Epithelial genetic muscarinic receptor 3 ablation induces sex-specific modulation of colonic intestinal progenitor cells and response to intestinal injury
Abstract Background & Aims Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores the sex-specific effects of epithelial genetic M3R ablation...
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| Vydáno v: | Journal of Crohn's and colitis Ročník 19; číslo 6 |
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| Hlavní autoři: | , , , , , , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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UK
Oxford University Press
04.06.2025
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| ISSN: | 1873-9946, 1876-4479, 1876-4479 |
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| Abstract | Abstract
Background & Aims
Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores the sex-specific effects of epithelial genetic M3R ablation and muscarinic receptor agonism on murine colonic Lgr5-EGFP+ progenitor cells and epithelial homeostasis.
Methods
Genetic ablation of M3R was achieved using Vil-Cre × M3R fl/fl mice. The effects on Lgr5-expressing progenitor cells, epithelial homeostasis, and response to intestinal injury were assessed, with attention to sex-specific differences. Effects of cholinergic and muscarinic agonism on epithelial cell homeostasis were evaluated employing murine and human colonoids.
Results
Genetic epithelial ablation of the M3R employing Vil-Cre × M3R fl/fl mice interestingly resulted in the prominent reduction in Lgr5-expressing progenitor cells in male tissues, contrasting an expansion of Lgr5-expressing cells in female colonic epithelia. This difference was abrogated in young female Vil-Cre × M3R fl/fl mice, which harbor reduced circulating sex hormone levels. Genetic M3R ablation further induced changes to epithelial differentiation. Importantly, male Vil-Cre × M3R fl/fl mice developed severe inflammation following induction of acute experimental colitis, which did almost not affect female Vil-Cre × M3R fl/fl mice. Moreover, sex-specific effects of modulations of cholinergic and muscarinic signaling on epithelial cells could be corroborated in murine and human colonoids.
Conclusions
Our data reveal sex differences in the modulation of intestinal, colonic epithelial cells by cholinergic, muscarinic signaling and highlight the potential for therapeutic strategies targeting cholinergic receptor signaling in colonic inflammatory diseases.
Graphical Abstract
Graphical Abstract |
|---|---|
| AbstractList | Abstract
Background & Aims
Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores the sex-specific effects of epithelial genetic M3R ablation and muscarinic receptor agonism on murine colonic Lgr5-EGFP+ progenitor cells and epithelial homeostasis.
Methods
Genetic ablation of M3R was achieved using Vil-Cre × M3R fl/fl mice. The effects on Lgr5-expressing progenitor cells, epithelial homeostasis, and response to intestinal injury were assessed, with attention to sex-specific differences. Effects of cholinergic and muscarinic agonism on epithelial cell homeostasis were evaluated employing murine and human colonoids.
Results
Genetic epithelial ablation of the M3R employing Vil-Cre × M3R fl/fl mice interestingly resulted in the prominent reduction in Lgr5-expressing progenitor cells in male tissues, contrasting an expansion of Lgr5-expressing cells in female colonic epithelia. This difference was abrogated in young female Vil-Cre × M3R fl/fl mice, which harbor reduced circulating sex hormone levels. Genetic M3R ablation further induced changes to epithelial differentiation. Importantly, male Vil-Cre × M3R fl/fl mice developed severe inflammation following induction of acute experimental colitis, which did almost not affect female Vil-Cre × M3R fl/fl mice. Moreover, sex-specific effects of modulations of cholinergic and muscarinic signaling on epithelial cells could be corroborated in murine and human colonoids.
Conclusions
Our data reveal sex differences in the modulation of intestinal, colonic epithelial cells by cholinergic, muscarinic signaling and highlight the potential for therapeutic strategies targeting cholinergic receptor signaling in colonic inflammatory diseases.
