EC:3.4.21.37 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.37 (neutrophil elastase)
4,078 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pulmonary tree is exposed to neutrophil-derived serine proteinases and matrix metalloproteinases in inflammatory lung diseases, but the degree to which these enzymes participate in tissue injury remains undefined, as does the therapeutic utility of antiproteinase-based interventions. To address these issues, an in vivo rat model was examined in which the intrapulmonary deposition of immune complexes initiates a neutrophil-mediated acute alveolitis. In vitro studies demonstrated that rat neutrophils can release neutrophil elastase and cathepsin G as well as a neutrophil progelatinase, which was subsequently activated by either chlorinated oxidants or serine proteinases. Based on structural homologies that exist between rat and human neutrophil proteinases, rat neutrophil elastase and cathepsin G activities could be specifically regulated in vitro by recombinant human secretory leukoproteinase inhibitor, and rat neutrophil gelatinase activity proved sensitive to inhibition by recombinant human tissue inhibitor of metalloproteinases 2. When either of the recombinant antiproteinases were instilled intratracheally, in vivo lung damage as assessed by increased permeability or hemorrhage was significantly reduced. Furthermore, the coadministration of the serine and matrix metalloproteinase inhibitors almost completely prevented pulmonary damage while effecting only a modest decrease in neutrophil influx. These data support a critical role for neutrophil-derived proteinases in acute lung damage in vivo and identify recombinant human secretory leukoproteinase and recombinant human tissue inhibitor of metalloproteinases 2 as potentially efficacious interventions in inflammatory disease states.
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PMID:In vivo suppression of immune complex-induced alveolitis by secretory leukoproteinase inhibitor and tissue inhibitor of metalloproteinases 2. 790 51

The role of matrix metalloproteinase-9 (MMP-9, 92 kDa gelatinase/type IV collagenase) in invasion of mononuclear phagocytes was studied with U937 monoblastoid cells. 12-o-tetradecanoyl 13-phorbol acetate (TPA) differentiated them to macrophage-like cells with induction of MMP-9, and tumor necrosis factor alpha (TNF alpha) and interleukin-1 alpha (IL-1 alpha) stimulated the production of MMP-9 by TPA-treated cells. TNF alpha also induced the production of MMP-9 by TPA-untreated U937 cells without morphological differentiation. Other agents including dimethyl sulfoxide (DMSO), all-trans-retinoic acid (all-trans-RA), platelet-derived growth factor and 3';5'-cyclic monophosphate had no effects on MMP-9 production by TPA-treated or -untreated cells, but all-trans-RA and DMSO did have a morphological effect on the differentiation of the cells. These data suggest that MMP-9 production by U937 cells is regulated by a mechanism independent of the differentiation to macrophage-like cells. MMP-9 was purified to homogeneity as an inactive zymogen with M(r) 92,000 (proMMP-9) from TPA-differentiated U937 cells treated with TNF alpha. ProMMP-9 was activated by p-aminophenylmercuric acetate (APMA) generating an active species of M(r) 67,000. Trypsin and cathepsin G also attained activation of the zymogen to its full activity obtained by APMA activation, but plasmin, leukocyte elastase, thrombin and plasma kallikrein had no ability to activate it. APMA-activated MMP-9 degraded type I gelatin readily and cleaved native collagen types III, IV and V. Invasion assays using reconstituted basement membrane coupled with a type IV collagenolysis assay showed good correlations between invasiveness, type IV collagenolysis and proMMP-9 production. Invasion was significantly inhibited by EDTA, alpha 2-macroglobulin and tissue inhibitor of metalloproteinases-1, but not by inhibitors of cathepsin G and leukocyte elastase. These data suggest that MMP-9 plays an important role in the invasion of mononuclear phagocytes through basement membranes.
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PMID:Matrix metalloproteinase-9 (92 kDa gelatinase/type IV collagenase) from U937 monoblastoid cells: correlation with cellular invasion. 831 9

