UMLS:C0034067 - FACTA Search

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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

The serum protein alpha 1-antitrypsin (alpha 1-AT) serves as the major inhibitor of neutrophil elastase. The most common allele of the alpha 1-AT gene is designated as PiM. The Z mutation is a single-base substitution of the normal M allele, causing a Glu----Lys change at position 342 in the molecule. The ZZ phenotype is associated with a severe deficiency of alpha 1-AT, serum concentrations of the protein being 10% of normal. Individuals with an alpha 1-AT deficiency are at an increased risk of developing emphysema. To generate antibodies that specifically detect the 342 position in the context of the flanking sequences, we synthesized several peptides that included the 342 position for both the M and the Z variant. Immunization with variant-specific peptide-carrier conjugates elicited alpha 1-AT variant-specific responses, as determined in a direct enzyme-linked immunoassay. Monoclonal antibodies (MAbs) were selected with different specificity for the 342 region: MAbs F43 recognize only the alpha 1-AT sequence with 342Glu, i.e., all variant proteins that are non-Z, either from hetero- or homozygous individuals; MAbs F50 recognize only the sequence with 342Lys, i.e., all Z-variant proteins in ZZ or heterozygous individuals; MAbs F46 recognize alpha 1-AT with either 342Lys or 342Glu, all variant proteins with sequences as in the peptides used. Z homo- and heterozygotes were detected with our MAbs in a rapid and simple immunoblot assay. Other variants (M, S, and F) can also be assigned on the basis of the electrophoretic pattern. This sensitive detection method is very easy, rapid, and straightforward and provides a powerful tool for diagnosis of the alpha 1-AT deficiencies, allowing early treatment (augmentation of alpha 1-AT) and proper advice on lifestyle practices.
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PMID:Detection of genetic variants of alpha 1-antitrypsin with site-specific monoclonal antibodies. 189 97

Elastase inhibitors are potential drugs for the control of lung emphysema. Since neutrophils may release elastase in the lung interstitium, elastin and inhibitors may complete locally for the binding of enzyme. To better evaluate the potential activity of antielastases, we have run experiments that mimic this in vivo competition. Elastase was added to mixtures of human lung elastin and inhibitor, and the solubilization of the fibrous substrate was measured as a function of time. Controls in which a synthetic substrate was used instead of elastin were run under identical conditions. We show that the rate constants for the irreversible inhibition of elastase by methoxysuccinyl-Ala2-Pro-Val-chloromethylketone and L-657,229, a substituted beta lactam, are 28- and 63-fold lower with elastin than with a synthetic substrate, respectively. The rate constant decreases with increasing concentrations of elastin, indicating that the inhibition is competitive. Elastin also impairs the potency of the following reversible inhibitors: trifluoroacetyl-Lys-Ala-NH-C6H4-p-C6H11, trifluoroacetyl-Lys-Ala-NH-C6H4-pN(C2H5)2, methoxysuccinyl-Ala2-Pro-Boro-Val-OH, and mucus proteinase inhibitor whose Ki values are 29- to 127-fold higher with elastin than with a synthetic substrate. Again the inhibition is competitive. We conclude that association rate constants of irreversible inhibitors and Ki values of reversible ones may be measured accurately using elastin as a substrate. The kinetic constants measured with elastin and not those determined with synthetic substrates should be used to decide whether a given inhibitor is potent enough to be a physiologic antielastase or a potential antielastase drug.
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PMID:Elastin decreases the efficiency of neutrophil elastase inhibitors. 199 Oct 75

