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: UMLS:C0034067 (emphysema)
11,506 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thioglycolate-stimulated mouse peritoneal macrophages secrete a Proteinase which degrades insoluble elastin. There is little elastase activity in cell lysates but the bulk of the enzyme accumulates extracellularly during culture in serum-free medium. The secretion of elastase is sustained for over 12 days in culture and continued secretion of elastase requires protein synthesis. Unstimulated macrophages secrete very little elastase activity but can be triggered to secrete higher levels of this enzyme by phagocytosis and intracellular storage of latex particles. The macrophages elastase is a distinctive proteinase differing from the elastases of pancreas and granulocytes and is distinct from the other secreted proteinases of macrophages, namely, collagenase and plasminogen activator. The macrophages elastase is a serine proteinase and is inhibited by di-isopropyl phosphoro-fluoridate, ovoinhibitor, EDTA, dithiothretiol, and serum. Its activity is little affected by soybean trypsin inhibitor, turkey ovomucoid and chloromethyl ketones derived from tosyl lysine, tosyl phenylalanine, and acetyltetra alanine. Hydrolysis by macrophage elastase of chromogenic ester substrates for pancreatic elastase could not be detected. Elastase secretion by stimulated macrophages exceeds that by primary and established fibroblast cell strains. It is likely that elastase secretion by macrophages plays a major role in the pathogenesis of chronic destructive pulmonary diseases such as emphysema.
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PMID:Elastase secretion by stimulated macrophages. Characterization and regulation. 16 96

Human polymorphonuclear neutrophilic leukocytes (PMNs) contain large amounts of neutral proteases that can degrade elastin, collagen, proteoglycan, and basement membrane. The instillation of one of the purified enzymes (elastase) into dog lungs in vivo causes degradation of elastic fibers and other alveolar septal components and results in anatomic changes similar to those of human pulmonary emphysema. Cigarette smoking is a major risk factor associated with pulmonary emphysema in man. One mechanism for this association may be interference with the regulation of PMN elastase activity by alveolar antiproteases. This possibility is supported by the observation that the oxidizing activity of tobacco smoke inactivates alpha 1-proteinase inhibitor in vitro. Macrophages also secrete an elastolytic protease, albeit at low levels. The short-term exposure of cultured mouse macrophages to cigarette smoke augments the rate of elastase secretion by these cells. Mouse macrophage elastase is not inhibited by alpha 1-proteinase inhibitor or alpha 2-macroglobulin. This unusual property of macrophage elastase may facilitate its attack upon elastin over prolonged intervals despite very low levels of macrophage elastase production. A unified hypothesis of lung injury in pulmonary emphysema is presented, involving both PMN and macrophage elastases and the actions of cigarette smoke. (Am J Pathol 97:111--136, 1979).
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PMID:Lung injury induced by leukocytic proteases. 49 91

Emphysema in humans takes several different forms: centrilobular, panacinar, paraseptal, and airspace enlargement with fibrosis. The varying morphologic and background features of these forms of emphysema suggest that they differ in pathogenesis. Elastic fiber rupture and fraying are a feature of emphysema. Experimental emphysema may be induced by human neutrophil elastase and other elastolytic enzymes but not by nonelastolytic proteases. Disruption of elastic fibers also appears to be the underlying feature of lathyrogen-induced airspace enlargement and of the emphysema in the blotchy mouse. However, there is no evidence of elastic fiber destruction in cadmium-induced airspace enlargement with fibrosis or in emphysema associated with hyperoxia or severe starvation. Thus, elastic fiber disruption is not common to all forms of experimental emphysema. We posit that airspace enlargement may be a stereotyped response of the lungs to different injuries. Emphysema can be induced in experimental animals by repeated induction of pulmonary neutrophilia. However, the evidence for involvement of neutrophil elastase in human emphysema is not clear: there are studies using a variety of approaches that weigh on both sides of the question. There is also in vitro evidence that alveolar macrophages can degrade elastin or elastic fibers with which they are in contact by means of a metalloelastase or the cooperative action of plasminogen activator and an acid cysteine protease. We conclude that the pathogenesis of emphysema is complex. Neutrophil elastase likely plays a major role in the development of some forms of emphysema, but our understanding of the interactions between the alveolar walls and neutrophils is still fragmentary.
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PMID:Putative role of neutrophil elastase in the pathogenesis of emphysema. 206 48

