Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.4.3.13 (lysyl oxidase)
 1,248 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experimental lathyrism was induced by feeding newborn chicks a diet containing 0.2 and 0.4% DL-Penicillamine, with or without CuSO4 (10 mg/Kg diet) and Vitamin B6 (100 mg/Kg diet), or 0.015 and 0.1% beta-aminopropionitrile fumarate (beta-APN). After 7, 15, 25 and 55 days of treatment the animals were killed, the aortas removed and processed for electron microscopy in the presence of markers for proteoglycans, and the elastic fibers were carefully examined. Penicillamine, which prevents the formation of desmosine crosslinks by binding to precursors, induced the production of numerous new elastin fibers which appeared normal from the ultrastructural point of view. It seems, therefore, that at least in chick aortas, desmosine crosslinks are not necessary for the aggregation of tropoelastin molecules into structurally normal fibers. On the contrary, beta-APN, a classical inhibitor of lysyl oxidase, induced the tropoelastin molecules to aggregate into abnormal protuberances on the old fibers. Moreover, the elastin deposited during beta-APN treatment was always permeated by cytochemically revealed proteoglycans, which were never observed after penicillamine treatment. It is speculated that, at least in the system under study, the epsilon-amino groups of tropoelastin molecules may offer the binding sites for matrix proteoglycans until they are removed by lysyl oxidase, and that matrix proteoglycans might play a role in elastin fibrogenesis by preventing spontaneous tropoelastin aggregation in areas far from growing elastin fibers.
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PMID:Alterations of elastin fibrogenesis by inhibition of the formation of desmosine crosslinks. Comparison between the effect of beta-aminopropionitrile (beta-APN) and penicillamine. 293 20

Elastin is synthesized by fibroblasts and chondroblasts in cell culture shortly before the cells become confluent. Fibroblasts secrete elastin into the medium as soluble tropoelastin molecules, which form desmosine crosslinks and become constituents of the cell layer only after three weeks in culture. Even then only a small fraction of the available tropoelastin molecules from crosslinks. Conversely, the chondrocytes secrete an elastin which never reaches the media as soluble elastin in significant quantities. Crosslinking occurs immediately in the chondroblast cell layer forming stable, insoluble elastic fibers. Both cells in culture produce lysyl oxidase at approximately the same levels. The reason for the marked differences between these cells in the mode of conversion of soluble elastin to insoluble elastin is not known. The suggestion of Mecham that the extracellular matrix may play a major role in the development of elastogenesis may provide an answer.
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PMID:Desmosine radioimmunoassay as a means of studying elastogenesis in cell culture. 611 11

A mild form of emphysema was produced in pigs raised on a copper-deficient, zinc-supplemented diet. The copper-requiring enzyme, lysyl oxidase, catalyzes the cross-linking of tropoelastin into mature elastin. Zinc further inhibits the activity of lysyl oxidase. Lungs from animals raised on copper-deficient, zinc-supplemented diets of demonstrate perforations in alveolar walls and diminished amounts of elastin bronchi and pulmonary arteries. Mean linear intercepts are greater and alveolar internal surface areas are less than those in control animals, fulfilling the generally accepted definition of emphysema. Physiologic confirmation is provided by a leftward shift of the saline volume-pressure curves when compared with those in control animals. Ultrastructurally, the alveolar walls are effaced and pores of Kohn are enlarged. There are areas in which elastin is absent leaving remnant microfibrils, and there are other changes consistent with active elastin synthesis. Biochemical data demonstrate no difference in elastin content as micrograms/ml of fat-free dry weight but do demonstrate increased collagen content in experimental animal lungs compared with that in control lungs. Ultrastructural similarities to enzyme-induced models of emphysema suggest the presence of elastin degradation in our model. We speculate that although the copper-deficient, zinc-supplemented state may stimulate protein synthesis in general, elastin is being degraded by endogenous means, but collagen is not.
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PMID:A copper-deficient, zinc-supplemented diet produces emphysema in pigs. 612 18

