Psychological stress disrupts intestinal epithelial cell function and mucosal integrity through microbe and host-directed processes

Psychological stress alters the gut microbiota and predisposes individuals to increased risk for enteric infections and chronic bowel conditions. Intestinal epithelial cells (IECs) are responsible for maintaining homeostatic interactions between the gut microbiota and its host. In this study, we hyp...

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Veröffentlicht in:	Gut microbes 2022-12, Vol.14 (1), p.2035661-2035661
Hauptverfasser:	Allen, Jacob M., Mackos, Amy R., Jaggers, Robert M., Brewster, Patricia C., Webb, Mikaela, Lin, Chia-Hao, Ladaika, Chris, Davies, Ronald, White, Peter, Loman, Brett R., Bailey, Michael T.
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Sprache:	eng
Schlagworte:	Animals brain-gut axis Dual Oxidases Epithelial Cells - microbiology epithelium Gastrointestinal Microbiome Intestinal Mucosa - microbiology Mice microbiome Reactive Oxygen Species Research Paper ROS Stress Stress, Psychological
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creator	Allen, Jacob M. Mackos, Amy R. Jaggers, Robert M. Brewster, Patricia C. Webb, Mikaela Lin, Chia-Hao Ladaika, Chris Davies, Ronald White, Peter Loman, Brett R. Bailey, Michael T.
description	Psychological stress alters the gut microbiota and predisposes individuals to increased risk for enteric infections and chronic bowel conditions. Intestinal epithelial cells (IECs) are responsible for maintaining homeostatic interactions between the gut microbiota and its host. In this study, we hypothesized that disruption to colonic IECs is a key factor underlying stress-induced disturbances to intestinal homeostasis. Conventionally raised (CONV-R) and germ-free (GF) mice were exposed to a social disruption stressor (Str) to ascertain how stress modifies colonic IECs, the mucosal layer, and the gut microbiota. RNA sequencing of IECs isolated from CONV-R mice revealed a robust pro-inflammatory (Saa1, Il18), pro-oxidative (Duox2, Nos2), and antimicrobial (Reg3b/g) transcriptional profile as a result of Str. This response occurred concomitant to mucus layer thinning and signs of microbial translocation. In contrast to their CONV-R counterparts, IECs from GF mice or mice treated with broad spectrum antibiotics exhibited no detectable transcriptional changes in response to Str. Nevertheless, IECs from Str-exposed GF mice exhibited an altered response to ex vivo bacterial challenge (increased dual Oxidase-2 [Duox2] and nitric oxide synthase-2 (Nos2)), indicating that STR primes host IEC pro-oxidative responses. In CONV-R mice stress-induced increases in colonic Duox2 and Nos2 (ROS generating enzymes) strongly paralleled changes to microbiome composition and function, evidencing Str-mediated ROS production as a primary factor mediating gut-microbiota dysbiosis. In conclusion, a mouse model of social stress disrupts colonic epithelial and mucosal integrity, a response dependent on an intact microbiota and host stress signals. Together these preclinical findings may provide new insight into mechanisms of stress-associated bowel pathologies in humans.
doi_str_mv	10.1080/19490976.2022.2035661
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Intestinal epithelial cells (IECs) are responsible for maintaining homeostatic interactions between the gut microbiota and its host. In this study, we hypothesized that disruption to colonic IECs is a key factor underlying stress-induced disturbances to intestinal homeostasis. Conventionally raised (CONV-R) and germ-free (GF) mice were exposed to a social disruption stressor (Str) to ascertain how stress modifies colonic IECs, the mucosal layer, and the gut microbiota. RNA sequencing of IECs isolated from CONV-R mice revealed a robust pro-inflammatory (Saa1, Il18), pro-oxidative (Duox2, Nos2), and antimicrobial (Reg3b/g) transcriptional profile as a result of Str. This response occurred concomitant to mucus layer thinning and signs of microbial translocation. In contrast to their CONV-R counterparts, IECs from GF mice or mice treated with broad spectrum antibiotics exhibited no detectable transcriptional changes in response to Str. Nevertheless, IECs from Str-exposed GF mice exhibited an altered response to ex vivo bacterial challenge (increased dual Oxidase-2 [Duox2] and nitric oxide synthase-2 (Nos2)), indicating that STR primes host IEC pro-oxidative responses. In CONV-R mice stress-induced increases in colonic Duox2 and Nos2 (ROS generating enzymes) strongly paralleled changes to microbiome composition and function, evidencing Str-mediated ROS production as a primary factor mediating gut-microbiota dysbiosis. In conclusion, a mouse model of social stress disrupts colonic epithelial and mucosal integrity, a response dependent on an intact microbiota and host stress signals. 