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)

Human leukocyte elastase (HLE) has been demonstrated on lung elastic fibers in areas of pulmonary emphysema. In vitro studies in our laboratory have shown that HLE-elastin complexes may be remarkably stable. We tested the possibility that elastin-bound HLE may retain catalytic activity in the presence of inhibitors that are effective against free HLE and found: (1) alpha-1-proteinase inhibitor (alpha 1PI), antileukoprotease (ALP), and eglin C inhibited free HLE on an approximately 1:1 molar basis, measured with either 3H-elastin or a synthetic peptide substrate; (2) the ability of each inhibitor to control catalytic activity of HLE when complexed with elastin was impaired (e.g., in a 24-h assay, a 70-fold molar excess of alpha 1PI gave only 93% inhibition of HLE); and (3) a chloromethyl ketone inhibitor of HLE gave qualitatively similar results, although at the low enzyme concentrations used it was a less effective inhibitor of free and elastin-bound enzyme than were the polypeptide inhibitors. Further, we found evidence for two distinct mechanisms of inhibition of elastin-bound HLE. alpha 1PI and eglin C prevented elastin solubilization largely by enhancing net dissociation of HLE from the complexes; enzyme remaining bound to the substrate retained essentially full activity. In contrast, ALP and the chloromethyl ketone prevented elastin solubilization by binding to the complexes and inhibiting the enzyme in situ. These results may have implications regarding progressive elastin solubilization in vivo and should stimulate further investigation of enzyme activity in heterogeneous systems in which one or more reactants are insoluble.
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PMID:Inhibition of human leukocyte elastase bound to elastin: relative ineffectiveness and two mechanisms of inhibitory activity. 231 May 84

Much of the tissue damage associated with emphysema and other inflammatory diseases has been attributed to the proteolytic activity of neutrophil elastase, a major component of the azurophil granule. Recently, two additional azurophil granule proteins with NH2-terminal sequence homology to elastase were isolated (Gabay, J. E., Scott, R. W., Campanelli, D., Griffith, J., Wilde, C., Marra, M. N., Seeger, M., and Nathan, C. F. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 5610-5614) and designated azurophil granule protein 7 (AGP7) and azurocidin. Azurocidin and AGP7 represent significant protein components of the azurophil granule, together comprising approximately 15% of the acid-extractable protein as judged by reverse-phase high performance liquid chromatography analysis. AGP7 migrates on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as four distinct glycoforms of molecular mass 28-34 kDa, whereas azurocidin exhibits three predominant bands with molecular mass of 28-30 kDa. Treatment of intact azurophil granules with [3H]diisopropyl fluorophosphate resulted in labeling of elastase, cathepsin G, and AGP7, whereas azurocidin was not labeled. Tryptic mapping of 3H-labeled AGP7 allowed us to identify and sequence the active-site polypeptide that has 70% identity to elastase over 20 residues. The active site peptide of azurocidin was also identified by sequence analysis of tryptic fragments and showed 65% identity to the active site of elastase. Surprisingly, the catalytic serine of azurocidin is replaced by glycine, explaining its inability to label with [3H]diisopropyl fluorophosphate. Thus, we have identified two azurophil proteins closely related to neutrophil elastase, one of which has apparently lost its proteolytic activity due to mutation of the catalytic serine.
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PMID:Characterization of two azurphil granule proteases with active-site homology to neutrophil elastase. 240 77

The first part of this review on entropic elastic processes in protein mechanisms (Urry, 1988) demonstrated with the polypentapeptide of elastin (Val1-Pro2-Gly3-Val4-Gly5)n that elastic structure develops as the result of an inverse temperature transition and that entropic elasticity is due to internal chain dynamics in a regular nonrandom structure. This demonstration is contrary to the pervasive perspective of entropic protein elasticity of the past three decades wherein a network of random chains has been considered the necessary structural consequence of the occurrence of dominantly entropic elastomeric force. That this is not the case provides a new opportunity for understanding the occurrence and role of entropic elastic processes in protein mechanisms. Entropic elastic processes are considered in two classes: passive and active. The development of elastomeric force on deformation is class I (passive) and the development of elastomeric force as the result of a chemical process shifting the temperature of a transition is class II (active). Examples of class I are elastin, the elastic filament of muscle, elastic force changes in enzyme catalysis resulting from binding processes and resulting in the straining of a scissile bond, and in the turning on and off of channels due to changes in transmembrane potential. Demonstration of the consequences of elastomeric force developing as the result of an inverse temperature transition are seen in elastin, where elastic recoil is lost on oxidation, i.e., on decreasing the hydrophobicity of the chain and shifting the temperature for the development of elastomeric force to temperatures greater than physiological. This is relevant in general to loss of elasticity on aging and more specifically to the development of pulmonary emphysema. Since random chain networks are not the products of inverse temperature transitions and the temperature at which an inverse temperature transition occurs depends on the hydrophobicity of the polypeptide chain, it now becomes possible to consider chemical processes for turning elastomeric force on and off by reversibly changing the hydrophobicity of the polypeptide chain. This is herein called mechanochemical coupling of the first kind; this is the chemical modulation of the temperature for the transition from a less-ordered less elastic state to a more-ordered more elastic state. In the usual considerations to date, development of elastomeric force is the result of a standard transition from a more-ordered less elastic state to a less-ordered more elastic state.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Entropic elastic processes in protein mechanisms. II. Simple (passive) and coupled (active) development of elastic forces. 307 50

