Lysyl oxidase initiates cross-linkage of collagen and elastin by catalysing the formation of a lysinederived aldehyde. In order to study cross-linking in scleroderma. we used monoclonal antibodies to lysyl oxidase to determine the localization of this enzyme in systemic and loctilized scleroderma. and compared the distributions obtained with that in normal skin. Using an indirect immunofluorescent antibody method and an avidin-biotinylated enzyme complex method. 11 cases of diffuse type of systemic scleroderma and seven cases of localized scleroderma were studied. In the oedematous stage of systemic scleroderma. intracellular and extracellular lysyl oxidase were remarkably increased in the dermis. particularly in groups around blood vessels. In the sclerotic stage of systemic scleroderma. lysyl oxidase was detected intracellularly in fihrohlasts and extracellularly among collagen bundles between the lower dermis and the subcutaneous tat tissue. In localized scleroderma, a marked increase in lysyl oxidase was observed in mononuclear cells and fibroblasts near blood vessels in the lower dermis and in the subcutaneous fat tissue, in addition to the extracellular deposits between collagen bundles. The increase in lysyl oxidase in localized scleroderma was much more common than in the oedemalous stage of systemic scleroderma. These findings indicated that intraceliular and extracellular expression of lysyl oxidase expression was greater in sclerodermatous skin than in normal skin.
Lysyl oxidase (LOX) initiates the crosslinking of the lysine-derived aldehyde and plays an essential role in maturation of collagen, for example in wound healing. Although the activity of this enzyme has been examined in various disorders, and a further intriguing aspect of the relationship between LOX and tumorigenesis has recently emerged, its gene expression pattern in tissues is still unknown. We examined LOX gene expression during wound healing in rat skin. In addition, type III collagen gene expression was studied to determine the formation of fibrils. The LOX mRNA level reached a peak by day 3 after injury, which was earlier than that of type III collagen, and continued at a high level until day 22. The type III collagen mRNA level began to rise from day 3 and had increased intensely by day 22. In situ hybridization revealed grains corresponding to LOX mRNA in the fibroblasts of the granulomatous tissue. These results suggest that LOX is produced before collagen synthesis in preparation for crosslinking in the early phase of wound healing.
We report the case of a Japanese female infant with Chédiak-Higashi syndrome born to consanguineous parents. At birth she had fair skin but, when she was three months old, marked hyperpigmentation of the sun-exposed skin areas developed. Microscopic examination of blood and electron microscopic examination confirmed the diagnosis. She enjoyed good health until she was two years old when she had pneumonia with marked hepatosplenomegaly. It is important for dermatologists and pediatricians to be aware of the skin manifestations of this disease because hyperpigmentation after sun exposure may be a characteristic, initial feature of this condition.
Lysyl oxidase (EC 1.4.3.13), a copper-dependent enzyme which catalyses the formation of aldehyde cross-links, and acts primarily on collagen and elastin, is known to be increased during wound healing and in fibrotic disorders including liver cirrhosis and atherosclerosis, and to be decreased in some hereditary connective tissue diseases and in malignant cell lines. A recent study showed that lysyl oxidase might possess tumour suppressor activity as an antioncogene for ras. Little is known about the localization of this enzyme in human skin. In this study, we determined immunohistochemically the localization of lysyl oxidase in normal skin of young and elderly subjects obtained from sun-exposed and unexposed regions of the body. All skin samples tested had similar distributions of lysyl oxidase. The enzyme was present both extracellularly and intracellularly. Extracellularly, a few granular aggregates of immunoreactants were observed along collagen and elastic fibres. These granules were more common in the adventitial portion of the dermis than in the reticular portion. Of all sun-exposed and unexposed regions studied, the skin of the face displayed the greatest amount of extracellular immunoreactants. Immunopositive granules were observed intracellularly in fibroblasts, vascular endothelial cells, sweat glands, sebaceous glands, arrector pili muscles and some keratinocytes. These findings provide evidence that, as suggested in recent reports, lysyl oxidase may have a variety of intracellular functions.
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