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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Nature Portfolio
2020
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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) |
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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 |
work_keys_str_mv |
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