also observed in the plasma of AS patients but not in the plasma of patients with OA. The concentration of gelatinase in the RA SF samples was much higher (18-fold) than the level of the enzyme in the plasma of RA patients. There was also a higher concentration of gelatinase (four-fold) in OA SF compared with OA plasma. The results suggested that circulating gelatinase may reflect some degree of neutrophil activation in patients with inflammatory arthritis, especially in those with RA complicated by vasculitis. However, the results did not allow a differentiation between chronic and acute inflammation.
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PMID:Neutrophil gelatinase levels in plasma and synovial fluid of patients with rheumatic diseases. 765 65

Members of the matrix metalloproteinase (MMP) family have been implicated in disease states such as arthritis, periodontal disease, and tumor cell invasion and metastasis. Stromelysin 1 (MMP-3) has a broad substrate specificity and participates in the activation of several MMP zymogens. We examined known sequences of MMP-3 cleavage sites in natural peptides and proteins and compared sequence specificities of MMP-3 and interstitial collagenase (MMP-1) in order to design fluorogenic substrates that (i) would be hydrolyzed rapidly by MMP-3, (ii) would discriminate between MMP-3 and MMP-1, and (iii) could be monitored continuously without interference from MMP amino acid residues. Designed substrates were then screened for activity toward MMP-1, gelatinase A (MMP-2), MMP-3, and gelatinase B (MMP-9). The first of these substrates, NFF-1 (Mca-Pro-Lys-Pro-Gln-Gln-Phe-Phe-Gly-Leu-Lys-(Dnp)-Gly, where Mca is (7-methoxycoumarin-4-yl)acetyl and Dnp is 2,4-dinitrophenyl), was hydrolyzed equally well by MMP-3 and MMP-2 (kcat/Km approximately 11,000 s-1 M-1). MMP-1 had 25% of the activity of MMP-3 toward NFF-1. The second substrate, NFF-2 (Mca-Arg-Pro-Lys-Pro-Tyr-Ala-Nva-Trp-Met-Lys(Dnp)-NH2, where Nva is norvaline), was hydrolyzed 60 times more rapidly by MMP-3 (kcat/Km = 59,400 s-1 M-1) than MMP-1. Unfortunately, NFF-2 showed little discrimination between MMP-3, MMP-2 (kcat/Km = 54,000 s-1 M-1), and MMP-9 (kcat/Km = 55,300 s-1 M-1). The third substrate, NFF-3 (Mca-Arg-Pro-Lys-Pro-Val-Glu-Nva-Trp-Arg-Lys(Dnp)-NH2), was hydrolyzed rapidly by MMP-3 (kcat/Km = 218,000 s-1 M-1) and very slowly by MMP-9 (kcat/Km = 10,100 s-1 M-1), but there was no significant hydrolysis by MMP-1 and MMP-2. NFF-3 is the first documented synthetic substrate hydrolyzed by only certain members of the MMP family and thus has important application for the discrimination of MMP-3 activity from that of other MMPs. Although NFF-3 was designed by assuming that substrate subsites were independent and hence free energy changes derived from single mutation experiments were additive, we found discrepancies between predicted and experimental kcat/Km values, one on the order of 2000-5000. Thus, the design of additional discriminatory MMP substrates may require approaches other than assuming additive free energy changes, such as screening synthetic libraries and consideration of secondary and tertiary structures of substrates and the enzyme.
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PMID:Design and characterization of a fluorogenic substrate selectively hydrolyzed by stromelysin 1 (matrix metalloproteinase-3). 806 13

