Oxidative Stress-Related Markers and Langerhans Cells in a Hairless Rat Model Exposed to UV Radiation

Biomarkers related to the oxidative stress in blood and epidermis and the number of Langerhans cells were determined in hairless rats after acute irradiation with 1.54, 1.93, or 2.41 J/cm 2 of ultraviolet (UV) light and chronic exposure to 13 suberythemal UV doses of 1.1 J/cm 2 for 2 mo. After acute...

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Published in:Journal of Toxicology and Environmental Health, Part A Part A, 2006-08, Vol.69 (14), p.1371-1385
Main Authors: Mulero, Miquel, Romeu, Marta, Giralt, Montserrat, Folch, Jaume, Rosa Nogués, Maria, Fortuño, Àngels, Xavier Sureda, Francesc, Linares, Victoria, Cabré, Maria, Luis Paternáin, José, Mallol, Jordi
Format: Article
Language:English
Subjects:
Animals
Biomarkers - analysis
Catalase - analysis
Disease Models, Animal
Glutathione Disulfide - analysis
Glutathione Transferase - analysis
Langerhans Cells - chemistry
Langerhans Cells - metabolism
Langerhans Cells - radiation effects
Oxidative Stress - immunology
Oxidative Stress - radiation effects
Rats
Thiobarbituric Acid Reactive Substances - analysis
Ultraviolet Rays - adverse effects
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Summary:Biomarkers related to the oxidative stress in blood and epidermis and the number of Langerhans cells were determined in hairless rats after acute irradiation with 1.54, 1.93, or 2.41 J/cm 2 of ultraviolet (UV) light and chronic exposure to 13 suberythemal UV doses of 1.1 J/cm 2 for 2 mo. After acute UV irradiation, in epidermis, the thiobarbituric acid-reactive substances (TBARS) content increased at the highest UV dose, whereas the activities of glutathione S-transferase and catalase rose and the oxidized glutathione (GSSG) content diminished at all UV doses. In erythrocytes, glutathione S-transferase activity increased at the two lowest UV doses, glutathione peroxidase activity rose at all UV doses, and catalase activity increased after the highest UV dose. In plasma, the TBARS content and the reduced glutathione (GSH)/GSSG ratio increased at the highest UV dose; the number of Langerhans cells decreased at all UV doses. Linear Pearson correlation analysis revealed many relationships between different biomarkers, and multiple linear regression analysis indicated that the number of Langerhans cells was predicted by epidermal GSSG and catalase (R 2 = .64) and by erythrocytic glutathione peroxidase and GSSG (R 2 = .72). After suberythemal UV radiation, in epidermis, the GST activity and the content of GSH and GSSG increased; in erythrocytes, the GST activity decreased and the GSH/GSSG ratio increased. Thus, the hairless rat appears to be a useful model for studying the oxidative stress-related mechanisms after UV radiation, which are involved in the loss of the immune capacity mediated by Langerhans cells, even at suberythemal doses. This study was conducted at the School of Medicine, Rovira i Virgili University, Reus, Spain. This work was supported by a Research and Development grant (SAF-99-0048) from the Spanish Ministry of Health and Social Security and cosponsored by Novartis CH (Spain). We thank Prof. J. Fernández of the School of Medicine (Reus) for his help with the statistical analyses.
ISSN:1528-7394
1087-2620
DOI:10.1080/15287390500471187