EC:1.4.3.13 - FACTA Search

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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)

Raising day-old chicks on diets lacking copper severely depressed the activity of lysyl oxidase, a copper metalloenzyme in connective tissue. Administration of CuSO4 either through the diet or through intraperitoneal injections restored the lysyl oxidase activity in aortic tissue. Two hours after the chicks received CuSO4 (1 mg/kg) the activity of lysyl oxidase rose rapidly to attain, within 4-6 hr, a new steady-state level which was five to 20 times higher than the basal (saline-injected) activity. Twenty hours after copper administration, activity was still higher, in some experiments double that achieved at 6 hr. Very low amounts of cycloheximide injected intraperitoneally 45 min before and 3 hr after copper suppressed the activation response by two-thirds. Cycloheximide given 2 or 4 hr after the copper was only one-half as effective. Actinomycin D caused only a 10-15% inhibition of the copper-induced activation. The data suggest that copper is a key regulator of lysyl oxidase activity in aorta and may in fact be a major determinant of the steady-state levels of the enzyme in that tissue.
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PMID:Copper-induced activation of aortic lysyl oxidase in vivo. 0 53

Defective copper metabolism was demonstrated in male mice bearing the blotchy (Moblo/y) allele at the mottled locus on the X-chromosome. Copper absorption from the gut was only 64% of that found in normal mice and hepatic copper levels were only 56% of the controls. Ceruloplasmin and heart cytochrome c oxidase activities were normal, yet lysyl oxidase activity from cultured fibroblasts was only 45% of control levels. Copper accumulated in fibroblasts cultured from these mutants to values that were five times normal. The accumulation of copper in the fibroblasts was associated with a protein of approximately 12,000 molecular weight.
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PMID:Abnormal cellular copper metabolism in the blotchy mouse. 2 91

Lysyl oxidase is the copper-dependent enzyme responsible for the normal cross-linking of both collagen and elastin which is necessary for their functional integrity. There is now strong evidence that this enzyme is vitamin-B6-dependent. The earliest visible lesion of atherosclerosis, commonly found in human neonatal coronary arteries and probably indicative of the location of future atherosclerotic plaques, is a focal splitting of the internal elastic lamina, the cause of which has hitherto remained unexplained. It is suggested that this lesion is the result of imperfect cross-linking of arterial elastin as well as collagen, and is caused by a maternal deficiency of vitamin B6 which is commonly found in pregnancy and which could thus impair the function of lysyl oxidase. Prophylactic supplementation of maternal diet with adequate vitamin B6 is therefore suggested.
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PMID:The aetiological role of maternal vitamin-B6 deficiency in the development of atherosclerosis. 6 31

It is probable that the conditions obtaining during cellular proliferation occurring as a result of damage to the vessel wall will not be at optimum level. The amino oxidase, lysyl oxidase, is copper-dependent and is required for proper cross-linkage in the maturing fibre. Elastic tissue in blood vessels is normally produced by smooth muscle cells and in circumstances where other cells derived from the blood are involved the production of fibres and ground substance may be altered. Orcein staining alone, or after oxidation with oxone, shows different tinctorial affinities for the fibres in the thickened intima and may indicate some departure from normality in their make-up.
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PMID:Abnormal maturation of elastic fibres in the atherosclerotic intima. 7 96

Evidence is presented that indicates tropoelastin is derived from a soluble elastin with a molecular weight of 95000. Tropoelastin and its proposed precursor were isolated from the aortas of copper-deficient chicks. Although it is doubtful that the proposed precursor is an initial product of elastin translation, i.e., a proelastin, it is proposed to be at least a truncated form of proelastin that is converted to tropoelastin. The key to its isolation was the presence of alpha 1-antitrypsin at each step in the purification procedure. The first 11 amino acid residues at the NH2 terminal of the proposed tropoelastin precursor (GGVPGVAVPGGV) are the same as those for tropoelastin. Its amino acid composition is similar to that of tropoelastin, except for higher amounts of acidic amino acid residues. Further, the proposed precursor contains a limited number of aldehydic functions, presumably in the form of peptidyl allysine. This was taken as an indication that the proposed precursor serves as a substract for lysyl oxidase. Under the conditions used for the isolation, the precursor appeared to be in higher concentrations than tropoelastin in aorta extracts from copper-deficient chicks.
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PMID:Partial characterization of a tropoelastin precursor isolated from chick aorta. 48

A protective and curative effect of some flavonoids on collagen maturation in lathyrism has been previously demonstrated. This action appeared to involve cross linking of collagen. This paper deals with the effect in vitro of flavonoids and flavonoid-copper complexes on the oxidative deamination of lysine epsilon-amino groups in [4,5-3H]-lysine-labelled elastin. Flavonoids alone do not affect the reaction but it is evident that some flavonoid copper complexes are strongly effective: the aldehyde groups that are quickly formed then enable cross linking to occur. The lysine epsilon-amino groups of elastin are specifically concerned: in fact no effect was observed on free [4,5-3H]-lysine or on [4,5-3H]-lysine-labelled proteins obtained from mouse liver. The lysyl oxidase seems to interfere with the flavonoid-copper complees to regulate the oxidative deamination of lysine epsilon-amino groups.
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PMID:Influence of flavonoid-copper complexes on cross linking in elastin. 56 63

