EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis

Camilla M. Reehorst; Rebecca Nightingale; Ian Y. Luk; Laura Jenkins; Frank Koentgen; David S. Williams; Charbel Darido; Fiona Tan; Holly Anderton; Michael Chopin; Kael Schoffer; Moritz F. Eissmann; Michael Buchert; Dmitri Mouradov; Oliver M. Sieber; Matthias Ernst; Amardeep S. Dhillon; John M. Mariadason

doi:10.1242/dev.199542

EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis

Camilla M. Reehorst, Rebecca Nightingale, Ian Y. Luk, Laura Jenkins, Frank Koentgen, David S. Williams, Charbel Darido, Fiona Tan, Holly Anderton, Michael Chopin, Kael Schoffer, Moritz F. Eissmann, Michael Buchert, Dmitri Mouradov, Oliver M. Sieber, Matthias Ernst, Amardeep S. Dhillon, John M. Mariadason

Biochemistry & Molecular Biology

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

14 Citations (Scopus)

Abstract

Ets homologous factor (EHF) is a member of the epithelial-specific Ets (ESE) family of transcription factors. To investigate its role in development and epithelial homeostasis, we generated a series of novel mouse strains in which the Ets DNA-binding domain of Ehf was deleted in all tissues (Ehf−/⁻) or specifically in the gut epithelium. Ehf−/− mice were born at the expected Mendelian ratio, but showed reduced body weight gain, and developed a series of pathologies requiring most Ehf−/− mice to reach an ethical endpoint before reaching 1 year of age. These included papillomas in the facial skin, abscesses in the preputial glands (males) or vulvae (females), and corneal ulcers. Ehf−/−mice also displayed increased susceptibility to experimentally induced colitis, which was confirmed in intestinal-specific Ehf knockout mice. Gut-specific Ehf deletion also impaired goblet cell differentiation, induced extensive transcriptional reprogramming in the colonic epithelium and enhanced Apc-initiated adenoma development. The Ets DNA-binding domain of EHF is therefore essential for postnatal homeostasis of the epidermis and colonic epithelium, and its loss promotes colonic tumour development.

Original language	English
Article number	dev199542
Number of pages	10
Journal	Development
Volume	148
Issue number	12
DOIs	https://doi.org/10.1242/dev.199542
Publication status	Published - Jun 2021

Keywords

Adenoma
Colon
Differentiation
EHF
Epidermis
Epithelium
Ets

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Reehorst, C. M., Nightingale, R., Luk, I. Y., Jenkins, L., Koentgen, F., Williams, D. S., Darido, C., Tan, F., Anderton, H., Chopin, M., Schoffer, K., Eissmann, M. F., Buchert, M., Mouradov, D., Sieber, O. M., Ernst, M., Dhillon, A. S., & Mariadason, J. M. (2021). EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis. Development, 148(12), Article dev199542. https://doi.org/10.1242/dev.199542

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title = "EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis",

abstract = "Ets homologous factor (EHF) is a member of the epithelial-specific Ets (ESE) family of transcription factors. To investigate its role in development and epithelial homeostasis, we generated a series of novel mouse strains in which the Ets DNA-binding domain of Ehf was deleted in all tissues (Ehf−/−) or specifically in the gut epithelium. Ehf−/− mice were born at the expected Mendelian ratio, but showed reduced body weight gain, and developed a series of pathologies requiring most Ehf−/− mice to reach an ethical endpoint before reaching 1 year of age. These included papillomas in the facial skin, abscesses in the preputial glands (males) or vulvae (females), and corneal ulcers. Ehf−/−mice also displayed increased susceptibility to experimentally induced colitis, which was confirmed in intestinal-specific Ehf knockout mice. Gut-specific Ehf deletion also impaired goblet cell differentiation, induced extensive transcriptional reprogramming in the colonic epithelium and enhanced Apc-initiated adenoma development. The Ets DNA-binding domain of EHF is therefore essential for postnatal homeostasis of the epidermis and colonic epithelium, and its loss promotes colonic tumour development.",

keywords = "Adenoma, Colon, Differentiation, EHF, Epidermis, Epithelium, Ets",

author = "Reehorst, {Camilla M.} and Rebecca Nightingale and Luk, {Ian Y.} and Laura Jenkins and Frank Koentgen and Williams, {David S.} and Charbel Darido and Fiona Tan and Holly Anderton and Michael Chopin and Kael Schoffer and Eissmann, {Moritz F.} and Michael Buchert and Dmitri Mouradov and Sieber, {Oliver M.} and Matthias Ernst and Dhillon, {Amardeep S.} and Mariadason, {John M.}",

