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: EC:1.4.3.13 (lysyl oxidase)
1,248 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cultured vascular endothelium secretes the enzyme lysyl oxidase which cross-links both collagen and elastin. The major reducible cross-link synthesized by cultured human umbilical arterial and venous endothelium is dihydroxylysinonorleucine (di-OH-LNL). Treatment of the cultures with the lathyrogen beta-aminopropionitrile (BAPN), which inhibits lysyl oxidase, inhibited synthesis of this cross-link. Cultured porcine aortic endothelium synthesized three major reducible lysine-derived cross-links: dihydroxylysinonorleucine (di-OH-LNL), hydroxylysinonorleucine (OH-LNL) and lysinonorleucine (LNL); BAPN also inhibited synthesis of these three cross-links. Earlier in-vivo observations on BAPN-treated chick embryos had shown a 20% increase in the hydration of cartilage and other tissues; the likeliest explanation was that cross-link disruption permitted the proteoglycans in cartilage to express their hydrophilic nature when freed of their collagenous network. Capillary basement membrane contains laminin, proteoglycan and type IV collagen. Following the finding of oedema in lathyritic cartilage, we would propose that agents which disrupt collagen cross-links in cultured vascular endothelium, damaging capillary basement membrane, be considered as one possible mechanism in the pathogenesis of oedema.
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PMID:Collagen cross-link synthesis in cultured vascular endothelium. 260 12

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

Extracts of bovine ligamentum nuchae have been assayed for lysyl oxidase activity using as substrates soluble elastin and soluble collagen labeled with tritiated lysine. The assays were performed in the presence and absence of sodium oleate. At 0.8 mM, oleate decreased activity with elastin more than 50% and enhanced activity with collagen to approximately 200% that of controls without oleate. The results show that this hydrophobic anion modulates lysyl oxidase specificity in crude extracts and suggests a mechanism for modifying activity in tissues.
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PMID:Modulation of lysyl oxidase substrate specificity by the oleate anion. 285 98

Weanling and perinatal rats were rendered vitamin B-6 (pyridoxine)-deficient. The rat pups were nursed from vitamin B-6-deficient or -sufficient dams and were killed at day 15 after parturition. The weanling rats were fed vitamin B-6-deficient or -sufficient diets and were killed after 5 weeks of treatment. Lung elastin from the groups of rats was then studied with respect to its content of lysine-derived cross-linking amino acids. Lung lysyl oxidase activity was also measured. B-6 deficiency decreased the number of lysine residues in elastin that were converted into the cross-linking amino acid precursor allysine. However, a more significant defect in cross-link formation was an apparent block in the condensation steps leading to the formation of desmosine. Desmosine was decreased, with an increase in the amounts of aldol condensation products (aldol CP) in elastin. It is proposed that the elevation in aldol CP results from the formation of thiazines, which are produced from the reaction between aldehyde and homocysteine. The concentration of homocysteine is significantly elevated in vitamin B-6-deficient rats.
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PMID:Effect of vitamin B-6 (pyridoxine) deficiency on lung elastin cross-linking in perinatal and weanling rat pups. 286 42

The activity of lysyl oxidase, the cross-linking enzyme of elastin and collagen, was measured in culture media of human skin fibroblasts, human aortic medial smooth muscle cells (SMCs) and adventitial fibroblasts using [3H]lysine-labelled elastin substrate. In addition, biosynthesis of isodesmosine and desmosine, the cross-linking amino acids of elastin, was studied by metabolic labelling with [14C]lysine and subsequent amino acid chromatography of protein hydrolysates. Lysyl oxidase activity in culture media of skin fibroblasts and aortic smooth muscle cells increased with the growth of the cell population and was at the highest level in cultures of high cell density. Lysyl oxidase activity in the aortic cell cultures was about three times that of skin fibroblasts. Aortic smooth muscle cells synthesized at least 100 times more desmosines than skin or adventitial fibroblasts. No differences were observed in lysyl oxidase activity and synthesis of desmosines between aortic smooth muscle cells or skin fibroblasts from patients with the Marfan syndrome or other annulo-aortic ectasia (dilatation of the ascending aorta) and the corresponding controls.
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PMID:Lysyl oxidase activity and synthesis of desmosines in cultured human aortic cells and skin fibroblasts: comparison of cell lines from control subjects and patients with the Marfan syndrome or other annulo-aortic ectasia. 286 71

Previous studies have pointed towards a cofactor role for pyridoxal 5'-phosphate (PLP) in lysyl oxidase, the enzyme that generates the peptidyl aldehyde precursor to the lysine-derived cross-linkages in elastin and collagen. The nature of a carbonyl moiety in purified bovine aortic lysyl oxidase was explored in the present study. A PLP dinitrophenylhydrazone could not be isolated from lysyl oxidase, although corresponding preparations of aspartate aminotransferase, a PLP-dependent enzyme, yielded this derivative, as revealed by h.p.l.c. Analysis of lysyl oxidase for PLP after reduction of the enzyme by NaBH4, a procedure that converts PLP-protein aldimines into stable 5'-phosphopyridoxyl functions, also proved negative in tests using monoclonal antibody specific for this epitope. Lysyl oxidase was competitively inhibited by phenylhydrazine, and inhibition became irreversible with time at 37 degrees C, displaying a first-order inactivation rate constant of 0.4 min-1 and KI of 1 microM. [14C]Phenylhydrazine was covalently incorporated into the enzyme in a manner that was prevented by prior modification of the enzyme with beta-aminopropionitrile, a specific active-site inhibitor, and which correlated with functional active-site content. The chemical stability of the enzyme-bound phenylhydrazine exceeded that expected of linkages between PLP and proteins. The absorption spectrum of the phenylhydrazine derivative of lysyl oxidase was clearly distinct from that of the phenylhydrazone of PLP. It is concluded that lysyl oxidase contains a carbonyl cofactor that is not identical with PLP and that is bound to the enzyme by a stable chemical bond.
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PMID:Reactivity of a functional carbonyl moiety in bovine aortic lysyl oxidase. Evidence against pyridoxal 5'-phosphate. 287 97

