Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Lysyl oxidase, which cross-links collagen and elastin, was obtained from chick embryo bone and cartilage and its substrate, elastin, from aorta. The enzyme was studied using an improved assay which enabled the stability of the substrate to be monitored. The enzyme was fully inhibited in vivo by beta-aminopropionitrile, semicarbazide, thiosemicarbazide and isoniazid and in vitro by beta-aminopropionitrile and semicarbazide but only partially by thiosemicarbazide and isoniazid. Penicillamine, which solubilizes collagen by labilizing Schiff base cross-links in vivo and which prevents stable cross-link formation in vitro indirectly by binding to aldehyde groups on collagen, was shown to have no direct inhibitory effect on lysyl oxidase in vivo or in vitro. Homocysteine, which also solubilizes collagen by a mechanism similar to penicillamine does not inhibit lysyl oxidase either in vivo or in vitro. Pyridoxal reversed the inhibition of lysyl oxidase by semicarbazide and isoniazid in vivo but was unable to reverse that produced by either beta-aminopropionitrile or thiosemicarbazide. These results can be explained by the presence of a sulphydryl group near the active site of lysyl oxidase, which can form a complex with the nitrile group on beta-aminopropionitrile or with the thiol group on thiosemicarbazide leading to irreversible inhibition.
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PMID:Inhibition of chick embryo lysyl oxidase by various lathyrogens and the antagonistic effect of pyridoxal. 135 70

Based on the present definition of osteoporosis, both bone density and quality are important factors in the determination of bone strength. Collagen crosslinking is a determinant of bone quality. Cross-links can form enzymatically by the action of lysyl oxidase or non-enzymatically, resulting in advanced glycation end products. Collagen crosslinking is affected by tissue maturation as well as the degree of mineralization. Homocysteine and vitamin B6 (pyridoxal) are also regulatory factors of collagen crosslinking. We elucidate the relationship between the degree of mineralization and collagen cross-links in cancellous bone from hip fracture cases. We also determined plasma levels of homocysteine and pyridoxal. Twenty-five female intracapsular hip fracture cases (78 +/- 6 years) and 25 age-matched postmortem controls (77 +/- 6 years) were included in this study. Collagen crosslinking was analyzed after each bone specimen was fractionated into low (1.7-2.0 g/ml) and high (>2.0 g/ml) density fractions. The content of enzymatic (immature reducible and mature nonreducible cross-links) and nonenzymatic cross-link (pentosidine) were determined. In the controls, there was no difference in total enzymatic cross-links between low and high density bone, while pentosidine content was significantly higher in high density bone. In the fracture cases, not only reduced enzymatic cross-links in high density bone and increased pentosidine in both low and high density bone, but also higher plasma homocysteine and lower pyridoxal levels were evident compared with the controls. These results indicate that detrimental crosslinking in both low and high mineralized bone result in impaired bone quality in osteoporotic patients.
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PMID:Degree of mineralization-related collagen crosslinking in the femoral neck cancellous bone in cases of hip fracture and controls. 1696 91

Impaired bone quality has been proposed as a cause of increased bone fragility in osteoporosis. Collagen crosslinking is a candidate for determining the material properties of bone. Collagen cross-links are of two types; lysyl oxidase (LOX) and lysyl hydroxylase (PLOD1; LH1, PLOD2; LH2b) controlled cross-links, and advanced glycation end products, pentosidine. Homocysteine and vitamin B(6) (pyridoxal) are also regulatory factors of collagen crosslinking. Recently, we reported that in the femoral neck fracture cases, not only reduced enzymatic cross-links in old osteon and increased pentosidine in both young and old osteons from cortical and cancellous bone, but also higher plasma homocysteine and lower pyridoxal levels were evident compared with the controls (Osteoporos Int 2006. Calcif Tissue Int, 2006). In this review, we describe that mildly hyperhomocysteinemia, and vitamin B(6) or vitamin D insufficiency are crucial determinants of detrimental crosslinking of bone collagen in patients with hip fracture.
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PMID:[Elevated plasma concentration of homocysteine, low level of vitamin B6, pyridoxal, and vitamin D insufficiency in patients with hip fracture: a possible explanation for detrimental cross-link pattern in bone collagen]. 1714 27

Homocysteine (Hcy) is a derived sulfur-containing and non-proteinogenic amino acid. The metabolism of Hcy occurs either through the remethylation to methionine or transsulfuration to cysteine. Studies have identified hyperhomocysteinemia (HHcy) as one of the possible risk factors for a multitude of diseases including vascular, neurodegenerative and ocular diseases. Association of HHcy with eye diseases such as retinopathy, pseudoexfoliative glaucoma maculopathy, cataract, optic atrophy and retinal vessel atherosclerosis is established. The molecular mechanism underlying these ocular diseases has been reported as impaired vascular endothelial function, apoptosis of retinal ganglion cells, extracellular matrix alterations, decreased lysyl oxidase activity and oxidative stress. The formed homocysteine-thiolactone in HHcy has stronger cytotoxicity and pro-inflammatory properties which can induce lens opacification and optic nerve damage. The metabolism of Hcy requires enzymes with vitamins such as folic acid, vitamins B12 and B6. Despite the mixed conclusion of various studies regarding the level of these vitamins in elder people, studies recommended the treatment with folate and B12 to reduce Hcy levels in subjects with or without any defect in the enzymes involved in its metabolism. The levels of Hcy, folate, B6 as well as B12 should be measured early in patients with visual impairment that would aid to screen patients for life-threatening disorders related with HHcy. Elder patients may supplement with these vitamins in order to attenuate the ocular damages. This article discusses the association of Hcy in ocular diseases and the possible mechanism in the pathogenesis.
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PMID:Homocysteine in ocular diseases. 2634 24