Novel antioxidant capability of titanium induced by UV light treatment

氧化应激 活性氧 抗氧化剂 细胞内 材料科学 过氧化氢 紫外线 生物物理学 化学 生物化学 生物 冶金 光电子学
作者
Takeshi Ueno,Takayuki Ikeda,Naoki Tsukimura,Manabu Ishijima,Hajime Minamikawa,Yoshihiko Sugita,Masahiro Yamada,Noriyuki Wakabayashi,Takahiro Ogawa
出处
期刊:Biomaterials [Elsevier BV]
卷期号:108: 177-186 被引量:68
标识
DOI:10.1016/j.biomaterials.2016.08.050
摘要

The intracellular production of reactive oxygen species (ROS) is a representative form of cellular oxidative stress and plays an important role in triggering adverse cellular events, such as the inflammatory reaction and delayed or compromised differentiation. Osteoblastic reaction to titanium with particular focus on ROS production remains unknown. Ultraviolet (UV) light treatment improves the physicochemical properties of titanium, specifically the induction of super hydrophilicity and removal of hydrocarbon, and eventually enhances its osteoconductivity. We hypothesized that there is a favorable regulatory change of ROS production within osteoblasts in contact with UV-treated titanium. Osteoblasts were cultured on titanium disks with or without UV-pretreatment. The intracellular production of ROS was higher on acid-etch-created rough titanium surfaces than on machine-prepared smooth ones. The ROS production was reduced by 40-50% by UV pretreatment of titanium regardless of the surface roughness. Oxidative DNA damage, as detected by 8-OHdG expression, was alleviated by 50% on UV-treated titanium surfaces. The expression of inflammatory cytokines was consistently lower in osteoblasts cultured on UV-treated titanium. ROS scavenger, glutathione, remained more without being depleted in osteoblasts on UV-treated titanium. Bio-burden test further showed that culturing osteoblasts on UV-treated titanium can significantly reduce the ROS production even with the presence of hydrogen peroxide, an oxidative stress inducer. These data suggest that the intracellular production of ROS and relevant inflammatory reaction, which unavoidably occurs in osteoblasts in contact with titanium, can be significantly reduced by UV pretreatment of titanium, implying a novel antioxidant capability of the particular titanium.

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