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)

1. Antileucoprotease, being sensitive to oxidative inactivation, can be produced by recombinant techniques. Via site-directed mutagenesis, two mutants of recombinant antileucoprotease were produced in which one or more of the oxidation-sensitive methionine residues were replaced by leucine: in rALP242, methionine-73 was replaced by leucine, and in rALP231, leucine was substituted for four methionine residues. In vitro, native antileucoprotease and the recombinant antileucoprotease preparations have similar inhibitory characteristics towards human neutrophil elastase. We hypothesized that replacement of methionine residues in the antileucoprotease molecule would result in a reduced oxidation sensitivity of the mutants. 2. After incubation of recombinant antileucoprotease and its mutants with increasing dosages of cis-platinum(II)diammine dichloride, we observed that native antileucoprotease and recombinant antileucoprotease were inactivated by this reagent to the same extent. Compared with this, rALP242 was less inactivated, whereas the inhibitory capacity of rALP231 was not influenced by cis-platinum(II)diammine dichloride at all. 3. After incubation of recombinant antileucoprotease, rALP242 and rALP231 with triggered polymorphonuclear leucocytes, which are thought to produce an excess of oxidants, we measured residual inhibitory activities towards human neutrophil elastase of 10%, 55% and 87%, respectively. 4. In vivo, the inhibitory effects of intratracheally administered rALP242 and rALP231 towards human-neutrophil-elastase-induced emphysema were significantly greater than that of recombinant antileucoprotease. There were no significant differences between the mutants.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidation-resistant variants of recombinant antileucoprotease are better inhibitors of human-neutrophil-elastase-induced emphysema in hamsters than natural recombinant antileucoprotease. 166 84

The Mmineral springs alpha 1-antitrypsin (alpha 1AT) allele, causing alpha 1AT deficiency and emphysema, is unique among the alpha 1AT-deficiency alleles in that it was observed in a black family, whereas most mutations causing alpha 1AT deficiency are confined to Caucasian populations of European descent. Immobilized pH gradient analysis of serum demonstrated that alpha 1AT Mmineral springs migrated cathodal to the normal M2 allele. Evaluation of Mmineral springs alpha 1AT as an inhibitor of neutrophil elastase, its natural substrate, demonstrated markedly lower than normal function. Characterization of the alpha 1AT Mmineral springs gene demonstrated that it differed from the common normal M1(Ala213) allele by a single-base substitution causing the amino acid substitution Gly-67 (GGG)----Glu-67 (GAG). Capitalizing on the fact that this mutation creates a polymorphism for the restriction endonuclease AvaII, family analysis demonstrated that the Mmineral springs alpha 1AT allele was transmitted in an autosomal-codominant fashion. Evaluation of genomic DNA showed that the index case was homozygous for the alpha 1AT Mmineral springs allele. Cytoplasmic blot analysis of blood monocytes of the Mmineral springs homozygote demonstrated levels of alpha 1AT mRNA transcripts comparable to those in cells of a normal M1 (Val213) homozygote control. Evaluation of in vitro translation of Mmineral springs alpha 1AT mRNA transcripts demonstrated a normal capacity to direct the translation of alpha 1AT. Evaluation of secretion of alpha 1AT by the blood monocytes by pulse-chase labeling with [35S]methionine, however, demonstrated less secretion by the Mmineral springs cells than normal cells. To characterize the posttranslational events causing the alpha 1AT-secretory defect associated with the alpha 1AT Mmineral springs gene, retroviral gene transfer was used to establish polyclonal populations of murine fibroblasts containing either a normal human M1 alpha 1AT cDNA or an Mmineral springs alpha 1AT cDNA and expressing comparable levels of human alpha 1AT mRNA transcripts. Pulse-chase labeling of these cells with [35S]methionine demonstrated less secretion of human alpha 1AT from the Mmineral springs cells than from the M1 cells, and evaluation of cell lysates also demonstrated lower amounts of intracellular human alpha 1AT in the Mmineral springs cells than in the normal M1 control cells. Thus, the Gly-67 --> Glu mutation that characterizes Mmineral springs causes reduced alpha 1AT secretion on the basis of aberrant posttranslational alpha 1AT biosynthesis by a mechanism distinct from that associated with the alpha 1AT Z allele, whereby intracellular aggregation of the mutant protein is etiologic of the alpha 1AT-secretory defect. Furthermore, for the alpha 1AT protein that does reach the circulation, this mutation markedly affects the ability of the molecule to inhibit neutrophil elastase; i.e., the alpha 1AT Mmineral springs allele predisposes to emphysema on the basis of serum apha 1AT deficiency coupled with alpha AT dysfunction.
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PMID:Molecular basis of alpha 1-antitrypsin deficiency and emphysema associated with the alpha 1-antitrypsin Mmineral springs allele. 196 87

