C-F Zhou 1 , J-F Yu , J-X Zhang , T Jiang , S-H Xu , Q-Y Yu , Q-X Zhu Show Affiliations »
Abstract
BACKGROUND: Several lines of evidence suggest that the generation of reactive oxygen species (ROS) is of major importance in the pathogenesis of scleroderma, and thus antioxidant therapy may be useful for patients with an impaired oxidative defence mechanism. AIM: To examine the effect of N-acetylcysteine (NAC) on skin fibrosis and oxidative stress in a bleomycin (BLM)-induced mouse model of scleroderma. METHODS: We used this mouse model to evaluate the effect of NAC on skin fibrosis and oxidative stress. Skin fibrosis was evaluated by histopathological examination and hydroxyproline content. To measure lipid peroxidation, we used a thiobarbituric acid-reactive species, malondialdehyde (MDA). Oxidative protein damage (carbonyl content) and the activities of catalase (CAT) and superoxide dismutase (SOD) were determined to evaluate oxidative stress in the skin tissue. RESULTS: Treatment with NAC attenuated the skin fibrosis induced by BLM, significantly reducing the MDA and protein carbonyl content in these mice. SOD activity in BLM-only mice and BLM plus NAC-treated mice was increased compared with control mice. However, there was no significant difference in skin SOD activity of mice treated with both BLM and NAC compared with those treated with BLM only. In addition, CAT activity was not altered in the BLM plus NAC mice. CONCLUSIONS: NAC treatment attenuates skin fibrosis in a BLM-induced mouse model of scleroderma, and this is associated with diminished oxidative stress. The results suggest that NAC may be a potential therapeutic agent for patients with scleroderma. © The Author(s) CED
BACKGROUND: Several lines of evidence suggest that the generation of reactive oxygen species (ROS ) is of major importance in the pathogenesis of scleroderma , and thus antioxidant therapy may be useful for patients with an impaired oxidative defence mechanism. AIM: To examine the effect of N-acetylcysteine (NAC ) on skin fibrosis and oxidative stress in a bleomycin (BLM )-induced mouse model of scleroderma . METHODS: We used this mouse model to evaluate the effect of NAC on skin fibrosis and oxidative stress. Skin fibrosis was evaluated by histopathological examination and hydroxyproline content. To measure lipid peroxidation, we used a thiobarbituric acid -reactive species , malondialdehyde (MDA ). Oxidative protein damage (carbonyl content) and the activities of catalase (CAT ) and superoxide dismutase (SOD) were determined to evaluate oxidative stress in the skin tissue. RESULTS: Treatment with NAC attenuated the skin fibrosis induced by BLM , significantly reducing the MDA and protein carbonyl content in these mice . SOD activity in BLM -only mice and BLM plus NAC -treated mice was increased compared with control mice . However, there was no significant difference in skin SOD activity of mice treated with both BLM and NAC compared with those treated with BLM only. In addition, CAT activity was not altered in the BLM plus NAC mice . CONCLUSIONS: NAC treatment attenuates skin fibrosis in a BLM -induced mouse model of scleroderma , and this is associated with diminished oxidative stress. The results suggest that NAC may be a potential therapeutic agent for patients with scleroderma . © The Author(s) CED
© 2013 British Association of Dermatologists.
Entities: Chemical
Disease
Gene
Species
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Year: 2013
PMID: 23517443 DOI: 10.1111/ced.12033
Source DB: PubMed Journal: Clin Exp Dermatol ISSN: 0307-6938 Impact factor: 3.470