EC:1.4.3.13 - FACTA Search

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)

Lysyl oxidase the enzyme which oxidately deaminates lysine residues in collagen and elastin, was purified from embryonic chick cartialge by employing an affinity column of lathyritic rat skin collagen coupled to Sepharose, followed by separation on DEAE-cellulose. An enzyme preparation was obtained which was pure as shown by polyacrylamide gel electrophoresis. The specific activity was 1800-fold higher than that of the original extract. The pure enzyme utilized both collagen and elastin substrate. Furthermore, the ratios of enzyme activity with elastin substrate versus that with collagen substrate were the same at all stages of purity. Only one protein band was found after polyacrylamide gel electrophoresis of the pure lysyl oxidase in sodium dodecyl sulfate and mercaptoethanol. The molecular weight was estimated to be 28000. It was found that the enzyme contained a large number of cysteine and tyrosine residues. Evidence was obtained for molecular heterogeneity of lysyl oxidase. The enzyme eluted from DEAE-cellulsoe in at least four distinct regions. When the peaks were rechromatographed separately, they eluted at salt concentrations similar to those of the original chromatogram. However, the substrate specificity and the electrophoretic mobility on polyacrylamide gel were the same for all enzyme fractions.
...
PMID:Properties of highly purified lysyl oxidase from embryonic chick cartilage. 0 18

Incubation of purified bovine aortic lysyl oxidase with rat liver or calf thymus H1 histone results in the catalytic formation of hydrogen peroxide, indicating the substrate potential of H1 for this connective tissue enzyme. Sodium borotritide-reducible residues consistent with aminoadipic semialdehyde and the lysinonorleucine crosslinkage were generated in H1 by incubation with lysyl oxidase. H1 histone also contains endogenous reducible functions including an unidentified prominent tritiated peak eluting near tyrosine as well as other lesser peaks, one of which is consistent with lysinonorleucine.
...
PMID:Histone H1 is a substrate for lysyl oxidase and contains endogenous sodium borotritide-reducible residues. 613 17

Lysyl oxidase initiates the covalent cross-linking of elastin and collagen by oxidizing lysine residues in these proteins to alpha-aminoadipic-delta-semialdehyde. Sequences surrounding susceptible lysines in elastin are considerably different from those in collagen and yet the same enzyme can oxidize both substrates. Possible bases of the specificity have been explored assaying for H2O2 release accompanying the oxidation of synthetic peptide and protein substrates. Rates of oxidation of random co-polymers were maximal with (Ala,Lys)n and decreased in the order (Val,Lys)n greater than (Leu,Lys)n greater than (Lys)n greater than (Phe,Lys)n greater than (Tyr,Lys)n. The ordered polymer (Ala-Lys-Glu)n was oxidized at only 3% of the rate of (Ala,Lys)n, implying inhibition by peptidyl glutamate. Consistent with this conclusion, kinetic analyses using ordered oligopeptides revealed that, relative to Ala-Ala-Lys-Ala-Ala, Km is increased 9.3-fold for lysine in Ala-Ala-Lys-Glu-Ala-Ala, 2.5-fold in Ala-Ala-Lys-Arg-Ala-Ala, and 1.8-fold in Ala-Ala-Glu-Lys-Ala-Ala. Tyrosine C-terminal to lysine in such peptides also increases Km 5-fold. In addition, lysyl oxidase oxidized lysine in various proteins with basic isoelectric points and was much less or not active against various acidic proteins. Lysyl oxidase was inactive against native bovine serum albumin but effectively oxidized albumin if albumin carboxyl functions were first amidated by chemical modification. These results suggest that peptides bind to lysyl oxidase in a preferred directional sense and indicate-that net anionic character as well as the specific position of anionic residues in substrates can selectively effect substrate potential. Implications of these results for the oxidation of elastin and collagen are discussed.
...
PMID:Influence of sequence and charge on the specificity of lysyl oxidase toward protein and synthetic peptide substrates. 614 51

Tyrosine-rich acidic matrix protein (TRAMP; 22 kDa extracellular matrix protein; dermatopontin) is a protein that co-purifies with lysyl oxidase and with dermatan sulphate proteoglycans, with possible functions in cell-matrix interactions and matrix assembly. Using a rabbit polyclonal antiserum raised against porcine TRAMP, which cross-reacts with both the human and murine forms of the protein, we show by immunoblotting that TRAMP has a widespread tissue distribution, including skin, skeletal muscle, heart, lung, kidney, cartilage and bone. In cultures of human skin fibroblasts, TRAMP incorporates both [35S]sulphate and [3H]tyrosine and is secreted into the medium, as shown by immunoprecipitation. Amino acid analysis of immunoprecipitated TRAMP demonstrates that many of the tyrosine residues in TRAMP are sulphated.
...
PMID:Tyrosine-rich acidic matrix protein (TRAMP) is a tyrosine-sulphated and widely distributed protein of the extracellular matrix. 808 10