The elastic properties of many tissues such as the lung, dermis, and large blood vessels are due to the presence of elastic fibers in the extracellular space. These fibers have been shown by biochemical and ultrastructural analysis to be comprised of two distinct components, a more abundant amorphous component and the microfibrillar component. The microfibrillar component is found in 10- to 12-nm fibrils which are located primarily around the periphery of the amorphous component but, to some extent, interspersed within it. The protein, elastin, makes up the highly insoluble amorphous component and is responsible for the elastic properties. Elastin is found throughout the vertebrate kingdom except for very primitive fish and possesses an unusual chemical composition consonant with its characteristic physical properties. Elastin is composed largely of glycine, proline, and other hydrophobic residues and contains multiple lysine-derived cross-links, such as the desmosines, which link the individual polypeptide chains into a rubber-like network. The intervening, hydrophobic regions of the polypeptide chains between the cross-links are highly mobile, and the elastic properties of the fibers can be described in terms of the theory of rubber elasticity. Recent application of recombinant DNA techniques has led to further understanding of the structure of elastin. Analyses of the bovine and human elastin genes have demonstrated that the hydrophobic and cross-linking domains are encoded in separate exons. These exons tend to be small, varying from 27 to 114 base pairs, and are separated by large intervening sequences. Furthermore, DNA sequence analysis has demonstrated that the elastin molecule contains two cysteine residues which were not previously identified near the carboxy terminus and which may be important in the interaction of elastin with other extracellular matrix proteins. Further DNA sequencing should determine the complete amino acid sequence of elastin. Biosynthetic studies and in vitro translation of elastin mRNA have demonstrated that a 72,000-dalton polypeptide, designated tropoelastin, is the initial translation product. Analysis of several developing systems has demonstrated that elastin synthesis is controlled by the level of elastin mRNA. After packaging into membrane-bound vesicles in the Golgi apparatus, tropoelastin is secreted by exocytosis into the extracellular space where it is cross-linked by a copper-requiring extracellular enzyme, lysyl oxidase. Elastin can be solubilized only by proteases that have consequently been designated elastases, although these are general, powerful proteases that can hydrolyze numerous proteins.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Elastin: relation of protein and gene structure to disease. 615 Jan 37

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

Elastin contains a number of cross-linking amino acid residues such as desmosine and isodesmosine which are primarily hydrophobic in character, but have a positively charged pyridinium ring. These cross-linking residues are formed by the action of lysyl oxidase upon Lys residues in tropoelastin, a precursor of elastin. A series of tetrapeptide 4-nitroanilides which contain Lys and a series of modified lysine residues were synthesized. The modified lysine residues [epsilon-carbobenzyloxy (Z), epsilon-benzoyl (Bz), epsilon-benzimidoyl (Bim), and epsilon-2-picolinoyl (Pic)] have various characteristics of desmosine and isodesmosine residues, such as a positive charge, a hydrophobic aromatic ring, or a pyridine ring. The reactivity of the tetrapeptide 4-nitroanilides containing the model desmosine residues at P4, P3, or P2 with human leukocyte (HL) and porcine pancreatic (PP) elastase was measured at pH 7.5 and 25 degrees C. HL elastase exhibited high reactivity toward the substrates with P4 or P3 hydrophobic groups (Z, Bz, or Pic), and MeO-Suc-Lys(Pic)-Ala-Pro-Val-NA is 7 times more reactive than the previous best HL elastase substrate, MeO-Suc-Ala-Ala-Pro-Val-NA. The major change occurred in KM values. The substrates containing Lys residues were either nonreactive or poor. Except for two substrates with P2 hydrophobic residues (Bz and Pic), PP elastase was less reactive toward the substrates containing model desmosine residues than toward MeO-Suc-Ala-Ala-Pro-Val-NA. The data support the hypothesis that HL elastase cleaves elastin selectively ner cross-linking residues. The results also indicate that HL elastase binds tightly to these regions and would be poorly effective toward regions of elastin or tropoelastin which contain Lys residues.
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PMID:Reactivity of human leukocyte elastase and porcine pancreatic elastase toward peptide 4-nitroanilides containing model desmosine residues. Evidence that human leukocyte elastase is selective for cross-linked regions of elastin. 691 69

The alignment of elastin molecules in the mature elastic fiber was investigated by purifying and sequencing cross-link-containing peptides generated by proteolytic digestion incompletely cross-linked insoluble elastin. Peptides of interest were purified by reverse phase and size exclusion high performance liquid chromatography and characterized by amino acid analysis and protein sequencing. One peptide, consisting of the cross-linking domain encoded by exon 10, contained a modified lysine residue that had not condensed to form a polyfunctional cross-link. Although this domain contains the characteristic paired lysine residues found in other cross-linking domains of elastin, protein sequence analysis indicated that the first but not the second lysine had been oxidized by lysyl oxidase. This finding suggests that lysine residues in an individual cross-linking domain may not have equal susceptibility to oxidation by lysyl oxidase. In a second peptide, we found that a major cross-linking site in elastin is formed through the association of sequences encoded by exons 10, 19, and 25 and that the three chains are joined together by one desmosine and two lysinonorleucine cross-links. Past structural studies and computer modeling predict that domains 19 and 25 are linked by a desmosine cross-link, while domain 10 bridges domains 19 and 25 through lysinonorleucine cross-links. These findings, together with the high degree of sequence conservation for these three domains, suggest an important function for these regions of the molecule, possibly nucleating the aggregation and polymerization of tropoelastin monomers in the developing elastic fiber.
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PMID:Identification of an elastin cross-linking domain that joins three peptide chains. Possible role in nucleated assembly. 762 78

