Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:1.4.3.13 (
lysyl oxidase
)
1,248
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The spectral and catalytic properties of the copper cofactor in highly purified bovine aortic
lysyl oxidase
have been examined. As isolated, various preparations of purified
lysyl oxidase
are associated with 5-9 loosely bound copper atoms per molecule of enzyme which are removed by dialysis against EDTA. The enzyme also contains 0.99 +/- 0.10 g atom of tightly bound copper per 32-kDa monomer which is not removed by this treatment. The copper-free apoenzyme, prepared by dialysis of
lysyl oxidase
against alpha,alpha'-dipyridyl in 6 M urea, catalyzed neither the oxidative turnover of amine substrates nor the anaerobic production of aldehyde at levels stoichiometric with enzyme active site content, thus contrasting with the ping pong metalloenzyme. Moreover, the spectrum of the apoenzyme was not measurably perturbed upon anaerobic incubation with n-butylamine, while difference absorption bands were generated at 250 and 308 nm in the spectrum of the metalloenzyme incubated under the same conditions. A difference absorption band also developed at 300-310 nm upon anaerobic incubation of pyrroloquinoline quinone, the putative carbonyl cofactor of
lysyl oxidase
, with n-butylamine. Full restoration of catalytic activity occurred upon the reconstitution of the apoenzyme with 1 g atom of copper/32-kDa monomer, whereas identical treatment of the apoenzyme with divalent salts of zinc, cobalt,
iron
, mercury, magnesium, or cadmium failed to restore catalytic activity. The EPR spectrum of copper in
lysyl oxidase
is typical of the tetragonally distorted, octahedrally coordinated Cu(II) sites observed in other amine oxidases and indicates coordination by at least three nitrogen ligands. The single copper atom in the
lysyl oxidase
monomer is thus essential at least for the catalytic and possibly for the structural integrity of this protein.
...
PMID:Structural and catalytic properties of copper in lysyl oxidase. 197 46
Copper is required in trace amounts for many body functions. The prominent effects of Cu deficiency or Cu toxicosis differs greatly between animal species. Along with
iron
, Cu is necessary for the transfer of O2 via a cascade of enzymes so that energy may be available for vital body functions without overheating of the tissues through rapid oxidation. As a part of
lysyl oxidase
, Cu has an obligate function in the maturation of all connective tissue (including elastic tissue and bone) maintaining the form and integrity of all body organs. As a constituent of tyrosinase, Cu is involved in the formation of melanin, thus preventing albinism. Copper also is involved in the myelination of nerve fibers and the production of neutrophils, enkephalins, lipoproteins, and cholesterol. Copper must be properly sequestered to prevent toxicosis. Copper is stored primarily as metallothioneins and as superoxide dismutase and is transported primarily as ceruloplasmin or as low molecular weight proteins, peptides, and amino acids.
...
PMID:Comparative metabolism of copper. 355 17
Hair samples were collected from 74 patients with idiopathic adolescent scoliosis and from 25 control children and were analyzed for content of the following minerals: copper, sodium,
iron
, zinc, potassium, magnesium, cadmium, calcium, and manganese. The hair copper level of the scoliotic children was significantly higher than that of the controls. The scoliosis mean was 6.5 micrograms/dl and the control mean was 3.6 micrograms/dl, P less than 0.025. There was no correlation between the amount of hair copper and the severity of the scoliosis. The authors suggest that copper may be a factor in the development of scoliosis since it is part of the
lysyl oxidase
enzymes that are required for cross-linking of collagen and elastin. Another connection is that postpubertal girls have higher copper levels than boys and also have a greater severity of scoliosis.
...
