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

Cultured fibroblasts of 13 patients with the Menkes syndrome and two with a new subtype (type IX) of the Ehlers-Danlos syndrome (E-D IX patients) showed many very similar abnormalities in their copper and collagen metabolism. Both cell types had markedly increased copper concentrations and 64Cu incorporation, and this cation accumulated in metallothionein or a metallothionein-like protein, as previously established for Menkes cells. Histochemical staining indicated that copper was distributed diffusely throughout the cytoplasm in both cell types, this location being consistent with the accumulation in metallothionein. Both fibroblast types also had markedly low lysyl oxidase activity and distinctly increased extractability of newly synthesized collagen, whereas no abnormalities were present in cell viability, duplication rate, prolyl 4-hydroxylase activity, or collagen synthesis rate. A high negative correlation (P less than 0.001) was found in the pooled group of Menkes and E-D IX cells between cellular copper concentration (r = 0.804) or 64Cu incorporation (r = 0.863) and the logarithm of lysyl oxidase activity. There was also a high positive correlation (P less than 0.001) between cellular copper concentration and incorporation (r = 0.869). One of the two E-D IX patients was also shown to have similar changes in lysyl oxidase activity and collagen extractability in the skin biopsy specimen, suggesting that the abnormalities observed in cultured cells are similar to those present in vivo. The only distinct abnormality found in the cells of the parents of the E-D IX patients was an increased 64Cu incorporation in those of the mother, this finding being consistent with X-linked inheritance of the disorder.
 ...
PMID:Alterations in copper and collagen metabolism in the Menkes syndrome and a new subtype of the Ehlers-Danlos syndrome. 614 Sep 52

Comparisons were made between morphologic and biochemical changes occurring in the lungs of rats receiving a single exposure or repeated 2-h exposures of aerosolized 0.1% cadmium chloride, simulating varied exposure conditions potentially experienced by humans. Lung lysyl oxidase activity increases in both models, although less so with repeated exposures. Pulsing lung tissue in vitro with 3H-proline indicated that rates of collagen biosynthesis were elevated preferentially over rates of noncollagen protein synthesis in both exposure models. Lung metallothionein increased nearly linearly over 21 days of repeated exposure. Histologic examination revealed scarred lesions distorting alveolar structure and bronchioles in both models. However, scarring and cell exudation into the airways and interstitium was less in the repeatedly exposed model. The results indicate the activation of a connective tissue repair reaction in both models. Increased levels of metallothionein after repeated exposure may both sequester cadmium and reduce pools of copper available for lysyl oxidase synthesis, thus limiting the fibrotic response.
 ...
PMID:Alterations in collagen biosynthesis and in metallothionein in lungs of rats acutely or repeatedly exposed to cadmium chloride aerosol. 614 24

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)
 ...
PMID:Elastin: relation of protein and gene structure to disease. 615 Jan 37

Rheumatoid arthritis can be divided into two syndromes, one a potassium deficiency, the other an inappropriate copper requirement seriously affecting the elastin tissues through reduced lysyl oxidase cross linking. The malfunction in copper may arise from the steroids which regulate potassium, which reduces those steroids, and through that, increases the copper response to the needs of the immune system. It is a mechanism which may have evolved to help fight potassium wasting infections.
 ...
PMID:Copper response to rheumatoid arthritis. 615 6

Elastic fibers are important for elasticity and extensibility of lung tissue. In the developing lung, elastic fibers appear in greatest numbers during the process or period of alveolarization . A variety of mesenchymal cells in lung appear responsible for elastin synthesis. Elastin is a novel protein both from the standpoint of its processing into elastic fibers and chemical properties. For example, elastin undergoes posttranslational modification before its assembly into fibers. These steps include limited proteolysis, hydroxylation of prolyl residues and the oxidative deamination of lysyl residues prior to their incorporation into the crosslinks that covalently bond together polypeptide chains of elastin. The crosslinking amino acids include lysinonorleucine , merodesmosine and desmosine isomers. A key enzyme that controls this process is lysyl oxidase. Lysyl oxidase is a copper metalloprotein whose activity is responsive to and modulated by environmental insults, nutrition deficiencies and the administration of various pharmacological agents. Regarding chemical properties, elastin is one of the most apolar proteins secreted by mammalian cells. Moreover, elastin is one of the most long-lived proteins secreted into the extracellular matrix. In relationship to its processing into elastic fibers and chemical properties, details related to major aspects of elastin metabolism as well as speculation on its potential as a factor in lung development and disease are discussed.
 ...
PMID:Elastin metabolism and chemistry: potential roles in lung development and structure. 637 98

Of 8 Thoroughbred foals in which osteochondrosis developed before weaning, 7 had serum copper and ceruloplasmin concentrations below normal. Three foals on one farm had serum zinc content high enough to suggest zinc toxicosis, and the liver of each foal contained abnormally high content of zinc. Four foals from the second farm had extremely low serum copper content, but normal serum zinc content. Evidence of environmental exposure to excess zinc was not found on either farm. The lesions in the zones of endochondral ossification of the afflicted foals were similar in many respects to those found in other species of animals with molybdenum-induced copper deficiency and with inhibition of the function of copper-dependent lysyl oxidase by beta-aminopropionitrile, a toxic component of Lathyrus odoratus known to cause osteolathyrism.
 ...
PMID:Considerations of copper metabolism in osteochondrosis of suckling foals. 674 86

