Microgravity promotes osteoclast activity in medaka fish reared at the international space station

被引:0
作者
Masahiro Chatani
Akiko Mantoku
Kazuhiro Takeyama
Dawud Abduweli
Yasutaka Sugamori
Kazuhiro Aoki
Keiichi Ohya
Hiromi Suzuki
Satoko Uchida
Toru Sakimura
Yasushi Kono
Fumiaki Tanigaki
Masaki Shirakawa
Yoshiro Takano
Akira Kudo
机构
[1] Graduate School of Bioscience and Biotechnology,Department of Bio
[2] Tokyo Institute of Technology,Matrix
[3] Section of Biostructural Science,Department of Science and Applications
[4] Graduate School of Medical and Dental Sciences,undefined
[5] Tokyo Medical and Dental University,undefined
[6] Section of Pharmacology,undefined
[7] Graduate School,undefined
[8] Tokyo Medical and Dental University,undefined
[9] Japan Space Forum,undefined
[10] Mitsubishi Heavy Industries,undefined
[11] Ltd.,undefined
[12] Japan Aerospace Exploration Agency,undefined
来源
Scientific Reports | / 5卷
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摘要
The bone mineral density (BMD) of astronauts decreases specifically in the weight-bearing sites during spaceflight. It seems that osteoclasts would be affected by a change in gravity; however, the molecular mechanism involved remains unclear. Here, we show that the mineral density of the pharyngeal bone and teeth region of TRAP-GFP/Osterix-DsRed double transgenic medaka fish was decreased and that osteoclasts were activated when the fish were reared for 56 days at the international space station. In addition, electron microscopy observation revealed a low degree of roundness of mitochondria in osteoclasts. In the whole transcriptome analysis, fkbp5 and ddit4 genes were strongly up-regulated in the flight group. The fish were filmed for abnormal behavior; and, interestingly, the medaka tended to become motionless in the late stage of exposure. These results reveal impaired physiological function with a change in mechanical force under microgravity, which impairment was accompanied by osteoclast activation.
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[1]  
Clement G(2011)Effects of long-term microgravity exposure on cancellous and cortical weight-bearing bones of cosmonauts Fundamentals of Space Medicine 2nd edn (Kindle edition) Vol. 23 4540-4563
[2]  
Werts JamesR(2000)Cortical and trabecular bone mineral loss from the spine and hip in long-duration spaceflight Lancet 355 1607-1611
[3]  
Vico L(2004)Effects of microgravity on osteoclast bone resorption and osteoblast cytoskeletal organization and adhesion J. Bone Miner. Res. 19 1006-1012
[4]  
Lang T(2011)Bisphosphonates as a supplement to exercise to protect bone during long-duration spaceflight Bone 49 965-974
[5]  
Nabavi N(2013)Bone turnover in wild type and pleiotrophin-transgenic mice housed for three months in the International Space Station (ISS) Osteoporos. Int. 24 2105-2114
[6]  
Khandani A(2012)Multinucleate osteoclasts in medaka as evidence of active bone remodeling PLoS One 7 e33179-408
[7]  
Camirand A(2007)Glucocorticoids stimulate hepatic and renal catecholamine inactivation by direct rapid induction of the dopamine sulfotransferase Sult1d1 Bone 40 399-194
[8]  
Harrison RE(2010)Osteoclast cell fusion: mechanisms and molecules Endocrinology 151 185-227
[9]  
Leblanc A(2008)Glucocorticoid receptors modulate mitochondrial function Mod Rheumatol 18 220-352
[10]  
Tavella S(2009)Glucocorticoids and their receptors: Insights into specific roles in mitochondria Commun. Intergrative Biol. 2 350-54
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