During their development, mononuclear phagocytes express a changing profile of proteinases that may participate in the degradation of elastin and other extracellular matrix components. Neutrophil elastase is produced and stored in azurophil-like granules in immature mononuclear phagocytes. Monocytes contain small amounts of neutrophil elastase but do not synthesize the enzyme. Macrophages neither synthesize nor contain neutrophil elastase, but they can internalize and secrete scavenged neutrophil elastase. Human alveolar macrophages synthesize cysteine proteinases including cathepsin L, a lysosomal enzyme with elastolytic activity at an acidic pH. Macrophages from several animal species synthesize an approximately 22-kD metalloelastase that, in the mouse, is secreted as a zymogen of about 36 kD. In addition to its direct elastolytic properties, this metalloelastase may also promote elastolysis by cleaving alpha 1-antiproteinase and thus protecting neutrophil elastase from inhibition. A human counterpart of this enzyme has not yet been purified; however, the elastolytic activity of human macrophages appears to depend predominantly on the activity of one or more metalloproteinases. Because elastin is intertwined with other matrix components in natural matrices, degradation of elastin in vivo probably involves cooperation of multiple proteinases to uncover macromolecules that mask the elastic fibers. Degradation of matrix may be localized to pericellular sites, where proteinases are protected from inhibitors and where potentially surface-bound enzymes may be concentrated. Complete breakdown of matrix may be completed within the cells after partially cleaved molecules are internalized. Growth and remodeling of the extracellular matrix must involve highly coordinated interactions between cells, cytokines, proteinases, proteinase activators and inhibitors, as well as the matrix itself. The intrapulmonary process resulting in emphysema probably involves equally complex interactions. Mononuclear phagocytes accumulate in large numbers in the lung in response to cigarette smoking, and they may play a role in the pathogenesis of the alveolar septal injury that characterizes pulmonary emphysema.
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PMID:Elastin degradation by mononuclear phagocytes. 206 50

Elastase activity directed against lung extracellular matrix is currently believed to be important in the pathogenesis of pulmonary emphysema. Although human alveolar macrophages degrade elastin when in direct contact with this substrate in vitro, studies of free elastase activity in medium conditioned by human alveolar macrophages have yielded variable results. As human alveolar macrophages secrete the tissue inhibitor of metalloproteinases (TIMP), an inhibitor of collagenase and of other connective-tissue-derived mammalian metalloproteinases, we speculated that this inhibitor's effects might extend to macrophage elastase. Using metalloproteinase elastase from the murine macrophagelike cell line P388D1, we observed that human alveolar macrophage conditioned medium inhibits metalloproteinase elastase and that this inhibitory activity could be blocked by specific antibody to TIMP. Alpha 2-macroglobulin, another proteinase inhibitor secreted by alveolar macrophages, also inhibited metalloproteinase elastase, but its inhibitory capacity was not blocked by antibody to TIMP. Because detergents are often included in elastase assays, we examined the effects of sodium dodecyl sulfate (SDS). Buffers containing SDS and SDS-treated elastin were found to exert diverse effects on metalloproteinase elastase, TIMP, and alpha 2-macroglobulin activities, including a marked inhibition of metalloproteinase elastase activity by SDS-containing buffers. These findings suggest that detection of secreted metalloproteinase elastase activity by human alveolar macrophages is complicated by the concomitant release by these cells of inhibitors of metalloproteinases, and that assay conditions can markedly influence the results.
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PMID:Human alveolar macrophages secrete an inhibitor of metalloproteinase elastase. 243 67

1. We have investigated the nature of elastase activity in bronchoalveolar lavage samples from healthy cigarette smokers and subjects with emphysema. 2. Initial experiments with pure human leucocyte elastase showed this enzyme to be inhibited by high concentrations (greater than 10 mmol/l) of ethylenediaminetetra-acetate, indicating that results of previous studies of 'metalloelastase' activity in bronchoalveolar lavage were ambiguous. 3. We have nevertheless demonstrated the presence in bronchoalveolar lavage of an elastase with the characteristics of a metalloproteinase, although samples also contained a substantial amount of activity that was sensitive to serine proteinase inhibitors. 4. Fractionation of lavage fluid supernatant by size-exclusion chromatography demonstrated most of the elastase activity to be of molecular mass greater than 300 kDa. Treatment of samples with lipase or detergent caused a reduction in metalloelastase activity and the generation of lower-molecular-mass components (90-100 kDa and 40 kDa) which were predominantly serine elastases. This suggested that the enzymes were associated with lipid.
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PMID:Evidence for lipid-associated serine proteases and metalloproteases in human bronchoalveolar lavage fluid. 314 65