A protein (M(r)24 K) that co-purifies with porcine skin lysyl oxidase (M(r)34 K) has been isolated and characterised. Five variants of the 24 K protein were identified by Mono Q ion-exchange FPLC, as were four variants of lysyl oxidase. Amino acid analysis and partial sequencing revealed near identity of a 36-residue CNBr peptide from porcine skin lysyl oxidase to corresponding regions of the putative lysyl oxidase precursor derived from rat and human cDNA. The 24 K protein was found to be unrelated to lysyl oxidase, but comparison with a protein sequence database showed it to be the same as a recently described protein from bovine skin that is associated with dermatan sulphate proteoglycans. The 24 K protein is relatively rich in tyrosine, and isoelectric focussing shows it to be acidic, with pI's in the range 4.1 to 4.4. In view of these properties, we propose the name TRAMP (Tyrosine Rich Acidic Matrix Protein) to identify this protein. Though TRAMP appears not to be glycosylated, several experiments indicate the presence of sulphotyrosine residues. When assayed using an elastin substrate, the activity of lysyl oxidase is unaffected by TRAMP.
...
PMID:TRAMP (tyrosine rich acidic matrix protein), a protein that co-purifies with lysyl oxidase from porcine skin. Identification of TRAMP as the dermatan sulphate proteoglycan-associated 22K extracellular matrix protein. 810 Sep 85

The relationship between the soluble copper topaquinone amine oxidases, the membrane bound semicarbazide-sensitive amine oxidases and lysyl oxidase remains unclear. The stereochemical course of substrate oxidation has been determined for each enzyme type and these studies suggest that SSAO and lysyl oxidase are closely related mechanistically, and that they are distinct from the copper amine oxidases. Both lysyl oxidase and SSAO catalyze the oxidation of tyramine with removal of the pro-S hydrogen from C-1 of this substrate. The copper amine oxidase enzymes that react with abstraction of the pro-S hydrogen from C-1 of substrates do not exhibit a solvent exchange pathway. In contrast, this exchange occurs in lysyl oxidase and SSAO reactions. The organic cofactor in all three enzyme types is a quinone; however, the spectral features of phenylhydrazine and p-nitrophenylhydrazine-derivatized SSAO differ from those reported for all known topaquinone-containing enzymes. Cofactor identification is further complicated by the lack of the characteristic topa motif, Asn-Tyr-Asp/Glu, in lysyl oxidase and the absence of any sequence information for SSAO.
...
PMID:Stereochemistry and cofactor identity status of semicarbazide-sensitive amine oxidases. 858 72

Lysyl oxidase is secreted from fibrogenic cells as a 50-kDa proenzyme that is proteolytically processed to the mature enzyme in the extracellular space. To characterize the secreted proteinase activity, a truncated, recombinant form of lysyl oxidase was prepared as a proteinase substrate containing the sequence of the propeptide cleavage region. The processing proteinase activity secreted by cultured fibrogenic cells resists inhibitors of serine or aspartyl proteinases as well as tissue inhibitor of matrix metalloproteinases-2 (MMP-2) but is completely inhibited by metal ion chelators. Known metalloproteinases were tested for their activity toward this substrate. Carboxyl-terminal procollagen proteinase (C-proteinase), MMP-2, and conditioned fibrogenic cell culture medium cleave the lysyl oxidase substrate to the size of the mature enzyme. The NH2-terminal sequence generated by arterial smooth muscle conditioned medium and the C-proteinase but not by MMP-2, i.e. Asp-Asp-Pro-Tyr, was identical to that previously identified in mature lysyl oxidase isolated from connective tissue. The C-proteinase activity against the model substrate was inhibited by a synthetic oligopeptide mimic of the cleavage sequence (Ac-Met-Val-Gly-Asp-Asp-Pro-Tyr-Asn-amide), whereas this peptide also inhibited the generation of lysyl oxidase activity in the medium of fetal rat lung fibroblasts in culture. In toto, these results identify a secreted metalloproteinase activity participating in the activation of prolysyl oxidase, identify inhibitors of the processing activity, and implicate procollagen C-proteinase in this role.
...
PMID:Metalloproteinase activity secreted by fibrogenic cells in the processing of prolysyl oxidase. Potential role of procollagen C-proteinase. 863 46

