Skin photoageing is a complex, multifactorial process and both intrinsic and extrinsic factors may contribute to its pathogenesis. The ultraviolet-irradiated hairless mouse has been used as an animal model for photoageing, but this model mimics only the 'extrinsic' aspects. Here, we show that skin from old SAMP1 mice, a model for higher oxidative stress and senescence acceleration, exhibited histological and gene expression changes similar to those in human photoaged skin without ultraviolet irradiation. These changes include an increase in elastic fibre and glycosaminoglycan histologically, an upregulation of several proinflammatory cytokines and matrix metalloproteinases, and an increase in lipid peroxide. We propose that SAMP1 mice are a spontaneous animal model for photoageing caused by an exaggerated intrinsic mechanism, namely, higher oxidative status. This mouse model is useful to explore the link between oxidative stress and photoageing, and to evaluate the efficacy of antioxidants.
Skin photoaging is a complex, multifactorial process resulting in functional and structural changes of the skin, and different phenotypes from chronological skin aging are well-recognized. Ultraviolet (UV)-irradiated hairless mice have been used as a skin photoaging animal model. However, differences in morphology and gene expression patterns between UV-induced and chronological skin changes in this mouse model have not been fully elucidated. Here we investigated differences in histopathology and cytokine expression between UV-irradiated and non-irradiated aged hairless mice to clarify the factor(s) that differentiate photoaging from chronological skin aging phenotypes. Eight-week-old HR-1 hairless mice were divided into UV-irradiated (UV-irradiated mice) and non-irradiated (control mice) groups. Irradiation was performed three times per week for 10 weeks. In addition, 30-week-old HR-1 hairless mice were reared until 70 weeks of age without UV irradiation (aged mice). Histopathologies revealed that the flattening of dermal-epidermal junctions and epidermal thickening were observed only in UV-irradiated mice. Decreases in fine elastic fibers just beneath the epidermis, the thickening of elastic fibers in the reticular dermis, and the accumulation of glycosaminoglycans were more prominent in UV-irradiated mice as compared to non-irradiated aged mice. Quantitative PCR analyses revealed that UV-irradiated mice showed * Corresponding author. M. Sakura et al. 83 an increase in the expression of IFN-γ. In contrast, aged mice exhibited proportional up-regulation of both pro-inflammatory and anti-inflammatory cytokines. The IFN-γ/IL-4 ratio, an indicator for the balance of pro-inflammatory and anti-inflammatory cytokines, was significantly higher in UVirradiated mice as compared to control and non-irradiated aged mice. An elevated IFN-γ/IL-4 ratio was also observed in aged senescence-accelerated mouse-prone 1 (SAMP1) mice, a spontaneous skin photoaging model we recently reported. Thus, an imbalance between pro-inflammatory and anti-inflammatory cytokines might be a key factor to differentiate photoaged skin from chronologically-aged skin.
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