Homeostatic Regulation of ROS-Triggered Hippo-Yki Pathway via Autophagic Clearance of Ref(2)P/p62 in the Drosophila Intestine

Hiroki Nagai; Hiroshi Tatara; Kyoko Tanaka-Furuhashi; Shoichiro Kurata; Tamaki Yano

doi:10.1016/j.devcel.2020.12.007

Homeostatic Regulation of ROS-Triggered Hippo-Yki Pathway via Autophagic Clearance of Ref(2)P/p62 in the Drosophila Intestine

Hiroki Nagai, Hiroshi Tatara, Kyoko Tanaka-Furuhashi, Shoichiro Kurata, Tamaki Yano

薬学研究科・生命薬科学専攻

研究成果: Article › 査読

14 被引用数 (Scopus)

抄録

Homeostasis of intestinal epithelia is maintained by coordination of the proper rate of regeneration by stem cell division with the rate of cell loss. Regeneration of host epithelia is normally quiescent upon colonization of commensal bacteria; however, the epithelia often develop dysplasia in a context-dependent manner, the cause and underlying mechanism of which remain unclear. Here, we show that in Drosophila intestine, autophagy lowers the sensitivity of differentiated enterocytes to reactive oxygen species (ROS) that are produced in response to commensal bacteria. We find that autophagy deficiency provokes ROS-dependent excessive regeneration and subsequent epithelial dysplasia and barrier dysfunction. Mechanistically, autophagic substrate Ref(2)P/p62, which co-localizes and physically interacts with Dachs, a Hippo signaling regulator, accumulates upon autophagy deficiency and thus inactivates Hippo signaling, resulting in stem cell over-proliferation non-cell autonomously. Our findings uncover a mechanism whereby suppression of undesirable regeneration by autophagy maintains long-term homeostasis of intestinal epithelia.

本文言語	English
ページ（範囲）	81-94.e10
ジャーナル	Developmental cell
巻	56
号	1
DOI	https://doi.org/10.1016/j.devcel.2020.12.007
出版ステータス	Published - 2021 1月 11

ASJC Scopus subject areas

分子生物学
生化学、遺伝学、分子生物学（全般）
発生生物学
細胞生物学

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10.1016/j.devcel.2020.12.007

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@article{9f9dc24e6f044368aa6b377fd1d04e9d,

title = "Homeostatic Regulation of ROS-Triggered Hippo-Yki Pathway via Autophagic Clearance of Ref(2)P/p62 in the Drosophila Intestine",

abstract = "Homeostasis of intestinal epithelia is maintained by coordination of the proper rate of regeneration by stem cell division with the rate of cell loss. Regeneration of host epithelia is normally quiescent upon colonization of commensal bacteria; however, the epithelia often develop dysplasia in a context-dependent manner, the cause and underlying mechanism of which remain unclear. Here, we show that in Drosophila intestine, autophagy lowers the sensitivity of differentiated enterocytes to reactive oxygen species (ROS) that are produced in response to commensal bacteria. We find that autophagy deficiency provokes ROS-dependent excessive regeneration and subsequent epithelial dysplasia and barrier dysfunction. Mechanistically, autophagic substrate Ref(2)P/p62, which co-localizes and physically interacts with Dachs, a Hippo signaling regulator, accumulates upon autophagy deficiency and thus inactivates Hippo signaling, resulting in stem cell over-proliferation non-cell autonomously. Our findings uncover a mechanism whereby suppression of undesirable regeneration by autophagy maintains long-term homeostasis of intestinal epithelia.",

keywords = "Dachs, Drosophila, Hippo pathway, ROS autophagy, Ref(2)P/p62, commensal bacteria, host-microbe interaction, intestinal barrier, regenerative responses",

author = "Hiroki Nagai and Hiroshi Tatara and Kyoko Tanaka-Furuhashi and Shoichiro Kurata and Tamaki Yano",

note = "Funding Information: We would like to thank Lucy E. O{\textquoteright}Brien, Shigeo Hayashi, Xiankun Zeng, Thomas Neufeld, Darren W. Williams, Won-Jae Lee, Jin Jiang, Akira Goto, Didier Contamins, Bruce Edgar, and Yohanns Bella{\"i}che, Bloomington Drosophila Stock Center, Kyoto Stock Center, and Vienna Drosophila Resource Center for fly stocks, Mikio Furuse, Richard G. Fehon and Developmental Studies Hybridoma Bank for antibodies, Won-Jae Lee for bacteria strains, and Yu-Ichiro Nakajima for comments on this manuscript. This research was supported by MEXT KAKENHI grant number 26111502 , JSPS KAKENHI grant numbers 16K08226 , 16H05084 , 24390014 , and 21249004 , and the Funding Program for Next Generation World-Leading Researchers ( LS011 ), the Naito Foundation , the Takeda Science Foundation , the Mitsubishi Foundation , and Tohoku University Center for Gender Equality Promotion (TUMUG) Support Project. H.N. is a recipient of a Research Fellowship of the JSPS ( 16J02727 ), and a Grant-in Aid of Tohoku University , Division for Interdisciplinary Advanced Research and Education . Publisher Copyright: {\textcopyright} 2020 Elsevier Inc.",

year = "2021",

month = jan,

day = "11",

doi = "10.1016/j.devcel.2020.12.007",

language = "English",

volume = "56",

pages = "81--94.e10",

journal = "Developmental Cell",

issn = "1534-5807",

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T1 - Homeostatic Regulation of ROS-Triggered Hippo-Yki Pathway via Autophagic Clearance of Ref(2)P/p62 in the Drosophila Intestine

