TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling

The molecular mechanisms that regulate intestinal Clu+ revival stem cells (revSCs) and their niche to enable regeneration in response to injury are unclear. Here, the authors show that mice without the phospholipid transport protein, TNFAIP8, causes less revSCs to be induced following injury.

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Autores principales: Jason R. Goldsmith, Nina Spitofsky, Ali Zamani, Ryan Hood, Amanda Boggs, Xinyuan Li, Mingyue Li, Elizabeth Reiner, Arshad Ayyaz, Zienab Etwebi, Ling Lu, Javier Rivera Guzman, Mayassa J. Bou-Dargham, Terry Cathoupolis, Hakon Hakonarson, Honghong Sun, Jeffrey L. Wrana, Michael V. Gonzalez, Youhai H. Chen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/e9560ffe66084f55bbdf91c1bdc498c6
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spelling oai:doaj.org-article:e9560ffe66084f55bbdf91c1bdc498c62021-12-02T15:45:30ZTNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling10.1038/s41467-020-16379-22041-1723https://doaj.org/article/e9560ffe66084f55bbdf91c1bdc498c62020-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-16379-2https://doaj.org/toc/2041-1723The molecular mechanisms that regulate intestinal Clu+ revival stem cells (revSCs) and their niche to enable regeneration in response to injury are unclear. Here, the authors show that mice without the phospholipid transport protein, TNFAIP8, causes less revSCs to be induced following injury.Jason R. GoldsmithNina SpitofskyAli ZamaniRyan HoodAmanda BoggsXinyuan LiMingyue LiElizabeth ReinerArshad AyyazZienab EtwebiLing LuJavier Rivera GuzmanMayassa J. Bou-DarghamTerry CathoupolisHakon HakonarsonHonghong SunJeffrey L. WranaMichael V. GonzalezYouhai H. ChenNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-20 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Jason R. Goldsmith
Nina Spitofsky
Ali Zamani
Ryan Hood
Amanda Boggs
Xinyuan Li
Mingyue Li
Elizabeth Reiner
Arshad Ayyaz
Zienab Etwebi
Ling Lu
Javier Rivera Guzman
Mayassa J. Bou-Dargham
Terry Cathoupolis
Hakon Hakonarson
Honghong Sun
Jeffrey L. Wrana
Michael V. Gonzalez
Youhai H. Chen
TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
description The molecular mechanisms that regulate intestinal Clu+ revival stem cells (revSCs) and their niche to enable regeneration in response to injury are unclear. Here, the authors show that mice without the phospholipid transport protein, TNFAIP8, causes less revSCs to be induced following injury.
format article
author Jason R. Goldsmith
Nina Spitofsky
Ali Zamani
Ryan Hood
Amanda Boggs
Xinyuan Li
Mingyue Li
Elizabeth Reiner
Arshad Ayyaz
Zienab Etwebi
Ling Lu
Javier Rivera Guzman
Mayassa J. Bou-Dargham
Terry Cathoupolis
Hakon Hakonarson
Honghong Sun
Jeffrey L. Wrana
Michael V. Gonzalez
Youhai H. Chen
author_facet Jason R. Goldsmith
Nina Spitofsky
Ali Zamani
Ryan Hood
Amanda Boggs
Xinyuan Li
Mingyue Li
Elizabeth Reiner
Arshad Ayyaz
Zienab Etwebi
Ling Lu
Javier Rivera Guzman
Mayassa J. Bou-Dargham
Terry Cathoupolis
Hakon Hakonarson
Honghong Sun
Jeffrey L. Wrana
Michael V. Gonzalez
Youhai H. Chen
author_sort Jason R. Goldsmith
title TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
title_short TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
title_full TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
title_fullStr TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
title_full_unstemmed TNFAIP8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced Akt signaling
title_sort tnfaip8 controls murine intestinal stem cell homeostasis and regeneration by regulating microbiome-induced akt signaling
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/e9560ffe66084f55bbdf91c1bdc498c6
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