Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies

The Japan Aerospace Exploration Agency developed the mouse Habitat Cage Unit (HCU) for installation in the Cell Biology Experiment Facility (CBEF) onboard the Japanese Experimental Module (“Kibo”) on the International Space Station. The CBEF provides “space-based controls” by generating artificial g...

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Autores principales: Shimbo, Miki, Kudo, Takashi, Hamada, Michito, Jeon, Hyojung, Imamura, Yuki, Asano, Keigo, Okada, Risa, Tsunakawa, Yuki, Mizuno, Seiya, Yagami, Ken-ichi, Ishikawa, Chihiro, Li, Haiyan, Shiga, Takashi, Ishida, Junji, Hamada, Juri, Murata, Kazuya, Ishimaru, Tomohiro, Hashimoto, Misuzu, Fukamizu, Akiyoshi, Yamane, Mutsumi, Ikawa, Masahito, Morita, Hironobu, Shinohara, Masahiro, Asahara, Hiroshi, Akiyama, Taishin, Akiyama, Nobuko, Sasanuma, Hiroki, Yoshida, Nobuaki, Zhou, Rui, Wang, Ying-Ying, Ito, Taito, Kokubu, Yuko, Noguchi, Taka-aki K., Ishimine, Hisako, Kurisaki, Akira, Shiba, Dai, Mizuno, Hiroyasu, Shirakawa, Masaki, Ito, Naoki, Takeda, Shin, Takahashi, Satoru
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Japanese Association for Laboratory Animal Science 2016
Materias:
Original
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4873486/
https://www.ncbi.nlm.nih.gov/pubmed/26822934
http://dx.doi.org/10.1538/expanim.15-0077
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author Shimbo, Miki
Kudo, Takashi
Hamada, Michito
Jeon, Hyojung
Imamura, Yuki
Asano, Keigo
Okada, Risa
Tsunakawa, Yuki
Mizuno, Seiya
Yagami, Ken-ichi
Ishikawa, Chihiro
Li, Haiyan
Shiga, Takashi
Ishida, Junji
Hamada, Juri
Murata, Kazuya
Ishimaru, Tomohiro
Hashimoto, Misuzu
Fukamizu, Akiyoshi
Yamane, Mutsumi
Ikawa, Masahito
Morita, Hironobu
Shinohara, Masahiro
Asahara, Hiroshi
Akiyama, Taishin
Akiyama, Nobuko
Sasanuma, Hiroki
Yoshida, Nobuaki
Zhou, Rui
Wang, Ying-Ying
Ito, Taito
Kokubu, Yuko
Noguchi, Taka-aki K.
Ishimine, Hisako
Kurisaki, Akira
Shiba, Dai
Mizuno, Hiroyasu
Shirakawa, Masaki
Ito, Naoki
Takeda, Shin
Takahashi, Satoru
author_facet Shimbo, Miki
Kudo, Takashi
Hamada, Michito
Jeon, Hyojung
Imamura, Yuki
Asano, Keigo
Okada, Risa
Tsunakawa, Yuki
Mizuno, Seiya
Yagami, Ken-ichi
Ishikawa, Chihiro
Li, Haiyan
Shiga, Takashi
Ishida, Junji
Hamada, Juri
Murata, Kazuya
Ishimaru, Tomohiro
Hashimoto, Misuzu
Fukamizu, Akiyoshi
Yamane, Mutsumi
Ikawa, Masahito
Morita, Hironobu
Shinohara, Masahiro
Asahara, Hiroshi
Akiyama, Taishin
Akiyama, Nobuko
Sasanuma, Hiroki
Yoshida, Nobuaki
Zhou, Rui
Wang, Ying-Ying
Ito, Taito
Kokubu, Yuko
Noguchi, Taka-aki K.
Ishimine, Hisako
Kurisaki, Akira
Shiba, Dai
Mizuno, Hiroyasu
Shirakawa, Masaki
Ito, Naoki
Takeda, Shin
Takahashi, Satoru
author_sort Shimbo, Miki
collection PubMed
description The Japan Aerospace Exploration Agency developed the mouse Habitat Cage Unit (HCU) for installation in the Cell Biology Experiment Facility (CBEF) onboard the Japanese Experimental Module (“Kibo”) on the International Space Station. The CBEF provides “space-based controls” by generating artificial gravity in the HCU through a centrifuge, enabling a comparison of the biological consequences of microgravity and artificial gravity of 1 g on mice housed in space. Therefore, prior to the space experiment, a ground-based study to validate the habitability of the HCU is necessary to conduct space experiments using the HCU in the CBEF. Here, we investigated the ground-based effect of a 32-day housing period in the HCU breadboard model on male mice in comparison with the control cage mice. Morphology of skeletal muscle, the thymus, heart, and kidney, and the sperm function showed no critical abnormalities between the control mice and HCU mice. Slight but significant changes caused by the HCU itself were observed, including decreased body weight, increased weights of the thymus and gastrocnemius, reduced thickness of cortical bone of the femur, and several gene expressions from 11 tissues. Results suggest that the HCU provides acceptable conditions for mouse phenotypic analysis using CBEF in space, as long as its characteristic features are considered. Thus, the HCU is a feasible device for future space experiments.
