Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit

Yasunobu Arima; Takuto Ohki; Naoki Nishikawa; Kotaro Higuchi; Mitsutoshi Ota; Yuki Tanaka; Junko Nio-Kobayashi; Mohamed Elfeky; Ryota Sakai; Yuki Mori; Tadafumi Kawamoto; Andrea Stofkova; Yukihiro Sakashita; Yuji Morimoto; Masaki Kuwatani; Toshihiko Iwanaga; Yoshichika Yoshioka; Naoya Sakamoto; Akihiko Yoshimura; Mitsuyoshi Takiguchi; Saburo Sakoda; Marco Prinz; Daisuke Kamimura; Masaaki Murakami

doi:10.7554/eLife.25517

Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit

Yasunobu Arima, Takuto Ohki, Naoki Nishikawa, Kotaro Higuchi, Mitsutoshi Ota, Yuki Tanaka, Junko Nio-Kobayashi, Mohamed Elfeky, Ryota Sakai, Yuki Mori, Tadafumi Kawamoto, Andrea Stofkova, Yukihiro Sakashita, Yuji Morimoto, Masaki Kuwatani, Toshihiko Iwanaga, Yoshichika Yoshioka, Naoya Sakamoto, Akihiko Yoshimura, Mitsuyoshi TakiguchiSaburo Sakoda, Marco Prinz, Daisuke Kamimura, Masaaki Murakami

微生物学・免疫学

研究成果: Article › 査読

31 被引用数 (Scopus)

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Impact of stress on diseases including gastrointestinal failure is well-known, but molecular mechanism is not understood. Here we show underlying molecular mechanism using EAE mice. Under stress conditions, EAE caused severe gastrointestinal failure with high-mortality. Mechanistically, autoreactive-pathogenic CD4+ T cells accumulated at specific vessels of boundary area of third-ventricle, thalamus, and dentate-gyrus to establish brain micro-inflammation via stressgateway reflex. Importantly, induction of brain micro-inflammation at specific vessels by cytokine injection was sufficient to establish fatal gastrointestinal failure. Resulting micro-inflammation activated new neural pathway including neurons in paraventricular-nucleus, dorsomedial-nucleus-ofhypothalamus, and also vagal neurons to cause fatal gastrointestinal failure. Suppression of the brain micro-inflammation or blockage of these neural pathways inhibited the gastrointestinal failure. These results demonstrate direct link between brain micro-inflammation and fatal gastrointestinal disease via establishment of a new neural pathway under stress. They further suggest that brain micro-inflammation around specific vessels could be switch to activate new neural pathway(s) to regulate organ homeostasis.

本文言語	English
論文番号	e25517
ジャーナル	eLife
巻	6
DOI	https://doi.org/10.7554/eLife.25517
出版ステータス	Published - 2017 8月 15

ASJC Scopus subject areas

神経科学（全般）
生化学、遺伝学、分子生物学（全般）
免疫学および微生物学（全般）

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10.7554/eLife.25517

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Arima, Y., Ohki, T., Nishikawa, N., Higuchi, K., Ota, M., Tanaka, Y., Nio-Kobayashi, J., Elfeky, M., Sakai, R., Mori, Y., Kawamoto, T., Stofkova, A., Sakashita, Y., Morimoto, Y., Kuwatani, M., Iwanaga, T., Yoshioka, Y., Sakamoto, N., Yoshimura, A., ... Murakami, M. (2017). Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit. eLife, 6, [e25517]. https://doi.org/10.7554/eLife.25517

Arima, Y, Ohki, T, Nishikawa, N, Higuchi, K, Ota, M, Tanaka, Y, Nio-Kobayashi, J, Elfeky, M, Sakai, R, Mori, Y, Kawamoto, T, Stofkova, A, Sakashita, Y, Morimoto, Y, Kuwatani, M, Iwanaga, T, Yoshioka, Y, Sakamoto, N, Yoshimura, A, Takiguchi, M, Sakoda, S, Prinz, M, Kamimura, D & Murakami, M 2017, 'Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit', eLife, vol. 6, e25517. https://doi.org/10.7554/eLife.25517

