Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice

Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice

Abstract Short-chain fatty acids produced by the gut bacterial fermentation of non-digestible carbohydrates, e.g., fructo-oligosaccharide (FOS), contribute to the maintenance of skeletal muscle mass and oxidative metabolic capacity. We evaluated the effect of FOS ingestion on protein expression of s...

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Main Authors: Takashi Ohira, Yoko Ino, Yayoi Kimura, Yusuke Nakai, Ayuko Kimura, Yoichi Kurata, Hiroyuki Kagawa, Mitsuo Kimura, Kenji Egashira, Chie Matsuda, Yoshinobu Ohira, Satoshi Furukawa, Hisashi Hirano
Format: Article
Language:English
Published: Nature Publishing Group 2021-09-01
Series:npj Microgravity
Online Access:https://doi.org/10.1038/s41526-021-00164-6
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spelling doaj-b3782734408b463d92e0ab8c01d1b5592021-09-19T11:41:49ZengNature Publishing Groupnpj Microgravity2373-80652021-09-017111110.1038/s41526-021-00164-6Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing miceTakashi Ohira0Yoko Ino1Yayoi Kimura2Yusuke Nakai3Ayuko Kimura4Yoichi Kurata5Hiroyuki Kagawa6Mitsuo Kimura7Kenji Egashira8Chie Matsuda9Yoshinobu Ohira10Satoshi Furukawa11Hisashi Hirano12Research Center for Space and Medical Sciences and Organization for Research Initiatives and Development, Doshisha UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversityAdvanced Medical Research Center, Yokohama City UniversitySpace Biomedical Research Group, Japan Aerospace Exploration AgencyResearch Center for Space and Medical Sciences and Organization for Research Initiatives and Development, Doshisha UniversitySpace Biomedical Research Group, Japan Aerospace Exploration AgencyAdvanced Medical Research Center, Yokohama City UniversityAbstract Short-chain fatty acids produced by the gut bacterial fermentation of non-digestible carbohydrates, e.g., fructo-oligosaccharide (FOS), contribute to the maintenance of skeletal muscle mass and oxidative metabolic capacity. We evaluated the effect of FOS ingestion on protein expression of soleus (Sol) and extensor digitorum longus muscles in mice exposed to microgravity (μ-g). Twelve 9-week-old male C57BL/6J mice were raised individually on the International Space Station under μ-g or artificial 1-g and fed a diet with or without FOS (n = 3/group). Regardless of FOS ingestion, the absolute wet weights of both muscles tended to decrease, and the fiber phenotype in Sol muscles shifted toward fast-twitch type following μ-g exposure. However, FOS ingestion tended to mitigate the μ-g-exposure-related decrease in oxidative metabolism and enhance glutathione redox detoxification in Sol muscles. These results indicate that FOS ingestion mildly suppresses metabolic changes and oxidative stress in antigravity Sol muscles during spaceflight.https://doi.org/10.1038/s41526-021-00164-6
collection DOAJ
language English
format Article
sources DOAJ
author Takashi Ohira
Yoko Ino
Yayoi Kimura
Yusuke Nakai
Ayuko Kimura
Yoichi Kurata
Hiroyuki Kagawa
Mitsuo Kimura
Kenji Egashira
Chie Matsuda
Yoshinobu Ohira
Satoshi Furukawa
Hisashi Hirano
spellingShingle Takashi Ohira
Yoko Ino
Yayoi Kimura
Yusuke Nakai
Ayuko Kimura
Yoichi Kurata
Hiroyuki Kagawa
Mitsuo Kimura
Kenji Egashira
Chie Matsuda
Yoshinobu Ohira
Satoshi Furukawa
Hisashi Hirano
Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
npj Microgravity
author_facet Takashi Ohira
Yoko Ino
Yayoi Kimura
Yusuke Nakai
Ayuko Kimura
Yoichi Kurata
Hiroyuki Kagawa
Mitsuo Kimura
Kenji Egashira
Chie Matsuda
Yoshinobu Ohira
Satoshi Furukawa
Hisashi Hirano
author_sort Takashi Ohira
title Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
title_short Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
title_full Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
title_fullStr Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
title_full_unstemmed Effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
title_sort effects of microgravity exposure and fructo-oligosaccharide ingestion on the proteome of soleus and extensor digitorum longus muscles in developing mice
publisher Nature Publishing Group
series npj Microgravity
issn 2373-8065
publishDate 2021-09-01
description Abstract Short-chain fatty acids produced by the gut bacterial fermentation of non-digestible carbohydrates, e.g., fructo-oligosaccharide (FOS), contribute to the maintenance of skeletal muscle mass and oxidative metabolic capacity. We evaluated the effect of FOS ingestion on protein expression of soleus (Sol) and extensor digitorum longus muscles in mice exposed to microgravity (μ-g). Twelve 9-week-old male C57BL/6J mice were raised individually on the International Space Station under μ-g or artificial 1-g and fed a diet with or without FOS (n = 3/group). Regardless of FOS ingestion, the absolute wet weights of both muscles tended to decrease, and the fiber phenotype in Sol muscles shifted toward fast-twitch type following μ-g exposure. However, FOS ingestion tended to mitigate the μ-g-exposure-related decrease in oxidative metabolism and enhance glutathione redox detoxification in Sol muscles. These results indicate that FOS ingestion mildly suppresses metabolic changes and oxidative stress in antigravity Sol muscles during spaceflight.
url https://doi.org/10.1038/s41526-021-00164-6
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