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)

Lysyl oxidase is an extracellular enzyme that initiates crosslink formation in the major connective tissue proteins, the collagens and elastin. This enzyme activity accumulated in a fresh medium of cultured human skin fibroblasts for at least 24 h, but the accumulation was distinctly non-linear after the first 12 h. Most of the total enzyme activity was present in the medium, the activity found in the cell layer representing about 30% of the total activity at 4 h, and about 10-15% at 24 h. The bulk of the cell-layer-associated activity appeared to be extracellular, as more than half was lost upon trypsinization. Culturing of the cells for 8 h in the presence of either monensin or nigericin, ionophores known to inhibit the secretion of many proteins at the level of the Golgi complex, markedly reduced the accumulation of lysyl oxidase activity in the medium. Monensin was particularly effective, as it produced a distinct inhibition even at a 10 nM concentration, reaching 50% at 30 nM. Both ionophores also reduced enzyme activity in the cell layer, whereas no definite decrease was seen in the activity of the trypsinized cells. The effect of monensin was evidently not due to any general toxicity on the part of the drug, since even a 500 nM concentration gave no inhibition of the incorporation of [3H]leucine into total protein. Tunicamycin also reduced lysyl oxidase activity in the medium and to a lesser extent in the cell layer, but the effective dose, 1-10 micrograms/ml, also inhibited the incorporation of [3H]leucine into total protein. The reduced enzyme activity may therefore not be due to a direct effect of tunicamycin on the glycosylation of the lysyl oxidase protein itself but may be mediated through other actions of the drug. Colchicine caused no inhibition in lysyl oxidase activity secretion even at a 10 microM concentration, although it has been reported to inhibit collagen secretion at doses more than one order of magnitude lower.
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PMID:Secretion of lysyl oxidase by cultured human skin fibroblasts and effects of monensin, nigericin, tunicamycin and colchicine. 287 33

The localization of lysyl oxidase was examined in calf and rat aortic connective tissue at the ultrastructural level using polyclonal chicken anti-lysyl oxidase and gold conjugated rabbit anti-chicken immunoglobulin G to identify immunoreactive sites. Electron microscopy of calf aortic specimens revealed discrete gold deposits at the interface between extracellular bundles of amorphous elastin and the microfibrils circumferentially surrounding these bundles. The antibody did not react with microfibrils which were distant from the interface with elastin. There was negligible deposition of gold within the bundles of amorphous elastin and those few deposits seen at these sites appeared to be associated with strands of microfibrils. Lysyl oxidase was similarly localized in newborn rat aorta at the interface between microfibrils and nascent elastin fibers. Gold deposits were not seen in association with extracellular collagen fibers even after collagen-associated proteoglycans had been degraded by chondroitinase ABC. However, the antibody did recognize collagen-bound lysyl oxidase in collagen fibers prepared from purified collagen to which the enzyme had been added in vitro. No reaction product was seen if the anti-lysyl oxidase was preadsorbed with purified lysyl oxidase illustrating the specificity of the antibody probe. The present results are consistent with a model of elastogenesis predicting the radial growth of the elastin fiber by the deposition and crosslinking of tropoelastin units at the fiber-microfibril interface.
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PMID:Ultrastructural immunolocalization of lysyl oxidase in vascular connective tissue. 287 77

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

Benzylamine derivatives containing para substituents of differing electronegativity as well as isomers of aminomethylpyridine have been assessed for their substrate and inhibitor potentials toward lysyl oxidase. Substituted benzylamines with increasingly electronegative para substituents had the lowest KI values and thus were the most effective inhibitors of the oxidation of elastin by lysyl oxidase. The kcat values for these compounds as substrates of lysyl oxidase were also reduced with increasingly electronegative para substituents. Both the Dkcat and D(kcat/Km) kinetic isotope effects decreased with increasingly electronegative p-substituents in [alpha, alpha'-2H]benzylamines. In contrast, there was no Dkcat solvent isotope effect with [2H] H2O while the D(kcat/Km) solvent isotope effect tended to increase with increasingly electronegative p-substituents. These results are consistent with the stabilization of an enzyme-generated substrate carbanion and thus the retardation of substrate oxidation by electronegative substituents. Such ground state stabilization thus can result in compounds with increased potential for the inhibition of the oxidation of protein substrates of lysyl oxidase.
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PMID:Electronegativity of aromatic amines as a basis for the development of ground state inhibitors of lysyl oxidase. 288 28

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

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

Exposure of [3H]-lysine labeled elastin to either purified myeloperoxidase plus H2O2 and halides or human neutrophils plus phorbol myristate acetate resulted in oxidation of lysine side chains quantitated as 3H2O release. In both the enzyme and cell system oxidation was blocked by azide, cyanide or catalase, but not by beta-aminopropionitrile, an inhibitor of lysyl oxidase. Myeloperoxidase-deficient neutrophils were ineffective unless exogenous myeloperoxidase was added. These data provide a biochemical basis for inflammatory changes in connective tissue proteins mediated by oxidant secretory products of neutrophils.
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PMID:Oxidation of lysine side-chains of elastin by the myeloperoxidase system and by stimulated human neutrophils. 300 20

In the caudal and renal arteries of the male Wistar rat, interruptions in the internal elastic lamina (IEL) form spontaneously with age. beta-aminopropionitrile (BAPN), which is an inhibitor of the enzyme lysyl oxidase implicated in the synthesis of elastin, is able to induce in the young Wistar rat interruptions in the IEL which are morphologically very similar to those which form spontaneously. The spontaneously hypertensive strain (SHR), together with the Stroke-Prone spontaneously hypertensive substrain (SHR-SP) which is susceptible to cerebrovascular accidents early in life, have been selected from the Wistar strain. We have compared the incidence of IEL interruptions in caudal and renal arteries from SHR-SP aged 12 and 23 weeks with that observed in age-matched SHR. In addition, we have studied the effect of BAPN, administered from weaning during two weeks, on the formation of interruptions in the IEL in the caudal artery of SHR-SP, SHR and normotensive Wistar and WKY rats. Interruptions in the IEL were quantified by light microscopy on longitudinal semi-thin sections. Results showed that, in the caudal and renal arteries of SHR-SP, the number of interruptions in the IEL which form spontaneously was greater than in SHR. Moreover, BAPN administered between the age of 3 and 5 weeks led to the premature formation of a higher level of interruptions in the IEL in SHR-SP than in the 3 other strains of rat. The SHR was the strain which developed the least.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Formation of disruptions of the internal elastica lamina, spontaneous and BAPN induced, in arteries of stroke-prone spontaneously hypertensive rats]. 311 72

A previous paper describes specific respiratory toxins likely to be associated with Sudden Infant Death Syndrome (SIDS). This paper describes ultrastructural abnormalities in the lung and other tissues in congenital copper deficiency. Congenital copper deficiency is associated with tissue anoxia defects in the development of myelin through a failure of phospholipid synthesis. Phospholipid is part of the membrane structure of cells. The paucity of elastin is attributed to a loss of lysyl oxidase activity. Hypoventilation is considered a feature of SIDS.
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PMID:Sudden infant death syndrome: congenital copper deficiency. 331 46


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