Alpha 1-Antitrypsin (alpha 1AT) deficiency is characterized by reduced serum levels of alpha 1AT and a risk for the development of emphysema and liver disease. However, whereas there is an increased risk for emphysema associated with at least 10 alpha 1AT deficiency and null alleles, the hepatic disease is observed only in a subset of these alleles, suggesting that it is not the reduced serum levels of alpha 1AT per se which cause the liver disease. The present study characterizes the alpha 1AT deficiency allele Mmalton, an allele that like the common Z deficiency mutation (Glu342----Lys) is associated with both alpha 1AT deficiency and hepatic disease. Capitalizing on the identification of the homozygous inheritance of the rare Mmalton alpha 1AT deficiency allele, it was demonstrated that although caused by a very different mutation, the Mmalton allele shares with the Z allele the association of liver disease with the same type of abnormalities of alpha 1AT biosynthesis. Cloning of the Mmalton gene and sequence analysis demonstrated that it differs from the normal alpha 1AT M2 allele by deletion of the entire codon (TTC) for residue Phe52. Liver biopsy of the Mmalton homozygote revealed inflammation, mild fibrosis, and intrahepatocyte accumulation of alpha 1AT. Evaluation of de novo alpha 1AT biosynthesis in alpha 1AT-synthesizing cells of this individual demonstrated normal levels of alpha 1AT mRNA transcripts but abnormal intracellular accumulation of newly synthesized alpha 1AT at the level of the rough endoplasmic reticulum with consequent reduced alpha 1AT secretion. Finally, retroviral gene transfer of a normal alpha 1AT cDNA and an alpha 1AT cDNA with the Mmalton Phe52 deletion into murine cells demonstrated that the Mmalton cells reproduced the abnormal accumulation of newly synthesized alpha 1AT, thus directly demonstrating that the deletion mutation is responsible for the intracellular accumulation of the newly synthesized alpha 1AT. Thus, not only is the liver disease associated with alpha 1AT deficiency restricted to a subset of alpha 1AT deficiency alleles, it appears to be restricted to those alleles associated with intracellular accumulation of newly synthesized alpha 1AT, suggesting that it is the abnormal intrahepatocyte alpha 1AT accumulation which incites the liver injury.
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PMID:Molecular basis of the liver and lung disease associated with the alpha 1-antitrypsin deficiency allele Mmalton. 278 66

Lysyl oxidase activity was measured in lung extracts of hamsters with elastase-induced emphysema 8 days after administration of the enzyme and again after 2, 3, and 4 wk. Levels of activity rose rapidly to 7 times the base values determined in the lungs of saline-injected control animals. In parallel with the increase in lysyl oxidase activity, the rate of 14C-lysine incorporation into desmosine and isodesmosine was at its maximum 1 wk after elastase administration, reflecting the lysyl-oxidase-mediated cross-link formation, which is the final step in the resynthesis of the pulmonary elastin destroyed by the elastolytic insult.
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PMID:Stimulation of lung lysyl oxidase activity in hamsters with elastase-induced emphysema. 285 74

The nonelastolytic proteases trypsin and chymotrypsin were administered to hamsters 24 hours after intratracheal injection of elastase. Severity of the disease, extent of degradation and resynthesis, new cross-link formation, and the levels of the enzyme lysyl oxidase, which mediates the cross-link formation, were compared with the same parameters measured in hamsters with experimental emphysema induced by elastase alone. Increases in mean linear intercept indicated that a more severe form of the disease was produced. Although elastin degradation after 1 week was similar in both groups, resynthesis of the elastin destroyed by the elastolytic insult was significantly impaired in the animals injected sequentially with elastase and trypsin or chymotrypsin. Formation of new elastin as monitored by 14C-lysine incorporation into the elastin specific cross-links desmosine and isodesmosine was reduced approximately 40%, although there was no significant difference in the levels of lysyl oxidase activity. It is suggested that the most likely mechanism compatible with the recorded observations involves destruction of the microfibrillar component of the elastic fiber by trypsin or chymotrypsin, resulting in the absence of the requisite template for resynthesis of the pulmonary elastin.
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PMID:Impairment of elastin resynthesis in the lungs of hamsters with experimental emphysema induced by sequential administration of elastase and trypsin. 285 57