We measured blood copper-containing proteins and plasma total copper in 15 patients with homocystinuria (14 with cystathionine beta-synthase deficiency and one with abnormal cobalamin metabolism), in 13 heterozygotes for cystathionine beta-synthase deficiency, and in 44 normal subjects. Plasma total copper was increased in patients with cystathionine beta-synthase deficiency compared with age- and sex-matched controls; the ratio was 1.41 +/- 0.14 for females and 1.39 +/- 0.15 for males (means +/- SD). This was due to corresponding increases in caeruloplasmin concentrations, but levels were unrelated to total plasma homocysteine. Erythrocyte superoxide dismutase levels were normal. The heterozygotes had normal plasma copper and caeruloplasmin levels. The increased copper and caeruloplasmin may contribute to the precocious atherogenesis occurring in homocystinuria by decreasing the adhesion of vascular endothelial cells to the intima. It is unlikely that decreased lysyl oxidase activity due to chelation of copper by homocysteine is important for the pathogenesis of the connective tissue defect in homocystinuria.
 ...
PMID:Increased plasma copper in patients with homocystinuria due to cystathionine beta-synthase deficiency. 682 4

Exposure of Xenopus laevis tadpoles to thiosemicarbazide (TSC), at concentrations from 10 to 75 mg/liter, causes an inhibition of metamorphosis and produces the classic manifestations of the experimental disease, osteolathyrism. Concentration-dependent effects of TSC exposure are observed in growth rate and in the severity of the osteolathyrogenic effect. Concentrations allowing the most rapid growth produce the more extreme osteolathyrogenic defects. Osteolathyrism in these animals is identical in characteristics to the condition described in a wide variety of vertebrate species. In Xenopus, osteolathyrism is expressed morphologically as anomalies in bone development, skeletal conformation, and abnormal connective tissue organization in the aorta wall. The underlying defect responsible for these observations is apparently a perturbation of collagen fiber formation and maturation, as evidenced ultrastructurally by aberrant distribution and packing of collagen fibers. It is suspected that TSC produces this effect by altering the availability of copper ion, a cofactor to lysyl oxidase, an essential enzyme for intermolecular cross-linking of procollagen. This step in collagen metabolism has been consistently implicated as the site of action of several osteolathyrogenic agents. Xenopus tadpoles present a classic response to this known osteolathyrogen and demonstrate a high degree of uniformity of response within the experimental groups. In view of the developmentally significant events accessible with this system and inherent logistic and economical advantages, the metamorphosing tadpole of Xenopus holds considerable potential for the experimental analysis of teratogenic agents and events.
 ...
PMID:Thiosemicarbazide-induced osteolathyrism in metamorphosing Xenopus laevis. 684 58

A spontaneously aneurysm-prone mouse has a mutation on the X chromosome, which results in an abnormality of copper metabolism. A deficiency of the copper metalloenzyme, lysyl oxidase, results in a deficiency of lysyl-derived cross-linkages in collagen and elastin. Homology of the X chromosome suggests that this model may be relevant to the human abdominal aortic aneurysm (AAA). The present studies on skin from eight AAA patients suggest that copper deficiency occurs in humans, by comparison to skin of paired control subjects with atherosclerotic occlusive disease of the aorta. The lysyl-derived cross-linkage pyridinoline (or some compound with similar ion exchange elution characteristics) is also deficient in patients with AAA; while there is an excess of one of the cross-linkage precursors, hydroxylysine. In addition, the fluorescent properties of hydrolysates of skin from the patients with AAA differ from those of the controls, suggesting that simple biochemical markers might be defined on the basis of these differences in the future. These experiments support the hypothesis that the mouse model is relevant to the disease as it occurs in humans.
 ...
PMID:Deficiencies of copper and a compound with ion-exchange characteristics of pyridinoline in skin from patients with abdominal aortic aneurysms. 687 35

Soluble fractions from chick liver and aorta were examined for copper-binding proteins. In liver a zinc-binding thionein appeared to be the major binding protein for copper. Aortic tissue contained only traces of this thionein protein. Unlike liver, moderate amounts of soluble copper in aorta showed no association with macromolecules. Chicks fed on copper-deficient diets for 8 days had one-third the liver copper concentrations of controls. Aortic copper concentration was decreased only slightly, but the activity of lysyl oxidase, a copper-dependent enzyme in aorta, was decreased significantly. Treating the deficient chicks with CuSO4 (1 mg/kg) restored liver copper rapidly. The increase correlated with the binding of copper to a 10 000-mol.wt. component in the soluble fraction. Aortic copper concentrations responded much less to the CuSO4 treatment, but lysyl oxidase activity was again measurable in the tissue. Radioactive isotopes of copper bound almost exclusively to the 10 000-mol.wt. component in liver and to components of mol.wt. 30 000 or above in aorta. Hardly any of the administered radioactivity appeared with the 10 000-mol.wt. components in aorta, and none was found with unbound copper. The 30 000-mol.wt. components in aorta showed superoxide dismutase activity that was sensitive to NaCN. They also showed the highest specific activity of copper of any other aorta component. A clear distinction was seen between the metabolism of copper in liver and aortic tissues. Whereas a copper thionein, metallothionein, was a major component in the liver pathway, it is doubtful that this protein plays a major role in the intracellular metabolism of copper in aortic tissue.
 ...
PMID:Comparison of pathways of copper metabolism in aorta and liver. A functional test of metallothionein. 711 49


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>