PMID:Elevated hair copper level in idiopathic scoliosis: preliminary observations. 739 62
Iron
and copper are essential nutrients, excesses or deficiencies of which cause impaired cellular functions and eventually cell death. The metabolic fates of copper and
iron
are intimately related. Systemic copper deficiency generates cellular iron deficiency, which in humans results in diminished work capacity, reduced intellectual capacity, diminished growth, alterations in bone mineralization, and diminished immune response. Copper is required for the function of over 30 proteins, including superoxide dismutase, ceruloplasmin,
lysyl oxidase
, cytochrome c oxidase, tyrosinase and dopamine-beta-hydroxylase.
Iron
is similarly required in numerous essential proteins, such as the heme-containing proteins, electron transport chain and microsomal electron transport proteins, and
iron
-sulfur proteins and enzymes such as ribonucleotide reductase, prolyl hydroxylase phenylalanine hydroxylase, tyrosine hydroxylase and aconitase. The essentiality of
iron
and copper resides in their capacity to participate in one-electron exchange reactions. However, the same property that makes them essential also generates free radicals that can be seriously deleterious to cells. Thus, these seemingly paradoxical properties of
iron
and copper demand a concerted regulation of cellular copper and
iron
levels. Here we review the most salient characteristics of their homeostasis.
...
PMID:Iron and copper metabolism. 1611 86
Nutrients have been known to have a significant role in maintaining the health of the skeleton, both bone and cartilage. The nutrients that have received the majority of the attention are Vitamin D and calcium. However, limited attention has been directed toward three trace elements that may have mechanistic impact upon the skeletal tissues and could compromise skeletal health resulting from inadequate intakes of copper,
iron
, and selenium. The role of copper and selenium has been known, but the role of
iron
has only received recent attention. Copper deficiency is thought to impact bone health by a decrease in
lysyl oxidase
, a copper-containing enzyme, which facilitates collagen fibril crosslinking. Iron deficiency impact upon bone has only recently been discovered but the exact mechanism on how the deficient states enhance bone pathology is speculative. Selenium deficiency has an impact on cartilage thereby having an indirect impact on bone. However, several studies suggest that a mycotoxin when consumed by humans is the culprit in some cartilage disorders and the presence of selenium could attenuate the pathology. This review summarizes the current knowledge base with respect to skeletal integrity when each of these three trace elements are inadequate in diets of both animals and humans.
...
PMID:Copper, iron, and selenium dietary deficiencies negatively impact skeletal integrity: A review. 2719 Feb 69
Maintenance of the correct redox status of
iron
is functionally important for critical biological processes. Multicopper ferroxidases play an important role in oxidizing ferrous
iron
, released from the cells, into ferric
iron
, which is subsequently distributed by transferrin. Two well-characterized ferroxidases, ceruloplasmin (CP) and hephaestin (HEPH) facilitate this reaction in different tissues. Recently, a novel ferroxidase, Hephaestin like 1 (HEPHL1), also known as zyklopen, was identified. Here we report a child with compound heterozygous mutations in HEPHL1 (NM_001098672) who presented with abnormal hair (pili torti and trichorrhexis nodosa) and cognitive dysfunction. The maternal missense mutation affected mRNA splicing, leading to skipping of exon 5 and causing an in-frame deletion of 85 amino acids (c.809_1063del; p.Leu271_ala355del). The paternal mutation (c.3176T>C; p.Met1059Thr) changed a highly conserved methionine that is part of a typical type I copper binding site in HEPHL1. We demonstrated that HEPHL1 has ferroxidase activity and that the patient's two mutations exhibited loss of this ferroxidase activity. Consistent with these findings, the patient's fibroblasts accumulated intracellular
iron
and exhibited reduced activity of the copper-dependent enzyme,
lysyl oxidase
. These results suggest that the patient's biallelic variants are loss-of-function mutations. Hence, we generated a Hephl1 knockout mouse model that was viable and had curly whiskers, consistent with the hair phenotype in our patient. These results enhance our understanding of the function of HEPHL1 and implicate altered ferroxidase activity in hair growth and hair disorders.
...
PMID:Biallelic HEPHL1 variants impair ferroxidase activity and cause an abnormal hair phenotype. 3112 43