Graphical Abstract
Graphical Abstract Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores sex-specific effects of epithelial genetic M3R ablation and muscarinic receptor agonism on murine colonic Lgr5-EGFP+ progenitor cells and epithelial homeostasis.BACKGROUND & AIMSEpithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores sex-specific effects of epithelial genetic M3R ablation and muscarinic receptor agonism on murine colonic Lgr5-EGFP+ progenitor cells and epithelial homeostasis.Genetic ablation of M3R was achieved using Vil-Cre x M3R fl/fl mice. The effects on Lgr5-expressing progenitor cells, epithelial homeostasis and response to intestinal injury were assessed, with attention to sex-specific differences. Effects of cholinergic, muscarinic agonism on epithelial cell homeostasis were evaluated employing murine and human colonoids.METHODSGenetic ablation of M3R was achieved using Vil-Cre x M3R fl/fl mice. The effects on Lgr5-expressing progenitor cells, epithelial homeostasis and response to intestinal injury were assessed, with attention to sex-specific differences. Effects of cholinergic, muscarinic agonism on epithelial cell homeostasis were evaluated employing murine and human colonoids.Genetic epithelial ablation of the M3R employing Vil-Cre x M3R fl/fl mice interestingly resulted in the prominent reduction in Lgr5-expressing progenitor cells in male tissues, contrasting an expansion of Lgr5-expressing cells in female colonic epithelia. This difference showed abrogated in young female Vil-Cre x M3R fl/fl mice, which harbor reduced circulating sex hormone levels. Genetic M3R ablation further induced changes to epithelial differentiation. Importantly, male Vil-Cre x M3R fl/fl mice developed severe inflammation following induction of acute experimental colitis, which did almost not affect female Vil-Cre x M3R fl/fl mice. Moreover, sex-specific effects of modulations of cholinergic, muscarinic signaling on epithelial cells could be corroborated in murine and human colonoids.RESULTSGenetic epithelial ablation of the M3R employing Vil-Cre x M3R fl/fl mice interestingly resulted in the prominent reduction in Lgr5-expressing progenitor cells in male tissues, contrasting an expansion of Lgr5-expressing cells in female colonic epithelia. This difference showed abrogated in young female Vil-Cre x M3R fl/fl mice, which harbor reduced circulating sex hormone levels. Genetic M3R ablation further induced changes to epithelial differentiation. Importantly, male Vil-Cre x M3R fl/fl mice developed severe inflammation following induction of acute experimental colitis, which did almost not affect female Vil-Cre x M3R fl/fl mice. Moreover, sex-specific effects of modulations of cholinergic, muscarinic signaling on epithelial cells could be corroborated in murine and human colonoids.Our data reveal sex differences in the modulation of intestinal, colonic epithelial cells by cholinergic, muscarinic signaling and highlight the potential for therapeutic strategies targeting cholinergic receptor signaling in colonic inflammatory diseases.CONCLUSIONSOur data reveal sex differences in the modulation of intestinal, colonic epithelial cells by cholinergic, muscarinic signaling and highlight the potential for therapeutic strategies targeting cholinergic receptor signaling in colonic inflammatory diseases. Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic homeostasis remains unclear. Hence, this study explores the sex-specific effects of epithelial genetic M3R ablation and muscarinic receptor agonism on murine colonic Lgr5-EGFP+ progenitor cells and epithelial homeostasis. Genetic ablation of M3R was achieved using Vil-Cre × M3R fl/fl mice. The effects on Lgr5-expressing progenitor cells, epithelial homeostasis, and response to intestinal injury were assessed, with attention to sex-specific differences. Effects of cholinergic and muscarinic agonism on epithelial cell homeostasis were evaluated employing murine and human colonoids. Genetic epithelial ablation of the M3R employing Vil-Cre × M3R fl/fl mice interestingly resulted in the prominent