Protein-lysine 6-oxidase (lysyl oxidase) is a cuproenzyme that is essential for stabilization of extracellular matrixes, specifically the enzymatic cross-linking of collagen and elastin. A hypothesis is proposed that links dietary copper levels to dynamic and proportional changes in lysyl oxidase activity in connective tissue. Although nutritional copper status does not influence the accumulation of lysyl oxidase as protein or lysyl oxidase steady state messenger RNA concentrations, the direct influence of dietary copper on the functional activity of lysyl oxidase is clear. The hypothesis is based on the possibility that copper efflux and lysyl oxidase secretion from cells may share a common pathway. The change in functional activity is most likely the result of posttranslational processing of lysyl oxidase. Copper is essential for organic cofactor formation in amine oxidases such as lysyl oxidase. Copper-containing amine oxidases have peptidyl 2,4,5 tri(oxo)phenylalanine (TOPA) at their active centers. TOPA is formed by copper-catalyzed oxidation of tyrosine, which takes place as part of Golgi or trans-Golgi processing. For lysyl oxidase, recent evidence (Science 1996;273:1078-84) indicates that as an additional step, a lysyl group at the active center of lysyl oxidase reacts with TOPA or its precursor to form lysyl tyrosylquinone.
...
PMID:Copper, lysyl oxidase, and extracellular matrix protein cross-linking. 958 42

The structure of a new biological redox cofactor-topaquinone (TPQ), the quinone of 2,4,5-trihydroxyphenylalanine-was elucidated in 1990. TPQ is the cofactor in most copper-containing amine oxidases. It is produced by post-translational modification of a strictly conserved active-site tyrosine residue. Recent work has established that TPQ biogenesis proceeds via a novel self-processing pathway requiring only the protein, copper, and molecular oxygen. The oxidation of tyrosine to TPQ by dioxygen is a six-electron process, which has intriguing mechanistic implications because copper is a one-electron redox agent, and dioxygen can function as either a two-electron or four-electron oxidant. This review adopts an historical perspective in discussing the structure and reactivity of TPQ in amine oxidases, and then assesses what is currently understood about the mechanism of the oxidation of tyrosine to produce TPQ. Aspects of the structures and chemistry of related cofactors, such as the Tyr-Cys radical in galactose oxidase and the lysine tyrosylquinone of lysyl oxidase, are also discussed.
...
PMID:Structure and biogenesis of topaquinone and related cofactors. 1049 97

O-quinone cofactors derived from tyrosine and tryptophan are involved in novel biological reactions that range from oxidative deaminations to free-radical redox reactions. The formation of each of these cofactors appears to involve post-translational modifications of either tyrosine or tryptophan residues. The modifications result in cofactors, such as topaquinone (TPQ), tryptophan tryptophylquinone (TTQ), lysine tyrosylquinone (LTQ) or the copper-complexed cysteinyl-tyrosyl radical from metal-catalyzed reactions. Pyrroloquinoline quinone (PQQ) appears to be formed from the annulation of peptidyl glutamic acid and tyrosine residues stemming from their modification as components of a precursor peptide substrate. PQQ, a primary focus of this review, has invoked considerable interest because of its presence in foods, antioxidant properties and role as a growth-promoting factor. Although no enzymes in animals have been identified that exclusively utilize PQQ, oral supplementation of PQQ in nanomolar amounts increases the responsiveness of B- and T-cells to mitogens and improves neurologic function and reproductive outcome in rodents. Regarding TPQ and LTQ, a case may be made that the formation of TPQ and LTQ is also influenced by nutritional status, specifically dietary copper. For at least one of the amine oxidases, lysyl oxidase, enzymatic activity correlates directly with copper intake. TPQ and LTQ are generated following the incorporation of copper by a process that involves the two-step oxidation of a specified tyrosyl residue to first peptidyl dopa and then peptidyl topaquinone to generate active enzymes, generally classed as "quinoenzymes." Limited attention is also paid to TTQ and the copper-complexed cysteinyl-tyrosyl radical, cofactors important to fungal and bacterial redox processes.
...
PMID:Physiological importance of quinoenzymes and the O-quinone family of cofactors. 1073 20

1 2 3 Next >>