We used a rat model to correlate age, matrix gene expression and lysyl oxidase activity in three connective tissues, skin, aorta and lung. By in situ hybridization, we showed that intense collagen type I and elastin mRNA expression were limited to a brief postnatal period. Although there were some organ-specific differences, the mRNA abundance for these two scleroproteins drastically diminished with time. Thus, the majority of mesenchymal cells in young (60 days) and old (720 days) animals, appeared to be in a quiescent state, consistent with the slow turnover of these two scleroproteins. We also measured the activity of lysyl oxidase, an enzyme which plays a crucial role in the formation of crosslinks in both procollagen and tropoelastin molecules. In all the organs investigated, we observed a tissue-dependent pattern of activity. Moreover in this study we focused on the importance of gene matrix expression in evaluating lysyl oxidase activity of aging tissues.
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PMID:Extracellular matrix modifications in rat tissues of different ages. Correlations between elastin and collagen type I mRNA expression and lysyl-oxidase activity. 790 10

A case of cutis laxa acquisita was studied with the aim of defining the molecular defects involved and comparing them with those of an inherited form of cutis laxa. In the acquisita form of cutis laxa ultrastructural and biochemical observations confirmed a dramatic reduction of dermal elastin, whereas collagen content was normal. Elastin mRNA expression as well as tropoelastin production by dermal fibroblasts, in vitro, were normal compared with control cells, as revealed by in situ hybridization and enzyme-linked immunosorbent assay, respectively. Lysyl oxidase activity, measured on cultured fibroblasts, was reduced to 60% compared with age-matched control subjects. Unlike control skin fibroblasts or fibroblasts from inherited cutis laxa, the affected skin cells from cutis laxa acquisita predominantly expressed an elastolytic activity identified as cathepsin G. Patient serum also has reduced elastase inhibitory capacity and reduced levels of alpha 1-antiproteinase inhibitor (alpha 1-antitrypsin). Although cutis laxa acquisita is a heterogeneous group of disorders, findings in this patient were consistent with excessive loss of cutaneous elastin due to the combined effects of several factors, such as low lysyl oxidase activity together with high levels of cathepsin G and reduction of circulating proteinase inhibitor(s).
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PMID:Elastin production and degradation in cutis laxa acquisita. 793 Jun 86

The use of recombinant human tropoelastin (rTE) and selected variants thereof as substrates for the assay of lysyl oxidase activity in vitro was explored. The possibility was also assessed that an insoluble elastin-like product could be generated from this elastin precursor in the absence of other macromolecules found associated with elastin in vivo. rTE was more efficiently oxidized by lysyl oxidase than the insoluble chick aorta elastin substrate conventionally used. Anionic amphiphilic elastin ligands strongly inhibited rTE oxidation consistent with the importance of electrostatic enzyme-substrate interactions previously noted with the insoluble elastin substrate. An rTE variant, rTE delta 26A, lacking the hydrophilic sequence coded by exon 26A, was a less effective substrate than rTE, largely due to an increase in Km, while the kinetic parameters for the oxidation of rTE delta 36, lacking the C-terminal polybasic sequence coded by exon 36, were quite similar to those for rTE. Incubation of rTE delta 26A with lysyl oxidase not only resulted in the generation of peptidyl alpha-aminoadipic-delta-semialdehyde and lysine-derived cross-linkages, but also yielded a product insoluble in hot 0.1 N NaOH, consistent with the properties of insoluble elastin. Thus, oxidation, cross-linking and insolubilization of elastin substrates by lysyl oxidase can occur in the absence of other macromolecules implicated as being involved in this process in vivo, although such macromolecules may be essential to obtain the proper alignment between tropoelastin units for specifically placed cross-linkages and optimally functional elastic fibers.
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PMID:Oxidation, cross-linking, and insolubilization of recombinant tropoelastin by purified lysyl oxidase. 809 38


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