Copper therapy was applied to brindled mouse mutants, which suffer from lethal hypocupraemia, by using cuprous and cupric solutions. The method of treatment was a single subcutaneous injection of 50 microgram of copper at 7 days of age. Early effects of the dose were: prevention of the tremors and spasms seen in untreated mutants, raising to normal and near-normal of caeruloplasmin oxidase and lysyl oxidase activities and pigmentation of skin and fur. Growth of mutants was retarded up to 23 days of age, but thereafter they rapidly gained weight to be nearly normal by 60 days of age. At 3 days after injection, copper concentrations in previously deficient mutant organs apart from liver were at least as much as those of treated normals, which had remained unchanged. Copper in mutant livers had increased only slightly in comparison with the normal control. A state of copper deficiency recurred in mutant tissues by 25 days after injection. A solution of Cu+, retained as such by an alkyl polyether, and sebacic acid resulted in greater growth rates after 23 days than did three other copper treatments. Cu+ may have resulted in an improved growth response owing to it being more readily metabolized than C12+. Delayed release of copper from the site of injection may have played an important role.
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PMID:Copper metabolism in mottled mouse mutants: copper therapy of brindled (Mobr) mice. 57 18

Nutritional copper deficiency effects marked changes in the crosslinking of collagen and elastin, presumably in relationship to copper's role as a cofactor for lysyl oxidase. Lysyl oxidase controls one of the initial steps in the crosslinking of elastin and collagen, i.e., the conversion of peptidyl lysine or hydroxylysine residues to peptidyl alpha-aminoadipic-delta-semialdehyde derivatives. Once lysine-derived aldehydic functions in collagen and elastin are formed, crosslinks occur via aldol and Schiff-base type condensations. A decrease in the degree of crosslinking results in changes in the biomechanical properties of both collagen- and elastin-rich tissues. Some of these changes are described with respect to chick bone and aorta. Likewise, penicillamine blocks crosslinking reactions. In this case, however, it is probably because of the formation of thiazolidine complexes between penicillamine aldehydic functions. The administration of penicillamine at different levels to young growing chicks allows the isolation of fibrous insoluble elastin varying in aldehyde content.
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PMID:Nutritional copper deficiency and penicillamine administration: some effects on bone collagen and arterial elastin crosslinking. 90 29

Dietary copper-deficient guinea pig dams (0.8 microgram Cu/g diet) were administered oxytocin to induce delivery of pups, whereas dietary copper-sufficient guinea pig dams (5.8 micrograms Cu/g diet) had uneventful deliveries with 79% surviving pups. The copper-deficient dams carried the fully-formed fetuses to term but did not go into labor unless 0.5 to 6.2 U oxytocin was administered (i.m.). Birth of live pups from copper-deficient dams increased from 28% overall, to 50% if oxytocin was administered in a timely manner. Many pups died of internal hemorrhages probably the result of defective connective tissue crosslinks requiring copper as a co-factor for lysyl oxidase activity. Dietary copper deficiency may be a factor in depressed parturition in the copper-deficient guinea pig dam that responds to administration of exogenous oxytocin for delivery of pups.
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PMID:Oxytocin-induced parturition in copper-deficient guinea pigs. 131 54

Various o- and p-quinones were assessed as oxidants of peptidyl lysine in elastin and collagen substrates in the presence and absence of divalent copper as paradigms of protein-lysine 6-oxidase (lysyl oxidase) which contains both quinone and copper cofactors. Pyrroloquinoline quinone was among the most active in the absence and the most active of the o- and p-quinones tested in the presence of copper. The optimal rate of elastin oxidation occurred at a 2:1 PQQ/Cu(II) ratio while Cu(II) itself oxidized elastin relatively slightly. Elastin oxidation by 2:1 PQQ/Cu(II) required aerobic conditions consistent with oxygen-dependent turnover of this catalytic pair. Dimethylsulfoxide and catalase individually or in combination inhibited elastin oxidation by PQQ/Cu(II) by approx. 50%, suggesting that oxygen free radical species participate in the reaction. Amino-acid analysis of elastin and collagen substrates oxidized by 2:1 PQQ/Cu and then reduced with borohydride revealed that alpha-aminoadipic-delta-semialdehyde and lesser amounts of covalent cross-linkages were generated by this oxidant. In contrast, lysine oxidase produced aldehydes and significantly greater quantities of cross-linkage products, consistent with the known specificity of the enzyme. These data, thus, indicate the potential for free quinones, such as PQQ, particularly when stimulated by appropriate metal ions, to act as adventitious oxidants of lysine side-chains in proteins.
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PMID:Oxidation of peptidyl lysine by copper complexes of pyrroloquinoline quinone and other quinones. A model for oxidative pathochemistry. 132 61

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