AU - Nagai, Hiroki

AU - Tatara, Hiroshi

AU - Tanaka-Furuhashi, Kyoko

AU - Kurata, Shoichiro

AU - Yano, Tamaki

N1 - Funding Information: We would like to thank Lucy E. O’Brien, Shigeo Hayashi, Xiankun Zeng, Thomas Neufeld, Darren W. Williams, Won-Jae Lee, Jin Jiang, Akira Goto, Didier Contamins, Bruce Edgar, and Yohanns Bellaïche, Bloomington Drosophila Stock Center, Kyoto Stock Center, and Vienna Drosophila Resource Center for fly stocks, Mikio Furuse, Richard G. Fehon and Developmental Studies Hybridoma Bank for antibodies, Won-Jae Lee for bacteria strains, and Yu-Ichiro Nakajima for comments on this manuscript. This research was supported by MEXT KAKENHI grant number 26111502 , JSPS KAKENHI grant numbers 16K08226 , 16H05084 , 24390014 , and 21249004 , and the Funding Program for Next Generation World-Leading Researchers ( LS011 ), the Naito Foundation , the Takeda Science Foundation , the Mitsubishi Foundation , and Tohoku University Center for Gender Equality Promotion (TUMUG) Support Project. H.N. is a recipient of a Research Fellowship of the JSPS ( 16J02727 ), and a Grant-in Aid of Tohoku University , Division for Interdisciplinary Advanced Research and Education . Publisher Copyright: © 2020 Elsevier Inc.

PY - 2021/1/11

Y1 - 2021/1/11

N2 - Homeostasis of intestinal epithelia is maintained by coordination of the proper rate of regeneration by stem cell division with the rate of cell loss. Regeneration of host epithelia is normally quiescent upon colonization of commensal bacteria; however, the epithelia often develop dysplasia in a context-dependent manner, the cause and underlying mechanism of which remain unclear. Here, we show that in Drosophila intestine, autophagy lowers the sensitivity of differentiated enterocytes to reactive oxygen species (ROS) that are produced in response to commensal bacteria. We find that autophagy deficiency provokes ROS-dependent excessive regeneration and subsequent epithelial dysplasia and barrier dysfunction. Mechanistically, autophagic substrate Ref(2)P/p62, which co-localizes and physically interacts with Dachs, a Hippo signaling regulator, accumulates upon autophagy deficiency and thus inactivates Hippo signaling, resulting in stem cell over-proliferation non-cell autonomously. Our findings uncover a mechanism whereby suppression of undesirable regeneration by autophagy maintains long-term homeostasis of intestinal epithelia.

AB - Homeostasis of intestinal epithelia is maintained by coordination of the proper rate of regeneration by stem cell division with the rate of cell loss. Regeneration of host epithelia is normally quiescent upon colonization of commensal bacteria; however, the epithelia often develop dysplasia in a context-dependent manner, the cause and underlying mechanism of which remain unclear. Here, we show that in Drosophila intestine, autophagy lowers the sensitivity of differentiated enterocytes to reactive oxygen species (ROS) that are produced in response to commensal bacteria. We find that autophagy deficiency provokes ROS-dependent excessive regeneration and subsequent epithelial dysplasia and barrier dysfunction. Mechanistically, autophagic substrate Ref(2)P/p62, which co-localizes and physically interacts with Dachs, a Hippo signaling regulator, accumulates upon autophagy deficiency and thus inactivates Hippo signaling, resulting in stem cell over-proliferation non-cell autonomously. Our findings uncover a mechanism whereby suppression of undesirable regeneration by autophagy maintains long-term homeostasis of intestinal epithelia.

KW - Dachs

KW - Drosophila

KW - Hippo pathway

KW - ROS autophagy

KW - Ref(2)P/p62

KW - commensal bacteria

KW - host-microbe interaction

KW - intestinal barrier

KW - regenerative responses

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U2 - 10.1016/j.devcel.2020.12.007

DO - 10.1016/j.devcel.2020.12.007

M3 - Article

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AN - SCOPUS:85098936072

SN - 1534-5807

VL - 56

SP - 81-94.e10

JO - Developmental Cell

JF - Developmental Cell

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