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spelling pubmed-48734862016-05-25 Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies Shimbo, Miki Kudo, Takashi Hamada, Michito Jeon, Hyojung Imamura, Yuki Asano, Keigo Okada, Risa Tsunakawa, Yuki Mizuno, Seiya Yagami, Ken-ichi Ishikawa, Chihiro Li, Haiyan Shiga, Takashi Ishida, Junji Hamada, Juri Murata, Kazuya Ishimaru, Tomohiro Hashimoto, Misuzu Fukamizu, Akiyoshi Yamane, Mutsumi Ikawa, Masahito Morita, Hironobu Shinohara, Masahiro Asahara, Hiroshi Akiyama, Taishin Akiyama, Nobuko Sasanuma, Hiroki Yoshida, Nobuaki Zhou, Rui Wang, Ying-Ying Ito, Taito Kokubu, Yuko Noguchi, Taka-aki K. Ishimine, Hisako Kurisaki, Akira Shiba, Dai Mizuno, Hiroyasu Shirakawa, Masaki Ito, Naoki Takeda, Shin Takahashi, Satoru Exp Anim Original The Japan Aerospace Exploration Agency developed the mouse Habitat Cage Unit (HCU) for installation in the Cell Biology Experiment Facility (CBEF) onboard the Japanese Experimental Module (“Kibo”) on the International Space Station. The CBEF provides “space-based controls” by generating artificial gravity in the HCU through a centrifuge, enabling a comparison of the biological consequences of microgravity and artificial gravity of 1 g on mice housed in space. Therefore, prior to the space experiment, a ground-based study to validate the habitability of the HCU is necessary to conduct space experiments using the HCU in the CBEF. Here, we investigated the ground-based effect of a 32-day housing period in the HCU breadboard model on male mice in comparison with the control cage mice. Morphology of skeletal muscle, the thymus, heart, and kidney, and the sperm function showed no critical abnormalities between the control mice and HCU mice. Slight but significant changes caused by the HCU itself were observed, including decreased body weight, increased weights of the thymus and gastrocnemius, reduced thickness of cortical bone of the femur, and several gene expressions from 11 tissues. Results suggest that the HCU provides acceptable conditions for mouse phenotypic analysis using CBEF in space, as long as its characteristic features are considered. Thus, the HCU is a feasible device for future space experiments. Japanese Association for Laboratory Animal Science 2016-01-28 2016 /pmc/articles/PMC4873486/ /pubmed/26822934 http://dx.doi.org/10.1538/expanim.15-0077 Text en ©2016 Japanese Association for Laboratory Animal Science http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives (by-nc-nd) License.
spellingShingle Original
Shimbo, Miki
Kudo, Takashi
Hamada, Michito
Jeon, Hyojung
Imamura, Yuki
Asano, Keigo
Okada, Risa
Tsunakawa, Yuki
Mizuno, Seiya
Yagami, Ken-ichi
Ishikawa, Chihiro
Li, Haiyan
Shiga, Takashi
Ishida, Junji
Hamada, Juri
Murata, Kazuya
Ishimaru, Tomohiro
Hashimoto, Misuzu
Fukamizu, Akiyoshi
Yamane, Mutsumi
Ikawa, Masahito
Morita, Hironobu
Shinohara, Masahiro
Asahara, Hiroshi
Akiyama, Taishin
Akiyama, Nobuko
Sasanuma, Hiroki
Yoshida, Nobuaki
Zhou, Rui
Wang, Ying-Ying
Ito, Taito
Kokubu, Yuko
Noguchi, Taka-aki K.
Ishimine, Hisako
Kurisaki, Akira
Shiba, Dai
Mizuno, Hiroyasu
Shirakawa, Masaki
Ito, Naoki
Takeda, Shin
Takahashi, Satoru
Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title_full Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title_fullStr Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title_full_unstemmed Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title_short Ground-based assessment of JAXA mouse habitat cage unit by mouse phenotypic studies
title_sort ground-based assessment of jaxa mouse habitat cage unit by mouse phenotypic studies
topic Original
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4873486/
https://www.ncbi.nlm.nih.gov/pubmed/26822934
http://dx.doi.org/10.1538/expanim.15-0077
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