With the combination of a noninvasive saturation measurement and plethysmography, pulse oximetry has become an important monitoring method for peripheral perfusion and oxygen supply. Indications for pulse oximetry is practically every anaesthesia especially in geriatric patients and patients with one-lung-anaesthesia, obesity, asthma and emphysema. Pulse oximetry has proved its worth in the transport of emergency patients. Sources of error are a bad perfusion at the site of measurement (hypotension, hypothermia), dyshaemoglobinaemia (Met-carboxy-haemoglobin) and interference of colours (dark skin, intravenous colours, high light intensity). Accuracy of response of most currently available pulse oximeters lies between 2-3% (SD) with oxygen saturations between 80-100%. Deviations increase at lower oxygen saturations. Pulse oximetry will soon be regarded as minimal monitoring standard worldwide together with the ECG, blood pressure, pulse and respiratory monitoring.
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PMID:[The importance of pulse oximetry for anesthesia]. 204 38

Antitrypsin is the predominant protease inhibitor in human plasma. Despite its name, its prime function is an inhibitor of neutrophil elastase. It is the archetype of a family of protease inhibitors (serpins) characteristically with a MW 50,000 and a highly ordered tertiary structure. Its role is as a protector of vulnerable tissues against digestion by leukocyte enzymes, and plasma deficiency predisposes to premature emphysema. Northern Europeans are uniquely susceptible to deficiency due to the frequency of two mutants (Z & S) both having substitutions at glutamic acids that form key salt bridges in the molecule. In the reactive center of antitrypsin is a labile methionine which allows leucocytes to switch off inhibitory activity but this contributes to the accelerated lung degeneration in cigarette smokers. Although plasma replacement therapy is one option for treatment a first approach is to avoid smoking and other environmental irritants.
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PMID:The molecular structure and pathology of alpha 1-antitrypsin. 211 61

The sensitivity of methionine residues to oxidation is a mechanism by which many proteins, including plasma proteinase inhibitors, may be oxidatively inactivated. Much evidence suggests that methionine oxidation and concurrent losses of protein activity not only occur widely in living systems but are physiologic, homeostatic processes. Neutrophils, macrophages and other leukocytes secrete large quantities of powerful oxidants at sites of inflammation and may readily bring about methionine oxidative inactivation of proteins. In particular, oxidation of proteinase inhibitors may favorably alter the proteinase-antiproteinase balance to facilitate tissue remodeling and protection from invading organisms. Leukocyte-mediated inhibitor oxidation also appears to regulate local immunosuppressive activity. Pathophysiologic processes such as emphysema and rheumatoidal disease involve derangements of these homeostatic mechanisms.
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PMID:Methionine sulfoxide and the oxidative regulation of plasma proteinase inhibitors. 245 Sep 41

Current concepts relating to the pathogenesis of emphysema associated with cigarette smoking is that an imbalance exists within the lower respiratory tract between neutrophil elastase and the local anti-neutrophil elastase screen, enabling uninhibited neutrophil elastase to destroy the alveolar structures over time. The possible role of alveolar macrophages in contributing to this imbalance was investigated by evaluating the ability of cigarette smokers' alveolar macrophages to inactivate alpha 1-antitrypsin (alpha 1AT), the major anti-neutrophil elastase of the human lower respiratory tract. In vitro, alveolar macrophages of smokers spontaneously released 2.5-fold more superoxide anion and eightfold more H2O2 than macrophages of nonsmokers (P less than 0.01, both comparisons). Using a model system that reproduced the relative amounts of alveolar macrophages and alpha 1AT found in the epithelial lining fluid of the lower respiratory tract, we observed that smokers' macrophages caused a 60 +/- 5% reduction in the ability of alpha 1AT to inhibit neutrophil elastase. In marked contrast, under the same conditions, nonsmokers' macrophages had no effect upon the anti-neutrophil elastase function of alpha 1AT. Addition of superoxide dismutase, catalase, mannitol, and methionine prevented inactivation of alpha 1AT by smokers' macrophages, implying that the release of oxidants mediated the inactivation of alpha 1AT. In addition, by utilizing a recombinant DNA produced modified form of alpha 1AT containing an active site substitution (met358----val), the inactivation of alpha 1AT by smokers' alveolar macrophages was prevented, suggesting that the smokers' macrophages inactivate alpha 1AT by oxidizing the active site of the alpha 1AT molecule. These results suggest that in cigarette smokers, the alveolar macrophage can modulate the activity of alpha 1AT as an inhibitor of neutrophil elastase and thus play a role in the pathogenesis of emphysema associated with cigarette smoking.
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PMID:Oxidants spontaneously released by alveolar macrophages of cigarette smokers can inactivate the active site of alpha 1-antitrypsin, rendering it ineffective as an inhibitor of neutrophil elastase. 282 59