Interstitial collagenases, members of the matrix metalloproteinase family, are key initiators of collagen destruction during various disorders such as rheumatoid arthritis. Recently interstitial collagenases were found to efficiently degrade an additional non-collagenous substrate, the serum alpha-1-antitrypsin (AAT also called alpha-1-proteinase inhibitor or serpin). Serpins are major endogenous inhibitors of serine proteinases, particularly neutrophil elastase. Of relevance to neutrophil-mediated collagen degradation, the tetracycline family of antibiotics are now known to inhibit inhibit mammalian collagenases by a mechanism unrelated to their antimicrobial activity. This study identifies an additional mechanism by which tetracyclines may retard tissue breakdown during inflammatory diseases. Doxycycline, added to the reaction mixture as in concentrations as low as 10 microM, which correspond to levels of the drug readily achieved in vivo, produced detectable inhibition of serpinase activity of neutrophil collagenase, although levels of 50-100 microM or greater were required to reduce AAT degradation more than 75%. The concentration of doxycycline to inhibit 50% (IC50 of serpinase activity) of AAT degradation by neutrophil collagenase was found to approximate 20 microM, a value similar to the IC50 for doxycycline required to inhibit collagen degradation by neutrophil collagenase. Doxycycline was also found to inhibit at cell level neutrophil-mediated degradation of AAT. The protection of bodies' AAT-shield from serpinolytic activity of collagenase would result in inhibition of serine proteinases such as neutrophil elastase. Tetracyclines may thus protect matrix constituents from a wider spectrum of neutral proteases than previously recognized, not just from the matrix metalloproteinases collagenase and gelatinase.
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PMID:Doxycycline protects serum alpha-1-antitrypsin from human neutrophil collagenase. 845 33

The goal of our studies was to learn about the mechanism of fibronectin degradation in chronic ulcers. We found that the appearance of fibronectin fragments in chronic ulcer wound fluid correlated with elevated levels of elastase and cleavage of the proteinase inhibitors alpha2-macroglobulin (alpha2-M) and alpha 1-proteinase inhibitor (alpha1-P1). Some wound fluid samples retained the capacity to degrade fibronectin in vitro. Degradation of fibronectin by these samples was blocked by specific inhibitors of neutrophil elastase but not by inhibitors of metalloproteinases. Addition of human neutrophil elastase to mastectomy fluid, an acute wound fluid, resulted in formation of alpha1-PI and alpha2-M complexes and cleavage products resembling those observed in chronic wound fluid. Moreover, degradation of fibronectin and processing of matrix metalloproteinase MMP-9 occurred under these conditions. Taken together, our findings suggest that elevated levels of neutrophil elastase are responsible for fibronectin degradation in the chronic wound environment.
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PMID:Fibronectin degradation in chronic wounds depends on the relative levels of elastase, alpha1-proteinase inhibitor, and alpha2-macroglobulin. 860 37

The objective of this study was to compare the specificity and potency of recombinant human SLN-1 (rhSLN) and human leukocyte elastase (HLE) as proteoglycan (PG)-degrading enzymes after intraarticular injection into rabbits. Another objective was to evaluate the elicitation of a rhSLN-induced hyaluronan-binding region (HABR) fragment from rabbit aggrecan in joints using a polyclonal antiserum (anti-FVDIPEN) against the synthetic peptide, Phe-Val-Asp-Ile-Pro-Glu-Asn (FVDIPEN). The intraarticular injection of either activated rhSLN or HLE resulted in enzyme-specific quantitative release of PG fragments into synovial fluid. Based on the criteria used herein, HLE appears to be a more potent PG-degrading enzyme than SLN. Intraarticular injection of rhSLN also resulted in time- and dose-dependent release of a new HABR fragment of aggrecan (HABR-FMDIPEN) into both articular cartilage and synovial fluid. HABR-FVDIPEN is likely to be a good marker of matrix metalloproteinase (MMP)-induced degradation of aggrecan.
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PMID:Proteoglycan-degrading activity of human stromelysin-1 and leukocyte elastase in rabbit joints. Quantitation of proteoglycan and a stromelysin-induced HABR fragment of aggrecan in synovial fluid and cartilage. 883 47

The effect of neutrophil elastase on the functional status of gelatinases was studied in an hamster model developed by intratracheal administration of lipopolysaccharide followed by in situ cell activation with phorbol myristate acetate. This resulted in the production in bronchoalveolar lavage fluids, in addition to the matrix metalloproteinase MMP-9, of a 75 kDa gelatinase associated with collagenolytic activity. Treatment in vivo with an elastase inhibitor abolished the latter activity. Since, in addition, elastase activates in vitro purified MMP-9 gelatinase into a similar 75 kDa entity, these data suggest that elastase may be a physiological activator of MMP-9 in vivo.
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PMID:Activation of MMP-9 by neutrophil elastase in an in vivo model of acute lung injury. 903 77

