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)

Many abnormalities in collagen have been reported in insulin-dependent diabetes mellitus, some or all of which have been attributed to increased cross-linking. Although recent work has focused on the role of glucose-derived collagen cross-links in the pathogenesis of diabetic complications, relatively few studies have investigated the role of lysyl oxidase-dependent (LOX) cross-links. In the present study, LOX cross-links and nonenzymatic glycosylation were quantified in skin collagen from diabetic subjects. There was an increase in the difunctional cross-link dihydroxylysinonorleucine (DHLNL) as well as in one of its trifunctional maturation products, hydroxypyridinium. All other LOX crosslinks were normal. Nonenzymatic glycosylation was increased in diabetic skin collagen, and this increase was correlated with increases in DHLNL (P less than 0.001). The biochemical results were examined for correlations with clinical data from the same subjects. Increases in DHLNL content were associated with duration of diabetes (P less than 0.003), glycohemoglobin levels (P less than 0.001), hand contractures (P less than 0.05), skin changes (P less than 0.005), and microalbuminuria (P less than 0.01). In nondiabetic subjects age was not correlated with collagen cross-link content with the exception that his-HLNL increased with age (r = 0.79, P less than 0.02). In diabetic subjects, PA levels decreased with age (r = 0.51, P less than 0.02). With increased duration of diabetes, DHLNL content was increased (r = 0.55, P less than 0.003) and OHP was increased (r = 0.59, P less than 0.01), whereas PA levels were decreased (r = -0.48, P less than 0.04). Nonenzymatic glycosylation of collagen was also increased with increased duration of diabetes (hex-lys, r = 0.47, P less than 0.02; hex-hyl, r = 0.39, P less than 0.05). We conclude that: (a) lysyl oxidase-dependent cross-linking is increased in skin collagen in diabetes and (b) that these changes in skin collagen are correlated with duration of diabetes, glycemic control, and long-term complications.
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PMID:Relationship between the content of lysyl oxidase-dependent cross-links in skin collagen, nonenzymatic glycosylation, and long-term complications in type I diabetes mellitus. 197 53

Serum monoamine oxidase, diamine oxidase and lysyl oxidase-like activity were measured in patients with granuloma annulare (GA), necrobiosis lipoidica (NL) and diabetes mellitus. In diabetes, all enzyme measurements were raised by a factor of about 2 X 2, and in NL by a factor of about 1 X 5. The rise in patients with GA was small and only significant in the case of benzylamine monoamine oxidase. "Stiff' collagen would seem to link these three disorders and the present results suggest that these amine oxidases could be useful in monitoring collagen abnormality in diabetes and diabetes-associated disorders, particularly in the absence of chronic liver disease. A negative correlation was found between enzyme activity and blood glucose levels, thus collagen changes in these conditions may occur independently of elevated blood glucose levels. Possible involvement of these enzymes in angiopathy remains to be elucidated.
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PMID:Increased activity of serum amine oxidases in granuloma annulare, necrobiosis lipoidica and diabetes. 288 24

In recent studies we have demonstrated a marked increase in albumin permeation of new vessels formed by angiogenesis (in subcutaneous tissue) in the diabetic milieu. Likewise, lysyl oxidase-mediated collagen cross-linking is markedly increased in the scar tissue associated with angiogenesis. The present studies were undertaken to determine whether sorbinil, a chemical inhibitor of aldose reductase that has been shown to prevent and reverse diabetic cataracts and neuropathy, also could prevent the vascular permeability and collagen cross-linking changes in this model. Vascular permeation by 125I-BSA, collagen cross-linking, and tissue levels of sorbitol, myo-inositol, and scyllo-inositol were assessed in male Sprague-Dawley rats 3 wk after injection of streptozocin and induction of angiogenesis and collagen synthesis in polyester fabric implanted subcutaneously. Sorbinil (approximately 25 mg/kg/day) added to the diet of diabetic rats reduced the diabetes-induced increases in albumin permeation by 80%, completely prevented diabetes-induced changes in tissue levels of sorbitol and myo-inositol, and markedly reduced diabetes-induced changes in tissue levels of scyllo-inositol. In contrast, sorbinil had no effect on plasma glucose levels or collagen solubility (an index of collagen cross-linking). These observations indicate that increased vascular permeability associated with diabetes is linked to imbalances in sorbitol/inositol metabolism. These findings also indicate that diabetes-induced increases in vascular permeability and in collagen cross-linking are independent phenomena and diabetes-induced increases in vascular permeability are largely preventable by treatment with an aldose reductase inhibitor in the face of high plasma glucose levels.
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PMID:Sorbinil prevents diabetes-induced increases in vascular permeability but does not alter collagen cross-linking. 400 87