This article reviews some properties of human leucocyte elastase. This 30 kDa glycoprotein formed of 218 amino acid residues, is a serine proteinase which cleaves proteins at Val-X, Ala-X, Leu-X or Met-X bonds. Leucocyte elastase solubilizes fibrous elastin and also degrades other extracellular matrix proteins. It hydrolyses and inactivates a number of plasma proteins. Synthetic substrates are more convenient than elastin to measure elastase activity. A large number of natural and synthetic inhibitors of leucocyte elastase have been described. The former include alpha 1-proteinase inhibitor or alpha 1-antitrypsin, inter-alpha-inhibitor, alpha 2-macroglobulin, bronchial and cervical mucous inhibitor and a number of animal and plant proteins. Numerous synthetic inhibitors with therapeutic potentials have been designed. The efficiency of an inhibitor depends, among others, upon its rate of association with the enzyme and upon the stability of the enzyme-inhibitor complex. Elastase probably plays a physiological function in neutrophil migration, phagocytosis and tissue remodeling. It apparently plays a pathological role in pulmonary emphysema, rheumatoid arthritis, infections and inflammation. The pathogenic role of leucocyte elastase is best understood in emphysema.
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PMID:[Human leukocyte elastase]. 306 2

Besides its effect on bone marrow progenitors, GM-CSF is able to modulate functions of mature cells such as neutrophils. It inhibits random migration and chemotaxis through action on both cells and chemotactic factors, and stimulates oxidative metabolism as well as elastase release. Furthermore, it strongly enhances the response of the cells to the usual stimulants such as f-Met-Leu-Phe and phorbol esters. The role of neutral proteinases and activated oxygen species in different diseases such as ARDS, emphysema, coagulation defects, arthritis, and inflammation, is recognized. The remarkable in vitro release of neutral proteinases and activated oxygen species from granulocytes after GM-CSF stimulation may be of importance in vivo. This should be considered in clinical application of GM-CSF, particularly with high-dose therapy.
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PMID:Modulation of functions of granulocytes by recombinant human GM-CSF and possible complications of GM-CSF therapy. 326 66

Activated granulocytes have been implicated in mediating pulmonary endothelial damage in the Adult Respiratory Distress Syndrome. In another lung disease, emphysema, pulmonary granulocytes (PMNs) are thought to be doubly responsible for lung dissolution: they release potent proteolytic enzymes including elastase, and they generate reactive oxygen species that oxidize a reactive site methionine group in alpha-1-protease inhibitor (alpha-1-PI) rendering it, in turn, impotent as an anti-elastase. This suggested an analogous scenario for pulmonary vascular damage: namely, undefended PMN elastase might also mediate endothelial injury. Our strategy to prove this notion used 51chromium-labeled human endothelial cells exposed to intact PMN or to enucleate "neutroplasts." The latter are elastase-free cytoplasmic blebs derived from PMN. When activated, both PMN and neutroplasts generate similar amounts of toxic oxygen species; yet neutroplasts caused insignificant endothelial damage, measured as 51Cr "lift-off"from anchoring matrix (PMN = 24.3% +/- 1.8% vs neutroplast = 1.2% +/- 0.4%; p less than 0.001). Adding pure elastase back to neutroplasts increased endothelial cell lift-off (7% +/- 0.2%). Although the prototypic serine protease inhibitor phenyl methylsulfonylfluoride (PMSF) protected endothelium from PMNs, pure alpha-1-PI (also a potent anti-elastase) when added in physiologic amounts did not protect endothelial cells from PMN assault, suggesting that PMN oxidants might inactivate it. By adding exogenous myeloperoxidase (MPO) to MPO-deficient neutroplasts, we demonstrated that MPO-dependent oxidants, probably N-chloramines, are critical inactivators of alpha-1-PI. This was further confirmed since added free methionine, a scavenger of chloramine, protected alpha-1-PI from inactivation by reagent chloramine or that produced by rearmed neutroplasts or PMN.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neutrophil oxidants inactivate alpha-1-protease inhibitor and promote PMN-mediated detachment of cultured endothelium. Protection by free methionine. 348 53

The protease-antiprotease theory of pulmonary emphysema holds that alveolar structures may be destroyed by neutrophil elastase but are normally protected from destruction by elastase inhibitors. Bronchoalveolar lavage allows to collect three types of antielastases: alpha 1-proteinase inhibitor (alpha 1 PI), bronchial mucus inhibitor and "unidentified inhibitors". Alpha 1 PI acts as an irreversible inhibitor of serine-proteinases. It reacts much faster with neutrophil elastase than with other enzymes and is therefore considered as a physiological inhibitor of this leukoproteinase. Oxidation of Met into methionine sulfoxide leads to a dramatic reduction of the inhibitory capacity of alpha 1 PI. This oxidative inactivation may be brought about by oxidants excreted by phagocytes and cigarette smoke condensate. A back-up control is provided by methionine sulfoxide reductase, an enzyme present in phagocytes and capable of reducing oxidized alpha 1 PI. The bronchial inhibitor is an acid-stable protein secreted by the mucus cells of the respiratory tract. It is a reversible tight-binding inhibitor which reacts with neutrophil elastase. Although it occurs in low amounts in the lower respiratory tract it may play an active physiological role because of its low molecular weight which allows its easy diffusion within the interstitial tissue.
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PMID:The antielastase screen of the lower respiratory tract. 387 35


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