Macrophage elastase (ME) was originally named when metal-dependent elastolytic activity was detected in conditioned media of murine macrophages. Subsequent cDNA cloning of the mouse and human enzyme demonstrated that ME is a distinct member of the matrix metalloproteinase family. To date, the catalytic parameters that describe the hydrolysis of elastin by ME have not been quantified and its activity against other matrix proteins have not been described. In this report, we have examined the action of purified recombinant human ME (rHME), produced in Escherichia coli, on elastin and other extracellular matrix proteins. On a molar basis, rHME is approximately 30% as active as human leukocyte elastase in solubilizing elastin. rHME also efficiently degrades alpha1-antitrypsin (alpha1-AT), the primary physiological inhibitor of human leukocyte elastase. In addition, rHME efficiently degrades fibronectin, laminin, entactin, type IV collagen, chondroitan sulfate, and heparan sulfate. These results suggest that HME may be required for macrophages to penetrate basement membranes and remodel injured tissue during inflammation. Moreover, abnormal expression of HME may contribute to destructive processes such as pulmonary emphysema and vascular aneurysm formation. To further understand the specificity of HME, the initial cleavage sites in alpha1-AT have been determined. In addition, the hydrolysis of a series of synthetic peptides with different P'1 residues has been determined. rHME can accept large and small amino acids at the P'1 site, but has a preference for leucine.
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PMID:Hydrolysis of a broad spectrum of extracellular matrix proteins by human macrophage elastase. 911 92

Tissue inhibitors of metalloproteinases (TIMPs) inhibit matrix metalloproteinases (MMPs) by forming a 1:1 stoichiometric complex, but the inhibition mechanism of these inhibitors is not known. Here we have investigated the reactive site of TIMP-1 by its proteinase susceptibility before and after forming a complex with MMP-3 (stromelysin 1). When TIMP-1 was allowed to react with human neutrophil elastase, its inhibitory activity was destroyed. This resulted from cleavage of the Val69-Cys70 bond. However, cleavage of this bond by neutrophil elastase was prevented when TIMP-1 formed a complex with the catalytic domain of MMP-3, and full TIMP-1 activity was restored after dissociation of the complex at pH 3.0 in the presence of EDTA. These results indicate that the region around Val69 closely associates with an active MMP. The three-dimensional structure of the N-terminal domain of TIMP-2 elucidated by NMR studies [Williamson, Martorell, Carr, Murphy, Docherty, Freedman and Feeney (1994) Biochemistry 33, 11745-11759] reveals that Val69 and Cys70 form part of an extended ridge that also includes the N-terminal section of the inhibitor. This region is probably involved in the interaction with the catalytic domains of MMPs.
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PMID:Involvement of a region near valine-69 of tissue inhibitor of metalloproteinases (TIMP)-1 in the interaction with matrix metalloproteinase 3 (stromelysin 1). 922 42

Type I collagen fibers account for 90% of the organic matrix of bone. The degradation of this collagen is a major event during bone resorption, but its mechanism is unknown. A series of data obtained in biological models strongly suggests that the recently discovered cysteine proteinase cathepsin K plays a key role in bone resorption. Little is known, however, about the actual action of cathepsin K on type I collagen. Here, we show that the activity of cathepsin K alone is sufficient to dissolve completely insoluble collagen of adult human cortical bone. We found that the collagenolytic activity of cathepsin K is directed both outside the helical region of the molecule, i.e. the typical activity of cysteine proteinases, and at various sites inside the helical region, hitherto believed to resist all mammalian proteinases but the collagenases of the matrix metalloproteinase family and the neutrophil elastase. This property of cathepsin K is unique among mammalian proteinases and is reminiscent of bacterial collagenases. It is likely to be responsible for the key role of cathepsin K in bone resorption.
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PMID:The collagenolytic activity of cathepsin K is unique among mammalian proteinases. 982 15

A 25 patient study was conducted into the relationship between markers of collagen metabolism in venous ulcer exudates and healing status, and their prognostic value in predicting healing performance. Wounds were sampled on at least 5 occasions over 12 months, the frequencies of which were determined by the need for clinic attendance. Specimens were taken from several sites on each ulcer using sterile preweighed filters. Wound margins were traced and sites recorded for each collection. Sample sites were evaluated for severity as improving, static, or deteriorating according to subsequent wound progression. Specimens were analyzed for levels of proenzyme and active forms of matrix metalloproteinases 2 and 9, neutrophil elastase, and type I collagen C propeptide. There was an overall trend of greater expression of all markers with increasing severity of wound site, this being highly significant for pro-matrix metalloproteinase-9 (p = 0.006). For samples collected simultaneously from improving and deteriorating regions of the same wound, paired data analysis showed statistically significant differences for pro-matrix metalloproteinase-9 (p < 0.001), neutrophil elastase (p < 0.005) and activated matrix metalloproteinase-9 (p < 0.05). Taken overall, these data show the potential of markers of collagen biochemistry as predictors of repair in venous ulcers; in particular pro-matrix metalloproteinase-9 and neutrophil elastase were found to be accurate prognostic indicators of subsequent healing.
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PMID:Prognostic value of markers of collagen remodeling in venous ulcers. 1056 63

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