reduction in Lgr5-expressing progenitor cells in male tissues, contrasting an expansion of Lgr5-expressing cells in female colonic epithelia. This difference was abrogated in young female Vil-Cre × M3R fl/fl mice, which harbor reduced circulating sex hormone levels. Genetic M3R ablation further induced changes to epithelial differentiation. Importantly, male Vil-Cre × M3R fl/fl mice developed severe inflammation following induction of acute experimental colitis, which did almost not affect female Vil-Cre × M3R fl/fl mice. Moreover, sex-specific effects of modulations of cholinergic and muscarinic signaling on epithelial cells could be corroborated in murine and human colonoids. Our data reveal sex differences in the modulation of intestinal, colonic epithelial cells by cholinergic, muscarinic signaling and highlight the potential for therapeutic strategies targeting cholinergic receptor signaling in colonic inflammatory diseases. |
| Author | Ragab, Mohab Ermolova, Anastasia Wang, Timothy C Quante, Michael Steiger, Katja Schmid, Roland M Wieland, Jessica Middelhoff, Moritz Durner, Niklas Agibalova, Tatiana Maurer, H Carlo Heindl, Fabian Tschurtschenthaler, Markus Hempel, Anneke Janssen, Klaus-Peter Waldherr Avila de Melo, Caroline |
| Author_xml | – sequence: 1 givenname: Mohab surname: Ragab fullname: Ragab, Mohab – sequence: 2 givenname: Jessica surname: Wieland fullname: Wieland, Jessica – sequence: 3 givenname: Caroline surname: Waldherr Avila de Melo fullname: Waldherr Avila de Melo, Caroline – sequence: 4 givenname: Tatiana surname: Agibalova fullname: Agibalova, Tatiana – sequence: 5 givenname: Anastasia surname: Ermolova fullname: Ermolova, Anastasia – sequence: 6 givenname: Niklas surname: Durner fullname: Durner, Niklas – sequence: 7 givenname: Anneke surname: Hempel fullname: Hempel, Anneke – sequence: 8 givenname: Fabian surname: Heindl fullname: Heindl, Fabian – sequence: 9 givenname: H Carlo surname: Maurer fullname: Maurer, H Carlo – sequence: 10 givenname: Katja surname: Steiger fullname: Steiger, Katja – sequence: 11 givenname: Klaus-Peter surname: Janssen fullname: Janssen, Klaus-Peter – sequence: 12 givenname: Markus orcidid: 0000-0002-0060-4790 surname: Tschurtschenthaler fullname: Tschurtschenthaler, Markus – sequence: 13 givenname: Timothy C surname: Wang fullname: Wang, Timothy C – sequence: 14 givenname: Michael surname: Quante fullname: Quante, Michael – sequence: 15 givenname: Roland M surname: Schmid fullname: Schmid, Roland M – sequence: 16 givenname: Moritz orcidid: 0000-0001-8425-3985 surname: Middelhoff fullname: Middelhoff, Moritz email: moritz.middelhoff@mri.tum.de |
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| Copyright | The Author(s) 2025. Published by Oxford University Press on behalf of European Crohn’s and Colitis Organisation. 2025 The Author(s) 2025. Published by Oxford University Press on behalf of European Crohn’s and Colitis Organisation. |
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| Keywords | epithelial muscarinic receptor 3 colonic progenitor cells colitis |
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Background & Aims
Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet... Epithelial muscarinic acetylcholine receptor subtype 3 (M3R) signaling modulates intestinal stem and progenitor cell function, yet its impact on colonic... |
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| SubjectTerms | Animals Colitis - genetics Colitis - metabolism Colitis - pathology Colon - cytology Colon - metabolism Colon - pathology Disease Models, Animal Female Humans Intestinal Mucosa - cytology Intestinal Mucosa - metabolism Intestinal Mucosa - pathology Male Mice Muscarinic Agonists - pharmacology Receptor, Muscarinic M3 - genetics Receptor, Muscarinic M3 - metabolism Receptors, G-Protein-Coupled - metabolism Sex Factors Stem Cells - metabolism |
| Title | Epithelial genetic muscarinic receptor 3 ablation induces sex-specific modulation of colonic intestinal progenitor cells and response to intestinal injury |
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