A deficiency of alpha 1 antiproteases is associated with severe and early emphysema. This emphysema can be experimentally produced in animals by endotracheal instillation of elastolytic proteases. Thus it would seem that emphysema is linked to an imbalance between proteases and antiproteases at the pulmonary level. This work studies the proteases, whose role in the genesis of emphysema is highly probable in view of the data in the literature (leukocyte elastase), disputed (macrophage elastase) or transitory (microbial elastases). We contrast the main agents capable of inhibiting these proteases (alpha 1 antiprotease and bronchial inhibitors) or of changing their activity (alpha 2 macroglobulins). The relative importance of these antiproteases is discussed in the light of studies made on bronchial secretions and bronchoalveolar lavage. These irritants may influence the protease - antiprotease equilibrium and favour the development of emphysema by increasing the proteases or decreasing the antiproteases. It appears that tobacco, as well as infection and anything which sets in motion the pulmonary phagocytes favour the liberation of leucocyte elastase. These attacks inactive the alpha 1 antiproteases in addition to the bronchial inhibitor. They may be recognized by a change in elastolytic and anti-elastolytic activity observed in bronchial secretions and in bronchoalveolar lavage (which is more disputed in the latter).
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PMID:[Proteases, antiproteases and pulmonary emphysema]. 618 52

Thioglycollate-elicited mouse peritoneal macrophages were cultured in contact with the mixture of extracellular matrix proteins produced by rat smooth muscle cells in culture. Both live macrophages and their conditioned media hydrolyzed glycoproteins, elastin, and collagen. Live macrophages also degraded extracellular connective tissue proteins secreted by endothelial cells and fibroblasts. The glycoproteins in the matrix markedly inhibited the rate of digestion of the other macromolecules, particularly elastin. When plasminogen was added to the matrix, activation of plasminogen to plasmin resulted in the hydrolysis of the glycoprotein components, which then allowed the macrophage elastase easier access to its substrate, elastin. Thus, although plasmin has no direct elastinolytic activity, its presence accelerated the rate of hydrolysis of elastin and therefore the rate of matrix degradation. These findings may be important in an understanding of disease states, such as emphysema and atherosclerosis, that are characterized by the destruction of connective tissue.
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PMID:Degradation of connective tissue matrices by macrophages. II. Influence of matrix composition on proteolysis of glycoproteins, elastin, and collagen by macrophages in culture. 645 Feb 58

Inflammatory mouse peritoneal macrophages secrete a metalloproteinase that is not inhibited by alpha 1-proteinase inhibitor. This proteinase, macrophage elastase, recognizes alpha 1-proteinase inhibitor with macrophage elastase does not involve a stable proteinase-inhibitor complex and results in the proteolytic removal of a peptide of apparent molecular weight 4,000-5,000 from the inhibitor. After degradation by macrophage elastase, alpha 1-proteinase inhibitor is no longer able to inhibit human granulocyte elastase, a serine proteinase implicated in the pathogenesis of emphysema. Macrophage elastase apparently does not degrade human granulocyte elastase-alpha 1-proteinase inhibitor complexes or release active granulocyte elastase from these complexes. The ability of macrophage elastase to degrade alpha 1-proteinase inhibitor is inhibited by EDTA and alpha 2-macroglobulin.
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PMID:Limited proteolysis by macrophage elastase inactivates human alpha 1-proteinase inhibitor. 696 73

The matrix metalloproteinases (MMP) are a multigenic family involving 14 enzymes which can cleave most, if not all, the components of the extracellular matrix (interstitium and basement membranes). The present work reports on the main structural characteristics, the substrate preference and the site synthesis of these proteinases and their inhibitors (TIMP). Human MMPs are produced by various cell types and are involved in the remodelling of the extracellular matrix in many physiological and pathophysiological circumstances. Elastolytic MMPs produced by monocytes and/or macrophages (matrilysin, gelatinases, macrophage elastase) are likely to be implicated in the development of acquired pulmonary emphysema.
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PMID:[Metalloproteinases in the extracellular matrix: structure and activity]. 908


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