Eglin-c is a naturally occurring polypeptide of 70 amino acids with a molecular mass of 8,100 daltons. It is a strong inhibitor of human neutrophil elastase (HNE) and cathepsin-G, and, when given intratracheally to hamsters 1 h before human neutrophil elastase, it can prevent or ameliorate the emphysema produced by HNE. The present experiments were designed to determine the duration of the effectiveness of eglin-c, prepared by DNA technology from Escherichia coli, in preventing the emphysema and secretory cell metaplasia induced by HNE. Eglin-c (2,000 micrograms in 0.5 ml saline) was effective in ameliorating emphysema, as determined histologically and physiologically, when it was given intratracheally to hamsters 1, 2, 4, and 8 h before the intratracheal instillation of 300 micrograms of HNE. Eglin-c ameliorated bronchial secretory cell metaplasia when given 1 h before HNE but not when the time intervals were 2 h or longer. The clearance of [3H]eglin-c from the lungs was assessed. Four h after intratracheal instillation of 446 micrograms of [3H]eglin-c, 33% of the tritium was found in the lung tissue and bronchoalveolar lavage fluid; 83% of the radioactivity in the lavage fluid supernatant was associated with functionally active eglin-c. No evidence of bronchopulmonary toxicity was seen in hamsters given 4 intratracheal instillations of 2,000 micrograms of eglin-c at 1-wk intervals.
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PMID:Effect of varying the time interval between intratracheal administration of eglin-c and human neutrophil elastase on prevention of emphysema and secretory cell metaplasia in hamsters. With observations on the fate of eglin-c and the effect of repeated instillations. 353 70

Proteases have a wide range of functions: digestion (pancreatic proteases), protein catabolism (lysosomal proteases), blood coagulation, immune defences (complement), cellular division and proliferation, generation of biologically active oligopeptides (kinins, hormones) from inactive polypeptide precursors, inactivation of these oligopeptides, etc. The body protects itself against its own proteases, either by confining them to a given compartment (lysosome), by synthesising them in the form of inactive precursors (trypsinogen, prothrombin, etc.), or by synthesising proteins with an antiprotease activity. Any disturbance in one of the elements of this protective system may lead to severe pathological consequences: acute hemorrhagic pancreatitis with shock, coagulation disturbances (deficient hepatic synthesis of coagulation factors, congenital antithrombin III deficiency), angioneurotic oedema (congenital deficiency of C'l esterase inhibitor) pulmonary emphysema (local secretion of leukocyte elastase, congenital deficiency of alpha a-antitrypsin).
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PMID:[Problems in intensive care posed by imbalance in the protease--protease inhibitor system]. 611 Dec 72

The bronchial Kulchitsky cells are scattered specific cells which lie close to the basement membrane of the bronchi and bronchioles. Electron microscopy reveals that they contain electron-dense granules similar to that seen in cells with a known endocrine function. In addition, experimentally induced degranulation of the K cell suggestive of a secretory process, and the likelihood that these cells are precursors of small cell lung carcinoma (which often elaborates humoral substances) has led to the postulate that this bronchial cell serves a humoral role of either a paracrine or endocrine nature. We have found that the bronchial K cell of man contains a calcitonin-like polypeptide which, immunologically and chemically, is not dissimilar to the hormone produced by the C cells of human thyroid. This finding may help explain the persistence of serum immunoreactive calcitonin (iCT) after total thyroidectomy, the fact that thyroidectomized man does not manifest any profound alteration of calcium metabolism, and why small cell cancer of the lung is frequently associated with hypercalcitonemia. In addition, the finding of K cell hyperplasia in chronic bronchitis and emphysema may explain the occurrence of hypercalcitonemia in patients with these diseases and some lung cancers of cell types other than the small cell variety. Further studies are needed to elucidate the role of K cell iCT, and to determine what other hormones might also be elaborated by this diffuse system of bronchial cells.
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PMID:Hypothesis: the bronchial Kulchitsky (K) cell as a source of humoral biologic activity. 627 May 16

