Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice

Ikuo Kimura; Junki Miyamoto; Ryuji Ohue-Kitano; Keita Watanabe; Takahiro Yamada; Masayoshi Onuki; Ryo Aoki; Yosuke Isobe; Daiji Kashihara; Daisuke Inoue; Akihiko Inaba; Yuta Takamura; Satsuki Taira; Shunsuke Kumaki; Masaki Watanabe; Masato Ito; Fumiyuki Nakagawa; Junichiro Irie; Hiroki Kakuta; Masakazu Shinohara; Ken Iwatsuki; Gozoh Tsujimoto; Hiroaki Ohno; Makoto Arita; Hiroshi Itoh; Koji Hase

doi:10.1126/science.aaw8429

Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice

Ikuo Kimura, Junki Miyamoto, Ryuji Ohue-Kitano, Keita Watanabe, Takahiro Yamada, Masayoshi Onuki, Ryo Aoki, Yosuke Isobe, Daiji Kashihara, Daisuke Inoue, Akihiko Inaba, Yuta Takamura, Satsuki Taira, Shunsuke Kumaki, Masaki Watanabe, Masato Ito, Fumiyuki Nakagawa, Junichiro Irie, Hiroki Kakuta, Masakazu ShinoharaKen Iwatsuki, Gozoh Tsujimoto, Hiroaki Ohno, Makoto Arita, Hiroshi Itoh, Koji Hase

研究成果: Article › 査読

326 被引用数 (Scopus)

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Antibiotics and dietary habits can affect the gut microbial community, thus influencing disease susceptibility. Although the effect of microbiota on the postnatal environment has been well documented, much less is known regarding the impact of gut microbiota at the embryonic stage. Here we show that maternal microbiota shapes the metabolic system of offspring in mice. During pregnancy, short-chain fatty acids produced by the maternal microbiota dictate the differentiation of neural, intestinal, and pancreatic cells through embryonic GPR41 and GPR43. This developmental process helps maintain postnatal energy homeostasis, as evidenced by the fact that offspring from germ-free mothers are highly susceptible to metabolic syndrome, even when reared under conventional conditions. Thus, our findings elaborate on a link between the maternal gut environment and the developmental origin of metabolic syndrome.

本文言語	English
論文番号	eaaw8429
ジャーナル	Science
巻	367
号	6481
DOI	https://doi.org/10.1126/science.aaw8429
出版ステータス	Published - 2020 2月 28

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一般

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10.1126/science.aaw8429

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Kimura, I., Miyamoto, J., Ohue-Kitano, R., Watanabe, K., Yamada, T., Onuki, M., Aoki, R., Isobe, Y., Kashihara, D., Inoue, D., Inaba, A., Takamura, Y., Taira, S., Kumaki, S., Watanabe, M., Ito, M., Nakagawa, F., Irie, J., Kakuta, H., ... Hase, K. (2020). Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice. Science, 367(6481), 記事 eaaw8429. https://doi.org/10.1126/science.aaw8429

Kimura, I, Miyamoto, J, Ohue-Kitano, R, Watanabe, K, Yamada, T, Onuki, M, Aoki, R, Isobe, Y, Kashihara, D, Inoue, D, Inaba, A, Takamura, Y, Taira, S, Kumaki, S, Watanabe, M, Ito, M, Nakagawa, F, Irie, J, Kakuta, H, Shinohara, M, Iwatsuki, K, Tsujimoto, G, Ohno, H, Arita, M, Itoh, H & Hase, K 2020, 'Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice', Science, vol. 367, no. 6481, eaaw8429. https://doi.org/10.1126/science.aaw8429

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title = "Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice",

abstract = "Antibiotics and dietary habits can affect the gut microbial community, thus influencing disease susceptibility. Although the effect of microbiota on the postnatal environment has been well documented, much less is known regarding the impact of gut microbiota at the embryonic stage. Here we show that maternal microbiota shapes the metabolic system of offspring in mice. During pregnancy, short-chain fatty acids produced by the maternal microbiota dictate the differentiation of neural, intestinal, and pancreatic cells through embryonic GPR41 and GPR43. This developmental process helps maintain postnatal energy homeostasis, as evidenced by the fact that offspring from germ-free mothers are highly susceptible to metabolic syndrome, even when reared under conventional conditions. Thus, our findings elaborate on a link between the maternal gut environment and the developmental origin of metabolic syndrome.",

author = "Ikuo Kimura and Junki Miyamoto and Ryuji Ohue-Kitano and Keita Watanabe and Takahiro Yamada and Masayoshi Onuki and Ryo Aoki and Yosuke Isobe and Daiji Kashihara and Daisuke Inoue and Akihiko Inaba and Yuta Takamura and Satsuki Taira and Shunsuke Kumaki and Masaki Watanabe and Masato Ito and Fumiyuki Nakagawa and Junichiro Irie and Hiroki Kakuta and Masakazu Shinohara and Ken Iwatsuki and Gozoh Tsujimoto and Hiroaki Ohno and Makoto Arita and Hiroshi Itoh and Koji Hase",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works",

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AU - Kimura, Ikuo

AU - Miyamoto, Junki

AU - Ohue-Kitano, Ryuji

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AU - Yamada, Takahiro

AU - Onuki, Masayoshi

AU - Aoki, Ryo

AU - Isobe, Yosuke

AU - Kashihara, Daiji

AU - Inoue, Daisuke

AU - Inaba, Akihiko

AU - Takamura, Yuta

AU - Taira, Satsuki

AU - Kumaki, Shunsuke

AU - Watanabe, Masaki

AU - Ito, Masato

AU - Nakagawa, Fumiyuki

AU - Irie, Junichiro

AU - Kakuta, Hiroki

AU - Shinohara, Masakazu

AU - Iwatsuki, Ken

AU - Tsujimoto, Gozoh

AU - Ohno, Hiroaki

AU - Arita, Makoto

AU - Itoh, Hiroshi

AU - Hase, Koji

PY - 2020/2/28

Y1 - 2020/2/28

N2 - Antibiotics and dietary habits can affect the gut microbial community, thus influencing disease susceptibility. Although the effect of microbiota on the postnatal environment has been well documented, much less is known regarding the impact of gut microbiota at the embryonic stage. Here we show that maternal microbiota shapes the metabolic system of offspring in mice. During pregnancy, short-chain fatty acids produced by the maternal microbiota dictate the differentiation of neural, intestinal, and pancreatic cells through embryonic GPR41 and GPR43. This developmental process helps maintain postnatal energy homeostasis, as evidenced by the fact that offspring from germ-free mothers are highly susceptible to metabolic syndrome, even when reared under conventional conditions. Thus, our findings elaborate on a link between the maternal gut environment and the developmental origin of metabolic syndrome.

AB - Antibiotics and dietary habits can affect the gut microbial community, thus influencing disease susceptibility. Although the effect of microbiota on the postnatal environment has been well documented, much less is known regarding the impact of gut microbiota at the embryonic stage. Here we show that maternal microbiota shapes the metabolic system of offspring in mice. During pregnancy, short-chain fatty acids produced by the maternal microbiota dictate the differentiation of neural, intestinal, and pancreatic cells through embryonic GPR41 and GPR43. This developmental process helps maintain postnatal energy homeostasis, as evidenced by the fact that offspring from germ-free mothers are highly susceptible to metabolic syndrome, even when reared under conventional conditions. Thus, our findings elaborate on a link between the maternal gut environment and the developmental origin of metabolic syndrome.

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Maternal gut microbiota in pregnancy influences offspring metabolic phenotype in mice

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