The distribution of the matrix metalloproteinases, collagenase, stromelysin, gelatinases A and B, and the tissue inhibitor of metalloproteinases in cartilage and synovium removed from rabbits up to 27 days after induction of two models of arthritis was investigated by immunolocalization. Following intra-articular injection of poly-D-lysine/hyaluronic acid coacervate, collagenase and stromelysin were found bound to cartilage matrix, but there was little increase in chondrocyte synthesis of these enzymes. The synovium underwent a complex wound healing response involving invagination and encapsulation of the coacervate and inflammatory cell debris, during which all four metalloproteinases and tissue inhibitor of metalloproteinase could be immunolocalized. The second model, intra-articular injection of ovalbumin into sensitized rabbits, caused considerable chondrocyte necrosis; collagenase was found bound to cartilage matrix on day 13, although again there was little evidence of synthesis by chondrocytes. Inflammatory cell infiltration of meniscoid synovia took place initially, followed by fibrosis involving macrophagelike cells secreting gelatinase A. In both models there was rapid loss of glycosaminoglycan metachromasia from the cartilage matrix. These results are discussed in relation to current knowledge of metalloproteinase involvement in the chronic rheumatoid synovial pannus erosion of cartilage in humans. The data suggest that there are considerable differences between rheumatoid arthritis and these models, and their use must therefore be carefully defined.
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PMID:Rabbit models of arthritis: immunolocalization of matrix metalloproteinases and tissue inhibitor of metalloproteinase in synovium and cartilage. 834 6

Proteolytic remodeling of the extracellular matrix occurs normally during development and pathologically in arthritis, tumor metastasis, wound healing, and angiogenesis. The major extracellular matrix-degrading proteinases belong to the matrix metalloproteinase (MMP) and plasminogen activator gene families. Intracerebral injection of 72-kDa type IV collagenase (gelatinase A) opens the blood-brain barrier. During hemorrhagic brain injury or intracerebral injection of proinflammatory cytokines, endogenous production of 92-kDa type IV collagenase (gelatinase B) occurs. The gelatinase B gene contains a phorbol ester responsive region (TRE) that binds AP-1 proteins, including c-Fos/c-Jun dimer, the early immediate response gene products. Maximum production of gelatinase B in injury occurs between 16 and 24 h, making this a late effector gene. The serine proteinase, urokinase-type plasminogen activator (uPA), is also produced at that time. Gelatinases and plasminogen activators work in concert to disrupt basement membranes proteolytically. A similar process opens the blood-brain barrier after ischemic and hemorrhagic brain injury, leading to secondary vasogenic brain edema. Delayed damage by proteolytic cascade enzymes provides opportunities for treatment much later than had been thought possible. Potential treatments possible in this second therapeutic window include interfering with the genes that produce the MMPs or inhibiting the action of the gene products.
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PMID:Matrix metalloproteinases in brain injury. 859 11

Carboxyalkyl peptides containing a biphenylylethyl group at the P1' position were found to be potent inhibitors of stromelysin-1 (MMP-3) and gelatinase A (MMP-2), in the range of 10-50 nM, but poor inhibitors of collagenase (MMP-1). Combination of a biphenylylethyl moiety at P1', a tert-butyl group at P2', and a methyl group at P3' produced orally bioavailable inhibitors as measured by an in vivo model of MMP-3 degradation of radiolabeled transferrin in the mouse pleural cavity. The X-ray structure of a complex of a P1-biphenyl inhibitor and the catalytic domain of MMP-3 is described. Inhibitors that contained halogenated biphenylylethyl residues at P1' proved to be superior in terms of enzyme potency and oral activity with 2(R)-[2-(4'-fluoro-4-biphenylyl)ethyl]-4(S)-n-butyl-1,5-pentane dioic acid 1-(alpha(S)-tert-butylglycine methylamide) amide (L-758,354, 26) having a Ki of 10 nM against MMP-3 and an ED50 of 11 mg/kg po in the mouse pleural cavity assay. This compound was evaluated in acute (MMP-3 and IL-1 beta injection in the rabbit) and chronic (rat adjuvant-induced arthritis and mouse collagen-induced arthritis) models of cartilage destruction but showed activity only in the MMP-3 injection model (ED50 = 6 mg/kg iv).
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PMID:Inhibition of stromelysin-1 (MMP-3) by P1'-biphenylylethyl carboxyalkyl dipeptides. 908 93

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