Because high levels of dietary zinc are known to reduce copper body stores, the objective was to determine if a high zinc maternal diet could induce a copper deficiency in the newborn pig fed a dried skim milk--glucose--starch diet unsupplemented with copper. The offspring of gilts, which were fed 5000 ppm of zinc, were allowed to nurse until 3 to 5 days of age when they were weaned and placed in individual stainless-steel pens. The dietary treatments were 0, 5 and 10 ppm added copper from copper sulfate. After 14 days, pigs receiving the 0-ppm copper diet weighed significantly less (P less than 0.05) and had reduced hemoglobin, hematocrit and serum copper concentrations and no detectable ceruloplasmin activity. After 5 weeks, the pigs were killed, and tissues were collected. The unsupplemented group had 16.4% of the aortic lysyl oxidase activity of the 5-ppm group. Cytochrome c oxidase activity in the heart and liver, and copper stores in the heart, liver, pancreas and kidney were depressed (P less than 0.05) in unsupplemented pigs compared to those receiving 5 ppm copper. These data demonstrate that it is possible to produce quickly a markedly copper-deficient pig, by using the offspring of sows fed 5000 ppm zinc, and support previous conclusions that the dietary copper requirement of the baby pig is about 5 ppm.
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PMID:A copper deficiency in neonatal pigs induced by a high zinc maternal diet. 613 53

Glucose inhibits collagen fibril formation in vitro. A linear dose response was observed, with half-maximum inhibition of fibril formation occurring at 50 mM glucose. Nonfibrillar collagen cannot be cross-linked by lysyl oxidase, an enzyme that catalyzes the initial cross-linking reaction. The degree of decreased fibril formation correlated with the loss of ability of the collagen to serve as a substrate for lysyl oxidase. Collagen that is not cross-linked is unstable and more susceptible to collagenolytic attack. Interference with collagen cross-linking and more rapid degradation may explain the decreased amounts of interstitial collagen and the poor healing of wounds associated with diabetes mellitus.
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PMID:Inhibition of collagen fibril formation in vitro and subsequent cross-linking by glucose. 614 99

The effect of increasing glucose concentration on the solubility of newly synthesized collagen was studied in bovine retinal capillary pericyte (BRCP) cultures. Synchronized pericytes were labeled with [3H]-proline in media containing either 5, 10, 20 or 40 mM glucose, or 5 mM glucose and 100 micrograms/ml beta-aminopropionitrile fumarate (BAPN). The relative rate of collagen synthesis in the medium (soluble collagen) was significantly increased, and the rate in the cell layer (insoluble collagen) was decreased, by an elevated glucose concentration. The increase in collagen solubility with 20 and 40 mM glucose (over normal, 5 mM glucose) was 14 and 42%, respectively, of that obtained with BAPN. BAPN and 4-deoxypyridoxine inhibited BRCP lysyl oxidase activity, but elevated glucose concentrations did not. Increased nonenzymatic glycosylation of newly synthesized collagen was demonstrated in BRCP cultures co-labeled with L-[14C]-glucose and L-[3H]-proline. The increase in collagen solubility with elevated glucose concentrations therefore appears to be the result of the inhibition of lysyl-derived cross-link formation because of an increased nonenzymatic glycosylation of the epsilon-amino groups of lysyl residues of newly synthesized collagen in culture.
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PMID:Increased solubility of newly synthesized collagen in retinal capillary pericyte cultures by nonenzymatic glycosylation. 615 Nov 63

Tyrosine-rich acidic matrix protein (TRAMP) is a recently discovered protein that co-purifies with porcine skin lysyl oxidase and is equivalent to the M(r) 22,000 extracellular matrix protein from bovine skin that co-purifies with dermatan sulfate proteoglycans (Cronshaw, A. D., MacBeath, J. R. E., Shackleton, D. R., Collins, J. F., Fothergill-Gilmore, L. A., and Hulmes, D. J. S. (1993) Matrix 13, 255-266; Neame, P. J., Choi, H. U., and Rosenberg, L. C. (1989) J. Biol. Chem. 264, 5474-5479). The effect of TRAMP on collagen fibril formation was studied in vitro by reconstitution of fibrils from lathyritic rat skin collagen I. Fibril formation was initiated by the warm start procedure, in which acidic collagen solutions and double strength neutral buffer, both preincubated separately at 34 degrees C, were mixed. When monitored by turbidimetry, TRAMP was found to accelerate collagen fibril formation. Acceleration occurred at sub-stoichiometric molar ratios of TRAMP collagen, and the presence of TRAMP stabilized the fibrils against low temperature dissociation. It was confirmed by centrifugation that the amount of fibrillar collagen formed in the presence of TRAMP was greater than in its absence. By SDS-polyacrylamide gel electrophoresis and scanning densitometry, binding of TRAMP to collagen was detected that approached saturation with a molar ratio of TRAMP to collagen of approximately 1:2. Fibrils formed in the presence of TRAMP were normal when observed by electron microscopy, although fibril diameters were smaller than the controls. TRAMP was found to partially reverse the inhibitory effects of urea and increased ionic strength on the kinetics of fibril formation, although inhibition by glucose was unaffected. TRAMP also accelerated the assembly of pepsin-treated collagen, where the non-helical, telopeptide regions were partially removed. Acceleration of collagen fibril formation by TRAMP is discussed in the light of the known effects of other extracellular matrix components on this process.
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PMID:Tyrosine-rich acidic matrix protein (TRAMP) accelerates collagen fibril formation in vitro. 810 22

