著者
Akasaka Tsukasa Tamai Miho Yoshimura Yoshitaka Ushijima Natsumi Numamoto Shinichiro Yokoyama Atsuro Miyaji Hirofumi Takata Ryo Yamagata Shuichi Sato Yoshiaki Nakanishi Ko Yoshida Yasuhiro
出版者
Tsinghua university press
雑誌
Nano research (ISSN:19980124)
巻号頁・発行日
vol.15, pp.4201-4211, 2022-01-17
被引用文献数
10

The surface topography of a material can influence osteoclast activity. However, the surface structural factors that promote osteoclast activity have not yet been investigated in detail. Therefore, we investigated osteoclastogenesis by testing various defined patterns with different dimensions and shapes. The systematic patterns, made of a cyclo-olefin polymer, were prepared at a micron-, submicron-, and nano-scale with a groove, hole, or pillar shape with a 1:1 pitch ratio. RAVV264.7 cells were cultured on these patterns in the presence of the receptor activator of NF-kappa B ligand (RANKL). Osteoclast formation was induced in the order: pillar > groove >= hole. The two-dimensional factors also indicated that submicron-sized patterns strongly induced osteoclast formation. The optimal pillar dimension for osteoclast formation was 500 nm in diameter and 2 mu m in height Furthermore, we observed two types of characteristic actin structure, i.e., belt-like structures with small hollow circles and isolated ring-like structures, which formed on or around the pillars depending on size and height. Furthermore, resorption pits were observed mainly on the top of calcium phosphate-coated pillars. Thus, osteoclasts prefer convex shapes, such as pillars for differentiation and resorption. Our results indicate that osteoclastogenesis can be controlled by designing surfaces with specific morphologies.

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外部データベース (DOI)

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Different micro/nano-scale patterns of surface materials influence osteoclastogenesis and actin structure, Nano Research, 15, 4201 (2022)が、北海道大学学術コレクションHUSCAPでも、一般公開されました。少しでも多く引用されることを願います。 https://t.co/Nu1sBIsgbC

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