Microbiota-derived lactate accelerates colon epithelial cell turnover in starvation-refed mice

Toshihiko Okada; Shinji Fukuda; Koji Hase; Shin Nishiumi; Yoshihiro Izumi; Masaru Yoshida; Teruki Hagiwara; Rei Kawashima; Motomi Yamazaki; Tomoyuki Oshio; Takeshi Otsubo; Kyoko Inagaki-Ohara; Kazuki Kakimoto; Kazuhide Higuchi; Yuki I. Kawamura; Hiroshi Ohno; Taeko Dohi

doi:10.1038/ncomms2668

Microbiota-derived lactate accelerates colon epithelial cell turnover in starvation-refed mice

Toshihiko Okada, Shinji Fukuda, Koji Hase, Shin Nishiumi, Yoshihiro Izumi, Masaru Yoshida, Teruki Hagiwara, Rei Kawashima, Motomi Yamazaki, Tomoyuki Oshio, Takeshi Otsubo, Kyoko Inagaki-Ohara, Kazuki Kakimoto, Kazuhide Higuchi, Yuki I. Kawamura, Hiroshi Ohno, Taeko Dohi

Research output: Contribution to journal › Article › peer-review

94 Citations (Scopus)

Abstract

Oral food intake influences the morphology and function of intestinal epithelial cells and maintains gastrointestinal cell turnover. However, how exactly these processes are regulated, particularly in the large intestine, remains unclear. Here we identify microbiota-derived lactate as a major factor inducing enterocyte hyperproliferation in starvation-refed mice. Using bromodeoxyuridine staining, we show that colonic epithelial cell turnover arrests during a 12- to 36-h period of starvation and increases 12-24 h after refeeding. Enhanced epithelial cell proliferation depends on the increase in live Lactobacillus murinus, lactate production and dietary fibre content. In the model of colon tumorigenesis, mice exposed to a carcinogen during refeeding develop more aberrant crypt foci than mice fed ad libitum. Furthermore, starvation after carcinogen exposure greatly reduced the incidence of aberrant crypt foci. Our results indicate that the content of food used for refeeding as well as the timing of carcinogen exposure influence the incidence of colon tumorigenesis in mice.

Original language	English
Article number	1654
Journal	Nature communications
Volume	4
DOIs	https://doi.org/10.1038/ncomms2668
Publication status	Published - 2013
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
General
Physics and Astronomy(all)

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Okada, T., Fukuda, S., Hase, K., Nishiumi, S., Izumi, Y., Yoshida, M., Hagiwara, T., Kawashima, R., Yamazaki, M., Oshio, T., Otsubo, T., Inagaki-Ohara, K., Kakimoto, K., Higuchi, K., Kawamura, Y. I., Ohno, H., & Dohi, T. (2013). Microbiota-derived lactate accelerates colon epithelial cell turnover in starvation-refed mice. Nature communications, 4, [1654]. https://doi.org/10.1038/ncomms2668

Okada, T, Fukuda, S, Hase, K, Nishiumi, S, Izumi, Y, Yoshida, M, Hagiwara, T, Kawashima, R, Yamazaki, M, Oshio, T, Otsubo, T, Inagaki-Ohara, K, Kakimoto, K, Higuchi, K, Kawamura, YI, Ohno, H & Dohi, T 2013, 'Microbiota-derived lactate accelerates colon epithelial cell turnover in starvation-refed mice', Nature communications, vol. 4, 1654. https://doi.org/10.1038/ncomms2668

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abstract = "Oral food intake influences the morphology and function of intestinal epithelial cells and maintains gastrointestinal cell turnover. However, how exactly these processes are regulated, particularly in the large intestine, remains unclear. Here we identify microbiota-derived lactate as a major factor inducing enterocyte hyperproliferation in starvation-refed mice. Using bromodeoxyuridine staining, we show that colonic epithelial cell turnover arrests during a 12- to 36-h period of starvation and increases 12-24 h after refeeding. Enhanced epithelial cell proliferation depends on the increase in live Lactobacillus murinus, lactate production and dietary fibre content. In the model of colon tumorigenesis, mice exposed to a carcinogen during refeeding develop more aberrant crypt foci than mice fed ad libitum. Furthermore, starvation after carcinogen exposure greatly reduced the incidence of aberrant crypt foci. Our results indicate that the content of food used for refeeding as well as the timing of carcinogen exposure influence the incidence of colon tumorigenesis in mice.",

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AU - Okada, Toshihiko

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AU - Izumi, Yoshihiro

AU - Yoshida, Masaru

AU - Hagiwara, Teruki

AU - Kawashima, Rei

AU - Yamazaki, Motomi

AU - Oshio, Tomoyuki

AU - Otsubo, Takeshi

AU - Inagaki-Ohara, Kyoko

AU - Kakimoto, Kazuki

AU - Higuchi, Kazuhide

AU - Kawamura, Yuki I.

AU - Ohno, Hiroshi

AU - Dohi, Taeko

PY - 2013

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Microbiota-derived lactate accelerates colon epithelial cell turnover in starvation-refed mice

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