Inadequate dietary copper is known to result in undesirable metabolic changes in rats and humans. Abnormal cardiac function, leading to sudden death, is a common finding when copper deficient rats are fed a 62% fructose diet. To further study the apparent mineral-carbohydrate relationship to cardiac physiology, 3 male and 3 female swine were randomly assigned to four groups (6 pigs per group) which were fed low copper (1.5 ppm) or copper supplemented (40 ppm) diets with 20% of calories from either fructose or glucose for 10 weeks. In agreement with results from other animal studies, copper deficient swine exhibited decreased plasma ceruloplasmin, erythrocyte superoxide dismutase and plasma lysyl oxidase activities and lowered serum copper. The copper deficient fructose group had the lowest aortic lysyl oxidase activity and hematocrit when compared to the other groups. The relative heart weight in the copper deficient fructose group was 93% greater than the other three dietary groups. The livers of copper deficient fructose fed pigs were also significantly larger. Two enzymes related to cardiac and hepatic function, aspartate and alanine aminotransferase were also measured. Copper deficiency significantly lowered alanine aminotransferase but there was no dietary effect on aspartate amino-transferase. The results of this project indicate that the pig is a sensitive model for the study of cardiovascular abnormalities which occur when fructose is consumed with a low copper diet.
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PMID:Dietary copper, simple sugars, and metabolic changes in pigs. 1553 26

Four classes of agents capable of producing human illness have been identified: toxicity, heredity, infection and deficiency. The leading paradigm for the etiology and pathophysiology of ischemic heart disease in the 20th century was that of intoxication by too much of the wrong kind of dietary fat. This overemphasis on lipid metabolism persists because important data are neglected and because of inattention to details. For example, heart disease risk does not correlate with fat intake within nations in contrast to between nations. Also development of ischemic heart disease involves inter alia arterial spasm, cardiac rhythm, metabolism of connective tissue, glucose and homocysteine, plus paraoxonase activity and thrombus formation which generally are unaffected by dietary fat. Homocysteine thiolactone accumulates when homocysteine is high. This lactone specifically inhibits lysyl oxidase which depends on copper to catalyze cross linking of collagen and elastin in arteries and bone. The lactone is hydrolyzed by paraoxonase, activity of which can be decreased by copper deficiency. Just as cholesterol was an important focus for heart disease as intoxication, homocysteine can become an excellent focus for a paradigm shift to heart disease as deficiency because supplementation with several nutrients can alter homocysteine metabolism and decrease its plasma concentration. These supplements include betaine, copper, folate, pyridoxine and vitamin B-12. Opportunities for research on ischemic heart disease as deficiency disease are plentiful.
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PMID:Ischemic heart disease as deficiency disease. 1570 51

The primary functional role of collagen is as a supporting tissue and it is now established that the aggregated forms of the collagen monomers are stabilised to provide mechanical strength by a series of intermolecular cross-links. In order to understand the mechanical properties of collagen, it is necessary to identify and quantitatively determine the concentration of the cross-links during their changes with maturation, ageing and disease. These cross-links are formed by oxidative deamination of the epsilon-amino group of the single lysine or hydroxylysine in the amino and carboxy telopeptides of collagen by lysyl oxidase, the aldehyde formed reacting with a specific lysine or hydroxylysine in the triple helix. The divalent Schiff base and keto-amine bonds so formed link the molecules head to tail and spontaneously convert during maturation to trivalent cross-links, a histidine derivative and cyclic pyridinolines and pyrroles, respectively. These latter bonds are believed to be transverse inter-fibrillar cross-links, and are tissue rather than species specific. We describe the determination of these cross-links in detail.Elastin is also stabilised by cross-linking based on oxidative deamination of most of its lysine residues to yield tetravalent cross-links, desmosine and iso-desmosine, the determination of which is also described.A second cross-linking pathway occurs during ageing (and to a greater extent in diabetes mellitus) involving reaction with tissue glucose. The initial product glucitol-lysine can be determined as furosine and pyridosine, and determination of advanced glycation end-products believed to be cross-links, such as pentosidine, are also described.
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PMID:quantitative determination of collagen cross-links. 1924 1

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