@article{06229a7f35f244c980e582ff51feca73,

title = "Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit",

abstract = "Impact of stress on diseases including gastrointestinal failure is well-known, but molecular mechanism is not understood. Here we show underlying molecular mechanism using EAE mice. Under stress conditions, EAE caused severe gastrointestinal failure with high-mortality. Mechanistically, autoreactive-pathogenic CD4+ T cells accumulated at specific vessels of boundary area of third-ventricle, thalamus, and dentate-gyrus to establish brain micro-inflammation via stressgateway reflex. Importantly, induction of brain micro-inflammation at specific vessels by cytokine injection was sufficient to establish fatal gastrointestinal failure. Resulting micro-inflammation activated new neural pathway including neurons in paraventricular-nucleus, dorsomedial-nucleus-ofhypothalamus, and also vagal neurons to cause fatal gastrointestinal failure. Suppression of the brain micro-inflammation or blockage of these neural pathways inhibited the gastrointestinal failure. These results demonstrate direct link between brain micro-inflammation and fatal gastrointestinal disease via establishment of a new neural pathway under stress. They further suggest that brain micro-inflammation around specific vessels could be switch to activate new neural pathway(s) to regulate organ homeostasis.",

author = "Yasunobu Arima and Takuto Ohki and Naoki Nishikawa and Kotaro Higuchi and Mitsutoshi Ota and Yuki Tanaka and Junko Nio-Kobayashi and Mohamed Elfeky and Ryota Sakai and Yuki Mori and Tadafumi Kawamoto and Andrea Stofkova and Yukihiro Sakashita and Yuji Morimoto and Masaki Kuwatani and Toshihiko Iwanaga and Yoshichika Yoshioka and Naoya Sakamoto and Akihiko Yoshimura and Mitsuyoshi Takiguchi and Saburo Sakoda and Marco Prinz and Daisuke Kamimura and Masaaki Murakami",

note = "Funding Information: We appreciate the excellent technical assistances provided by Ms. Ezawa, and Ms. Nakayama, and thank Ms. Fukumoto for her excellent assistance. We thank Dr. P Karagiannis (CiRA, Kyoto University, Kyoto, Japan), Dr. T Hirano (QST, Chiba, Japan), Dr. K Tainaka (Niigata University) for carefully reading the manuscript and/or important discussion, respectively. This work was supported by KAKENHI (D K, Y A, and M M), Takeda Science Foundation (M M), Institute for Fermentation Osaka (M M), Mitsubishi Foundation (M M), Mochida Memorial Foundation for Medical and Pharmaceutical Research (D K), Suzuken Memorial Foundation (Y A), Japan Prize Foundation (Y A), Ono Medical Research Foundation (Y A), Kanzawa Medical Research Foundation (Y A), Kishimoto Foundation (Y A), Nagao Takeshi Research Foundation (Y A), Japan Multiple Sclerosis Society (Y A), Kanae Funda-tion (Y A), The Uehara Memorial Fundation (Y A), Japan Brain Fundation (Y A), The Kao Fundation for Arts and Sciences (Y A), Tokyo Medical Research Foundation (M M and Y A), JSPS Postdoctoral Fellowship for Foreign Researchers (A S), and the Joint Usage/Research Promotion Office at Institute for Genetic Medicine, Hokkaido University (M M). We dedicate this manuscript to Drs. H Nakayama, R Fukuhara, and Y Sato (Hyogo Prefectural Amagasaki General Medical Center), who saved Dr. Mur-akami{\textquoteright}s life from angina pectoris during its preparation. Publisher Copyright: {\textcopyright} Arima et al.",

