Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection

Mousumi Mahapatro; Sebastian Foersch; Manuela Hefele; Gui Wei He; Elisa Giner-Ventura; Tamar Mchedlidze; Markus Kindermann; Stefania Vetrano; Silvio Danese; Claudia Günther; Markus F. Neurath; Stefan Wirtz; Christoph Becker

doi:10.1016/j.celrep.2016.04.049

Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection

Mousumi Mahapatro, Sebastian Foersch, Manuela Hefele, Gui Wei He, Elisa Giner-Ventura, Tamar Mchedlidze, Markus Kindermann, Stefania Vetrano, Silvio Danese, Claudia Günther, Markus F. Neurath, Stefan Wirtz, Christoph Becker

Istituto Clinico Humanitas

Research output: Contribution to journal › Article › peer-review

Abstract

The intestinal epithelium constitutes an efficient barrier against the microbial flora. Here, we demonstrate an unexpected function of IL-33 as a regulator of epithelial barrier functions. Mice lacking IL-33 showed decreased Paneth cell numbers and lethal systemic infection in response to Salmonella typhimurium. IL-33 was produced upon microbial challenge by a distinct population of pericryptal fibroblasts neighboring the intestinal stem cell niche. IL-33 programmed the differentiation of epithelial progenitors toward secretory IEC including Paneth and goblet cells. Finally, IL-33 suppressed Notch signaling in epithelial cells and induced expression of transcription factors governing differentiation into secretory IEC. In summary, we demonstrate that gut pericryptal fibroblasts release IL-33 to translate bacterial infection into an epithelial response to promote antimicrobial defense.

Original language	English
Pages (from-to)	1743-1756
Number of pages	14
Journal	Cell Reports
Volume	15
Issue number	8
DOIs	https://doi.org/10.1016/j.celrep.2016.04.049
Publication status	Published - May 24 2016

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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Mahapatro, M., Foersch, S., Hefele, M., He, G. W., Giner-Ventura, E., Mchedlidze, T., Kindermann, M., Vetrano, S., Danese, S., Günther, C., Neurath, M. F., Wirtz, S., & Becker, C. (2016). Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection. Cell Reports, 15(8), 1743-1756. https://doi.org/10.1016/j.celrep.2016.04.049

Mahapatro, M, Foersch, S, Hefele, M, He, GW, Giner-Ventura, E, Mchedlidze, T, Kindermann, M, Vetrano, S, Danese, S, Günther, C, Neurath, MF, Wirtz, S & Becker, C 2016, 'Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection', Cell Reports, vol. 15, no. 8, pp. 1743-1756. https://doi.org/10.1016/j.celrep.2016.04.049

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title = "Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection",

abstract = "The intestinal epithelium constitutes an efficient barrier against the microbial flora. Here, we demonstrate an unexpected function of IL-33 as a regulator of epithelial barrier functions. Mice lacking IL-33 showed decreased Paneth cell numbers and lethal systemic infection in response to Salmonella typhimurium. IL-33 was produced upon microbial challenge by a distinct population of pericryptal fibroblasts neighboring the intestinal stem cell niche. IL-33 programmed the differentiation of epithelial progenitors toward secretory IEC including Paneth and goblet cells. Finally, IL-33 suppressed Notch signaling in epithelial cells and induced expression of transcription factors governing differentiation into secretory IEC. In summary, we demonstrate that gut pericryptal fibroblasts release IL-33 to translate bacterial infection into an epithelial response to promote antimicrobial defense.",

author = "Mousumi Mahapatro and Sebastian Foersch and Manuela Hefele and He, {Gui Wei} and Elisa Giner-Ventura and Tamar Mchedlidze and Markus Kindermann and Stefania Vetrano and Silvio Danese and Claudia G{\"u}nther and Neurath, {Markus F.} and Stefan Wirtz and Christoph Becker",

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doi = "10.1016/j.celrep.2016.04.049",

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AU - Mahapatro, Mousumi

AU - Foersch, Sebastian

AU - Hefele, Manuela

AU - He, Gui Wei

AU - Giner-Ventura, Elisa

AU - Mchedlidze, Tamar

AU - Kindermann, Markus

AU - Vetrano, Stefania

AU - Danese, Silvio

AU - Günther, Claudia

AU - Neurath, Markus F.

AU - Wirtz, Stefan

AU - Becker, Christoph

PY - 2016/5/24

Y1 - 2016/5/24

N2 - The intestinal epithelium constitutes an efficient barrier against the microbial flora. Here, we demonstrate an unexpected function of IL-33 as a regulator of epithelial barrier functions. Mice lacking IL-33 showed decreased Paneth cell numbers and lethal systemic infection in response to Salmonella typhimurium. IL-33 was produced upon microbial challenge by a distinct population of pericryptal fibroblasts neighboring the intestinal stem cell niche. IL-33 programmed the differentiation of epithelial progenitors toward secretory IEC including Paneth and goblet cells. Finally, IL-33 suppressed Notch signaling in epithelial cells and induced expression of transcription factors governing differentiation into secretory IEC. In summary, we demonstrate that gut pericryptal fibroblasts release IL-33 to translate bacterial infection into an epithelial response to promote antimicrobial defense.

AB - The intestinal epithelium constitutes an efficient barrier against the microbial flora. Here, we demonstrate an unexpected function of IL-33 as a regulator of epithelial barrier functions. Mice lacking IL-33 showed decreased Paneth cell numbers and lethal systemic infection in response to Salmonella typhimurium. IL-33 was produced upon microbial challenge by a distinct population of pericryptal fibroblasts neighboring the intestinal stem cell niche. IL-33 programmed the differentiation of epithelial progenitors toward secretory IEC including Paneth and goblet cells. Finally, IL-33 suppressed Notch signaling in epithelial cells and induced expression of transcription factors governing differentiation into secretory IEC. In summary, we demonstrate that gut pericryptal fibroblasts release IL-33 to translate bacterial infection into an epithelial response to promote antimicrobial defense.

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Programming of Intestinal Epithelial Differentiation by IL-33 Derived from Pericryptal Fibroblasts in Response to Systemic Infection

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