We previously reported the clinical role of plasma immunoreactive atrial natriuretic polypeptide (ANP) and cyclic GMP in patients with respiratory diseases, bronchial asthma (BA), chronic pulmonary emphysema (CPE) and pulmonary insufficiency induced by pulmonary tuberculosis (TBC). In this study, moreover, we divided patients with respiratory failure induced by tuberculosis sequelae into two groups, patients with oxygen therapy group [O2 (+) group] or ordinary practical treatment group [O2 (-) group], and we evaluated the difference of the roles of ANP in two groups and the correlation of ANP and c-GMP with clinical findings, blood gas analysis, electrocardiogram, chest roentogen photography and spirogram in two groups. In conclusion, the respiratory failure in patients with tuberculosis sequelae is compensated by increased cardiac output, and that causes the rising of right atrial pressure. These results show, addition to the basic effects of ANP, the concentration of plasma ANP is released with relating the degree of respiratory failure.
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PMID:[Clinical evaluation of plasma atrial natriuretic polypeptide in patients with respiratory failure in pulmonary tuberculosis]. 826 22

Degradation of proteins that are retained in the quality control apparatus of the endoplasmic reticulum (ER) has been attributed to a third proteolytic system, distinct from the lysosomal and the cytoplasmic ubiquitin-dependent proteosomal proteolytic pathways. However, several recent studies have shown that ER degradation of a mutant membrane protein, CFTRdeltaF508, is at least in part mediated from the cytoplasmic side by the 26 S proteasome. In this study, we examined the possibility that ER degradation of mutant secretory protein alpha1-antitrypsin (alpha1-AT) Z, the mutant protein associated with infantile liver disease and adult-onset emphysema of alpha1-AT deficiency, is mediated by the proteasome. The results show that a specific proteasome inhibitor, lactacystin, inhibits ER degradation of alpha1-ATZ in transfected human fibroblast cell lines and in a cell-free microsomal translocation system. Although it is relatively easy to conceptualize how a transmembrane protein like CFTRDeltaF508 might be accessible on the cytoplasmic aspect of the ER membrane for ubiquitination and degradation by the proteasome, it is more difficult to conceptualize how this might occur for a luminal polypeptide. The results show that, once within the lumen of the ER, alpha1-ATZ interacts with the transmembrane molecular chaperone calnexin and specifically induces the polyubiquitination of calnexin. The results, therefore, provide evidence that the proteasome, from its cytoplasmic localization, induces the degradation of the luminal alpha1-ATZ molecule by first attacking the cytoplasmic tail of calnexin molecules that are associated with alpha1-ATZ.
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PMID:Degradation of a mutant secretory protein, alpha1-antitrypsin Z, in the endoplasmic reticulum requires proteasome activity. 879 55

alpha1-Antitrypsin (alpha1-AT) is the most abundant circulating proteinase inhibitor. The Z variant results in profound plasma deficiency as the mutant polymerizes within hepatocytes. The retained polymers are associated with cirrhosis, and the lack of circulating protein predisposes to early onset emphysema. We have investigated the role of the naturally occurring solute trimethylamine N-oxide (TMAO) in modulating the polymerization of normal M and disease-associated Z alpha1-AT. TMAO stabilized both M and Z alpha1-AT in an active conformation against heat-induced polymerization. Spectroscopic analysis demonstrated that this was due to inhibition of the conversion of the native state to a polymerogenic intermediate. However, TMAO did not aid the refolding of denatured alpha1-AT to a native conformation; instead, it enhanced polymerization. These data show that TMAO can be used to control the conformational transitions of folded alpha1-AT but that it is ineffective in promoting folding of the polypeptide chain within the secretory pathway.
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PMID:Prevention of polymerization of M and Z alpha1-Antitrypsin (alpha1-AT) with trimethylamine N-oxide. Implications for the treatment of alpha1-at deficiency. 1141 38

Cutis laxa (CL) is a heterogeneous group of genetic and acquired disorders with at least two autosomal dominant forms caused by mutations in the elastin and fibulin-5 genes, respectively. To define the molecular basis of CL in patients negative for point mutations in the elastin gene, metabolic labeling and immunoprecipitation experiments were used to study the synthesis of elastin in dermal fibroblasts. In addition to the normal 68 kDa tropoelastin (TE) protein, an abnormal, 120 kDa polypeptide was detected in the proband and her affected daughter in a CL family characterized by hernias and unusually severe and early-onset pulmonary disease including bronchiectasis and pulmonary emphysema. Mutational and gene expression studies established that affected individuals in this family carried a partial tandem duplication in the elastin locus. Immunoprecipitation experiments showed that the mutant TE was partially secreted and partially retained intracellularly. A polyclonal antibody raised against a unique peptide in the mutant TE molecule showed both intracellular and matrix staining. We conclude that elastin mutations can cause CL associated with a severe pulmonary phenotype. Synthesis of abnormal TE may interfere with elastic fiber function through a dominant-negative or a gain of function mechanism.
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PMID:Autosomal dominant cutis laxa with severe lung disease: synthesis and matrix deposition of mutant tropoelastin. 1595 94


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