note = "Funding Information: This project was supported by a National Health and Medical Research Council project grant (GNT1107831), by National Health and Medical Research Council Fellowships to J.M.M. (GNT1046092), O.M.S. (GNT1136119) and M.E. (GNT1079257/GNT1173814), and by the Operational Infrastructure Support Program, Victorian Government, Australia. Publisher Copyright: {\textcopyright} 2021. Published by The Company of Biologists Ltd",

year = "2021",

month = jun,

doi = "10.1242/dev.199542",

language = "English",

volume = "148",

journal = "Development",

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Reehorst, CM, Nightingale, R, Luk, IY, Jenkins, L, Koentgen, F, Williams, DS, Darido, C, Tan, F, Anderton, H, Chopin, M, Schoffer, K, Eissmann, MF, Buchert, M, Mouradov, D, Sieber, OM, Ernst, M, Dhillon, AS & Mariadason, JM 2021, 'EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis', Development, vol. 148, no. 12, dev199542. https://doi.org/10.1242/dev.199542

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T1 - EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis

AU - Reehorst, Camilla M.

AU - Nightingale, Rebecca

AU - Luk, Ian Y.

AU - Jenkins, Laura

AU - Koentgen, Frank

AU - Williams, David S.

AU - Darido, Charbel

AU - Tan, Fiona

AU - Anderton, Holly

AU - Chopin, Michael

AU - Schoffer, Kael

AU - Eissmann, Moritz F.

AU - Buchert, Michael

AU - Mouradov, Dmitri

AU - Sieber, Oliver M.

AU - Ernst, Matthias

AU - Dhillon, Amardeep S.

AU - Mariadason, John M.

N1 - Funding Information: This project was supported by a National Health and Medical Research Council project grant (GNT1107831), by National Health and Medical Research Council Fellowships to J.M.M. (GNT1046092), O.M.S. (GNT1136119) and M.E. (GNT1079257/GNT1173814), and by the Operational Infrastructure Support Program, Victorian Government, Australia. Publisher Copyright: © 2021. Published by The Company of Biologists Ltd

PY - 2021/6

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N2 - Ets homologous factor (EHF) is a member of the epithelial-specific Ets (ESE) family of transcription factors. To investigate its role in development and epithelial homeostasis, we generated a series of novel mouse strains in which the Ets DNA-binding domain of Ehf was deleted in all tissues (Ehf−/−) or specifically in the gut epithelium. Ehf−/− mice were born at the expected Mendelian ratio, but showed reduced body weight gain, and developed a series of pathologies requiring most Ehf−/− mice to reach an ethical endpoint before reaching 1 year of age. These included papillomas in the facial skin, abscesses in the preputial glands (males) or vulvae (females), and corneal ulcers. Ehf−/−mice also displayed increased susceptibility to experimentally induced colitis, which was confirmed in intestinal-specific Ehf knockout mice. Gut-specific Ehf deletion also impaired goblet cell differentiation, induced extensive transcriptional reprogramming in the colonic epithelium and enhanced Apc-initiated adenoma development. The Ets DNA-binding domain of EHF is therefore essential for postnatal homeostasis of the epidermis and colonic epithelium, and its loss promotes colonic tumour development.

AB - Ets homologous factor (EHF) is a member of the epithelial-specific Ets (ESE) family of transcription factors. To investigate its role in development and epithelial homeostasis, we generated a series of novel mouse strains in which the Ets DNA-binding domain of Ehf was deleted in all tissues (Ehf−/−) or specifically in the gut epithelium. Ehf−/− mice were born at the expected Mendelian ratio, but showed reduced body weight gain, and developed a series of pathologies requiring most Ehf−/− mice to reach an ethical endpoint before reaching 1 year of age. These included papillomas in the facial skin, abscesses in the preputial glands (males) or vulvae (females), and corneal ulcers. Ehf−/−mice also displayed increased susceptibility to experimentally induced colitis, which was confirmed in intestinal-specific Ehf knockout mice. Gut-specific Ehf deletion also impaired goblet cell differentiation, induced extensive transcriptional reprogramming in the colonic epithelium and enhanced Apc-initiated adenoma development. The Ets DNA-binding domain of EHF is therefore essential for postnatal homeostasis of the epidermis and colonic epithelium, and its loss promotes colonic tumour development.

KW - Adenoma

KW - Colon

KW - Differentiation

KW - EHF

KW - Epidermis

KW - Epithelium

KW - Ets

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U2 - 10.1242/dev.199542

DO - 10.1242/dev.199542

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SN - 0950-1991

VL - 148

JO - Development

JF - Development

IS - 12

M1 - dev199542

ER -

EHF is essential for epidermal and colonic epithelial homeostasis, and suppresses Apc-initiated colonic tumorigenesis

Abstract

Keywords

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