year = "2017",

month = aug,

day = "15",

doi = "10.7554/eLife.25517",

language = "English",

volume = "6",

journal = "eLife",

issn = "2050-084X",

publisher = "eLife Sciences Publications",

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TY - JOUR

T1 - Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit

AU - Arima, Yasunobu

AU - Ohki, Takuto

AU - Nishikawa, Naoki

AU - Higuchi, Kotaro

AU - Ota, Mitsutoshi

AU - Tanaka, Yuki

AU - Nio-Kobayashi, Junko

AU - Elfeky, Mohamed

AU - Sakai, Ryota

AU - Mori, Yuki

AU - Kawamoto, Tadafumi

AU - Stofkova, Andrea

AU - Sakashita, Yukihiro

AU - Morimoto, Yuji

AU - Kuwatani, Masaki

AU - Iwanaga, Toshihiko

AU - Yoshioka, Yoshichika

AU - Sakamoto, Naoya

AU - Yoshimura, Akihiko

AU - Takiguchi, Mitsuyoshi

AU - Sakoda, Saburo

AU - Prinz, Marco

AU - Kamimura, Daisuke

AU - Murakami, Masaaki

N1 - Funding Information: We appreciate the excellent technical assistances provided by Ms. Ezawa, and Ms. Nakayama, and thank Ms. Fukumoto for her excellent assistance. We thank Dr. P Karagiannis (CiRA, Kyoto University, Kyoto, Japan), Dr. T Hirano (QST, Chiba, Japan), Dr. K Tainaka (Niigata University) for carefully reading the manuscript and/or important discussion, respectively. This work was supported by KAKENHI (D K, Y A, and M M), Takeda Science Foundation (M M), Institute for Fermentation Osaka (M M), Mitsubishi Foundation (M M), Mochida Memorial Foundation for Medical and Pharmaceutical Research (D K), Suzuken Memorial Foundation (Y A), Japan Prize Foundation (Y A), Ono Medical Research Foundation (Y A), Kanzawa Medical Research Foundation (Y A), Kishimoto Foundation (Y A), Nagao Takeshi Research Foundation (Y A), Japan Multiple Sclerosis Society (Y A), Kanae Funda-tion (Y A), The Uehara Memorial Fundation (Y A), Japan Brain Fundation (Y A), The Kao Fundation for Arts and Sciences (Y A), Tokyo Medical Research Foundation (M M and Y A), JSPS Postdoctoral Fellowship for Foreign Researchers (A S), and the Joint Usage/Research Promotion Office at Institute for Genetic Medicine, Hokkaido University (M M). We dedicate this manuscript to Drs. H Nakayama, R Fukuhara, and Y Sato (Hyogo Prefectural Amagasaki General Medical Center), who saved Dr. Mur-akami’s life from angina pectoris during its preparation. Publisher Copyright: © Arima et al.

PY - 2017/8/15

Y1 - 2017/8/15

N2 - Impact of stress on diseases including gastrointestinal failure is well-known, but molecular mechanism is not understood. Here we show underlying molecular mechanism using EAE mice. Under stress conditions, EAE caused severe gastrointestinal failure with high-mortality. Mechanistically, autoreactive-pathogenic CD4+ T cells accumulated at specific vessels of boundary area of third-ventricle, thalamus, and dentate-gyrus to establish brain micro-inflammation via stressgateway reflex. Importantly, induction of brain micro-inflammation at specific vessels by cytokine injection was sufficient to establish fatal gastrointestinal failure. Resulting micro-inflammation activated new neural pathway including neurons in paraventricular-nucleus, dorsomedial-nucleus-ofhypothalamus, and also vagal neurons to cause fatal gastrointestinal failure. Suppression of the brain micro-inflammation or blockage of these neural pathways inhibited the gastrointestinal failure. These results demonstrate direct link between brain micro-inflammation and fatal gastrointestinal disease via establishment of a new neural pathway under stress. They further suggest that brain micro-inflammation around specific vessels could be switch to activate new neural pathway(s) to regulate organ homeostasis.

AB - Impact of stress on diseases including gastrointestinal failure is well-known, but molecular mechanism is not understood. Here we show underlying molecular mechanism using EAE mice. Under stress conditions, EAE caused severe gastrointestinal failure with high-mortality. Mechanistically, autoreactive-pathogenic CD4+ T cells accumulated at specific vessels of boundary area of third-ventricle, thalamus, and dentate-gyrus to establish brain micro-inflammation via stressgateway reflex. Importantly, induction of brain micro-inflammation at specific vessels by cytokine injection was sufficient to establish fatal gastrointestinal failure. Resulting micro-inflammation activated new neural pathway including neurons in paraventricular-nucleus, dorsomedial-nucleus-ofhypothalamus, and also vagal neurons to cause fatal gastrointestinal failure. Suppression of the brain micro-inflammation or blockage of these neural pathways inhibited the gastrointestinal failure. These results demonstrate direct link between brain micro-inflammation and fatal gastrointestinal disease via establishment of a new neural pathway under stress. They further suggest that brain micro-inflammation around specific vessels could be switch to activate new neural pathway(s) to regulate organ homeostasis.

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UR - http://www.scopus.com/inward/citedby.url?scp=85027866076&partnerID=8YFLogxK

U2 - 10.7554/eLife.25517

DO - 10.7554/eLife.25517

M3 - Article

C2 - 28809157

AN - SCOPUS:85027866076

VL - 6

JO - eLife

JF - eLife

SN - 2050-084X

M1 - e25517

ER -

Brain Micro-Inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit

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