To study the interactions of lipoproteins, connective tissue components and cells, mouse peritoneal macrophages were incubated in the presence of human low density lipoproteins (LDL) that had been complexed with pig aortic proteoglycans (PG) or incubated in the presence of soluble collagen and/or lysyl oxidase, which catalyses the formation of cross-linkages in collagen and elastin by oxidising epsilon-amino groups of lysine residues to aldehydes. Soluble and insoluble PG-LDL complexes increased the incorporation of [3H]oleate into cellular cholesteryl esters (CE) 1.6- and 2.8-fold, respectively, while LDL incubated with collagen and lysyl oxidase had no effect compared to control LDL. As judged on the basis of incubations with fucoidin, spermine and 125I-labelled lipoproteins, the mechanism of internalisation of the PG-LDL complexes is different from that of acetylated LDL or dextran sulphate-LDL complexes. The formation of PG-LDL complexes in the arterial intima may lead to an increased uptake of lipoproteins by intimal macrophages during the early phase of atherogenesis.
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PMID:The effect of proteoglycans, collagen and lysyl oxidase on the metabolism of low density lipoprotein by macrophages. 287 75

Hydrophobic tropoelastin molecules aggregate in vitro in physiological conditions and form fibers very similar to natural ones (Bressan, G. M., I. Pasquali Ronchetti, C. Fornieri, F. Mattioli, I. Castellani, and D. Volpin, 1986, J. Ultrastruct. Molec. Struct. Res., 94:209-216). Similar hydrophobic interactions might be operative in in vivo fibrogenesis. Data are presented suggesting that matrix glycosaminoglycans (GAGs) prevent spontaneous tropoelastin aggregation in vivo, at least up to the deamination of lysine residues on tropoelastin by matrix lysyl oxidase. Lysyl oxidase inhibitors beta-aminopropionitrile, aminoacetonitrile, semicarbazide, and isonicotinic acid hydrazide were given to newborn chicks, to chick embryos, and to newborn rats, and the ultrastructural alterations of the aortic elastic fibers were analyzed and compared with the extent of the enzyme inhibition. When inhibition was greater than 65% all chemicals induced alterations of elastic fibers in the form of lateral aggregates of elastin, which were always permeated by cytochemically and immunologically recognizable GAGs. The number and size of the abnormal elastin/GAGs aggregates were proportional to the extent of lysyl oxidase inhibition. The phenomenon was independent of the animal species. All data suggest that, upon inhibition of lysyl oxidase, matrix GAGs remain among elastin molecules during fibrogenesis by binding to positively charged amino groups on elastin. Newly synthesized and secreted tropoelastin has the highest number of free epsilon amino groups, and, therefore, the highest capability of binding to GAGs. These polyanions, by virtue of their great hydration and dispersing power, could prevent random spontaneous aggregation of hydrophobic tropoelastin in the extracellular space.
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PMID:Lysyl oxidase activity and elastin/glycosaminoglycan interactions in growing chick and rat aortas. 288 72

The generation of covalent cross-linkages in collagen is initiated by the deamination by lysyl oxidase of specific lysine residues in this connective tissue protein. Since lysyl oxidase activity is influenced by ionic ligands bound to its protein substrates, the effect of heparin, an anionic glycosaminoglycan known to bind to collagen, was explored by using collagen and elastin substrates and highly purified lysyl oxidase. Concentrations of heparin up to 1 mg mL-1 had little effect on the enzymatic rate of oxidation if it was added prior to the addition of enzyme to a preformed fibrillar collagen substrate or to an insoluble elastin substrate. However, collagen oxidation was inhibited by 85% if this glycosaminoglycan was present at 0.4 mg mL-1 during collagen fibril formation before addition of the enzyme. Similarly, the rate and extent of collagen fibrillogenesis in the absence of lysyl oxidase were each markedly inhibited in the presence of 0.4 mg mL-1 heparin. Heparin also inhibited the extent of tight binding of lysyl oxidase to preformed fibrils by about 40% under conditions where enzyme activity against preformed fibrils was hardly affected. These results suggest that heparin may modulate the oxidation and thus the insolubilization of extracellular collagen fibers, possibly under conditions where elastin fiber synthesis is not affected, and that the tight binding of lysyl oxidase to collagen is not completely related to the expression of enzyme activity toward this substrate. These results also have mechanistic implications for the retarding effect of heparin on postoperative wound healing.
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PMID:Inhibition by heparin of the oxidation of lysine in collagen by lysyl oxidase. 290 22


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