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

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...

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Autores principales: Arima, Yasunobu, Ohki, Takuto, Nishikawa, Naoki, Higuchi, Kotaro, Ota, Mitsutoshi, Tanaka, Yuki, Nio-Kobayashi, Junko, Elfeky, Mohamed, Sakai, Ryota, Mori, Yuki, Kawamoto, Tadafumi, Stofkova, Andrea, Sakashita, Yukihiro, Morimoto, Yuji, Kuwatani, Masaki, Iwanaga, Toshihiko, Yoshioka, Yoshichika, Sakamoto, Naoya, Yoshimura, Akihiko, Takiguchi, Mitsuyoshi, Sakoda, Saburo, Prinz, Marco, Kamimura, Daisuke, Murakami, Masaaki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2017
Materias:
Immunology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5557598/
https://www.ncbi.nlm.nih.gov/pubmed/28809157
http://dx.doi.org/10.7554/eLife.25517
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author Arima, Yasunobu
Ohki, Takuto
Nishikawa, Naoki
Higuchi, Kotaro
Ota, Mitsutoshi
Tanaka, Yuki
Nio-Kobayashi, Junko
Elfeky, Mohamed
Sakai, Ryota
Mori, Yuki
Kawamoto, Tadafumi
Stofkova, Andrea
Sakashita, Yukihiro
Morimoto, Yuji
Kuwatani, Masaki
Iwanaga, Toshihiko
Yoshioka, Yoshichika
Sakamoto, Naoya
Yoshimura, Akihiko
Takiguchi, Mitsuyoshi
Sakoda, Saburo
Prinz, Marco
Kamimura, Daisuke
Murakami, Masaaki
author_facet Arima, Yasunobu
Ohki, Takuto
Nishikawa, Naoki
Higuchi, Kotaro
Ota, Mitsutoshi
Tanaka, Yuki
Nio-Kobayashi, Junko
Elfeky, Mohamed
Sakai, Ryota
Mori, Yuki
Kawamoto, Tadafumi
Stofkova, Andrea
Sakashita, Yukihiro
Morimoto, Yuji
Kuwatani, Masaki
Iwanaga, Toshihiko
Yoshioka, Yoshichika
Sakamoto, Naoya
Yoshimura, Akihiko
Takiguchi, Mitsuyoshi
Sakoda, Saburo
Prinz, Marco
Kamimura, Daisuke
Murakami, Masaaki
author_sort Arima, Yasunobu
collection PubMed
description 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 stress-gateway 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-of-hypothalamus, 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. DOI: http://dx.doi.org/10.7554/eLife.25517.001
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spelling pubmed-55575982017-08-21 Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit Arima, Yasunobu Ohki, Takuto Nishikawa, Naoki Higuchi, Kotaro Ota, Mitsutoshi Tanaka, Yuki Nio-Kobayashi, Junko Elfeky, Mohamed Sakai, Ryota Mori, Yuki Kawamoto, Tadafumi Stofkova, Andrea Sakashita, Yukihiro Morimoto, Yuji Kuwatani, Masaki Iwanaga, Toshihiko Yoshioka, Yoshichika Sakamoto, Naoya Yoshimura, Akihiko Takiguchi, Mitsuyoshi Sakoda, Saburo Prinz, Marco Kamimura, Daisuke Murakami, Masaaki eLife Immunology 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 stress-gateway 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-of-hypothalamus, 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. DOI: http://dx.doi.org/10.7554/eLife.25517.001 eLife Sciences Publications, Ltd 2017-08-15 /pmc/articles/PMC5557598/ /pubmed/28809157 http://dx.doi.org/10.7554/eLife.25517 Text en © 2017, Arima et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Immunology
Arima, Yasunobu
Ohki, Takuto
Nishikawa, Naoki
Higuchi, Kotaro
Ota, Mitsutoshi
Tanaka, Yuki
Nio-Kobayashi, Junko
Elfeky, Mohamed
Sakai, Ryota
Mori, Yuki
Kawamoto, Tadafumi
Stofkova, Andrea
Sakashita, Yukihiro
Morimoto, Yuji
Kuwatani, Masaki
Iwanaga, Toshihiko
Yoshioka, Yoshichika
Sakamoto, Naoya
Yoshimura, Akihiko
Takiguchi, Mitsuyoshi
Sakoda, Saburo
Prinz, Marco
Kamimura, Daisuke
Murakami, Masaaki
Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title_full Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title_fullStr Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title_full_unstemmed Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title_short Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
title_sort brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit
topic Immunology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5557598/
https://www.ncbi.nlm.nih.gov/pubmed/28809157
http://dx.doi.org/10.7554/eLife.25517
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