The severity of pulmonary emphysema can be affected by exposure to cigarette smoke in several ways. Inactivation of alpha-1-antitrypsin and recruitment of leukocytes to lung airways shifts the protease-antiprotease balance towards increased elastolytic activity. The present study demonstrates an additional effect of cigarette smoke inhalation and retardation of the repair process and of the neosynthesis of cross-linked elastin. Hamsters with elastase-induced emphysema, exposed to cigarette smoke for 1 wk immediately after elastase administration, showed a 40% reduction of 14C-lysine incorporation into the elastin-specific cross-links, desmosine, and isodesmosine. Concomitantly, there was a decrease in the level of lung lysyl oxidase to that observed in uninjured control animals, in sharp contrast to the sevenfold increase in lysyl oxidase activity in hamsters with elastase-induced emphysema recovering under atmospheric conditions. These findings suggest that impairment of the production of lysyl oxidase and the resynthesis of cross-linked elastin by smoke inhalation exacerbates alveolar destruction.
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PMID:Cigarette smoke impairs elastin resynthesis in lungs of hamsters with elastase-induced emphysema. 392 58

Water-soluble components of the gas phase of filtered cigarette smoke inhibit formation of covalent desmosine cross-links during conversion of tropoelastin to elastin in vitro. These same smoke components also suppress lysyl-oxidase-catalyzed oxidation of lysine epsilon-amino groups in tropoelastin (the chemical step preceding formation of all elastin cross-links, including desmosine) in a dose-dependent fashion. However, gas phase smoke does not block the oxidation of diaminopentane by lysyl oxidase. Thus, gas phase cigarette smoke may possess substrate-directed (rather than enzyme-directed) inhibitory components capable of interfering with elastin cross-linking in vitro. Similar effects occurring in smokers' lungs could impede elastin repair and contribute to the development of pulmonary emphysema.
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PMID:Cigarette smoke blocks cross-linking of elastin in vitro. 683 36

Desmosine is a cross-link amino acid unique to elastin. Previous work has shown that during turnover in the body, desmosine is not reused, and that desmosine is not absorbed from the intestine. Instead, all desmosine released in the course of elastin metabolism is excreted in the urine attached to low molecular weight peptides. Therefore, measurement of desmosine in acid-hydrolysates of urine might be used to monitor elastin breakdown in several pathologic states, including pulmonary emphysema. In the present report, we have described a sensitive, highly specific radioimmunoassay capable of detecting as little as 200 pg of desmosine in acid-hydrolysates of urine. The assay was specific for desmosine; cross-reactivity with merodesmosine, isodesmosine, lysine, and mixed amino acids was 0.25%, 0.1%, less than 0.0003%, and 0%, respectively. Twenty-three normal, nonsmoking subjects had a mean 24-hr desmosine excretion of 47 +/- 15 microgram. In a group of smokers with evidence of chronic obstructive disease and/or lung infection, the values for desmosine excretion ranged from 40 to 400 microgram/24 h. Desmosine radioimmunoassay may find application in the study of diseases involving increased destruction of elastin in the body.
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PMID:Desmosine radioimmunoassay for measuring elastin degradation in vivo. 744 57

1. The Z deficiency variant of alpha 1-antitrypsin predisposes the homozygote to early-onset panlobular emphysema and results in the accumulation of antitrypsin within the hepatocyte, which leads to hepatocellular damage and cirrhosis. The mechanism of this accumulation has been shown to be due to the Z mutation (Glu-342-->Lys) perturbing the structure of the protein, allowing a unique interaction between the reactive-centre loop of one molecule and the A sheet of a second. This loop-sheet polymerization occurs spontaneously at 37 degrees C in purified plasma Z but not M antitrypsin. The rate of polymerization is greatly accelerated at 41 degrees C and is blocked by the insertion of a specific peptide into the A sheet of the antitrypsin molecule. Electron microscopy and circular dichroic spectral analysis confirm that the Z antitrypsin polymers formed in vitro have structural identity with those isolated from the liver of a Z homozygote. 2. That loop-sheet polymerization is a more general phenomenon was shown by the examination of a second deficiency variant, antitrypsin Siiyama (Ser-53-->Phe), which is also associated with liver inclusions. Electron microscopy confirmed that isolated antitrypsin Siiyama from the plasma of a homozygote was present as long chains of polymers identical with those of Z antitrypsin.
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PMID:Loop-sheet polymerization: the structural basis of Z alpha 1-antitrypsin accumulation in the liver. 803 2

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