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Intestinal epithelial cells (IECs) are responsible for maintaining homeostatic interactions between the gut microbiota and its host. In this study, we hypothesized that disruption to colonic IECs is a key factor underlying stress-induced disturbances to intestinal homeostasis. Conventionally raised (CONV-R) and germ-free (GF) mice were exposed to a social disruption stressor (Str) to ascertain how stress modifies colonic IECs, the mucosal layer, and the gut microbiota. RNA sequencing of IECs isolated from CONV-R mice revealed a robust pro-inflammatory (Saa1, Il18), pro-oxidative (Duox2, Nos2), and antimicrobial (Reg3b/g) transcriptional profile as a result of Str. This response occurred concomitant to mucus layer thinning and signs of microbial translocation. In contrast to their CONV-R counterparts, IECs from GF mice or mice treated with broad spectrum antibiotics exhibited no detectable transcriptional changes in response to Str. Nevertheless, IECs from Str-exposed GF mice exhibited an altered response to ex vivo bacterial challenge (increased dual Oxidase-2 [Duox2] and nitric oxide synthase-2 (Nos2)), indicating that STR primes host IEC pro-oxidative responses. In CONV-R mice stress-induced increases in colonic Duox2 and Nos2 (ROS generating enzymes) strongly paralleled changes to microbiome composition and function, evidencing Str-mediated ROS production as a primary factor mediating gut-microbiota dysbiosis. In conclusion, a mouse model of social stress disrupts colonic epithelial and mucosal integrity, a response dependent on an intact microbiota and host stress signals. Together these preclinical findings may provide new insight into mechanisms of stress-associated bowel pathologies in humans.</description><subject>Animals</subject><subject>brain-gut axis</subject><subject>Dual Oxidases</subject><subject>Epithelial Cells - microbiology</subject><subject>epithelium</subject><subject>Gastrointestinal Microbiome</subject><subject>Intestinal Mucosa - microbiology</subject><subject>Mice</subject><subject>microbiome</subject><subject>Reactive Oxygen Species</subject><subject>Research Paper</subject><subject>ROS</subject><subject>Stress</subject><subject>Stress, Psychological</subject><issn>1949-0976</issn><issn>1949-0984</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>0YH</sourceid><sourceid>EIF</sourceid><sourceid>DOA</sourceid><recordid>eNp9Uk1v1DAQjRCIVqU_AZQjly127NjxBYEqPipVggOcLWdsJ66cONgO1Z754zjd7Ype8MEezbx5bzR-VfUaoyuMOvQOCyqQ4OyqQU1TLtIyhp9V51t-h0RHn59izs6qy5TuUDmUcsTIy-qMtLijjPPz6s_3tIcx-DA4UL5OOZqUau1SXJecajdnk7KbS8ksLo_GuxKC8b626wzZhblWs66nFUIqlQ0_RJf3dR5jWIexnhzE0JsH1BhS3mkXDWSj6yUGKGImvapeWOWTuTy-F9XPz59-XH_d3X77cnP98XYHLaF5xxnqOGjGNCBhBeIGkOE9Y30DGnVWWIJ6ApZoDR1YTXvWdQQLprHlTa_JRXVz4NVB3ckluknFvQzKyYdEiINUMTvwRhLSU9C90MoQqnTR4xiREiJEkOJQuN4fuJa1n4wGM-eo_BPSp5XZjXIIv2XXsbZpeSF4eySI4ddaliwnl7bFqtmENcmGEcxIS4Uo0PYALZtMKRp7ksFIbn6Qj36Qmx_k0Q-l782_M566Hn-_AD4cAG62IU7qPkSvZVZ7H6KNagaXJPm_xl_iaMoa</recordid><startdate>20221231</startdate><enddate>20221231</enddate><creator>Allen, Jacob M.</creator><creator>Mackos, Amy R.</creator><creator>Jaggers, Robert M.</creator><creator>Brewster, Patricia C.</creator><creator>Webb, Mikaela</creator><creator>Lin, Chia-Hao</creator><creator>Ladaika, Chris</creator><creator>Davies, Ronald</creator><creator>White, Peter</creator><creator>Loman, Brett R.</creator><creator>Bailey, Michael T.</creator><general>Taylor & Francis</general><general>Taylor & Francis Group</general><scope>0YH</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope><scope>DOA</scope></search><sort><creationdate>20221231</creationdate><title>Psychological stress disrupts intestinal epithelial cell function and mucosal integrity through microbe and host-directed processes</title><author>Allen, Jacob M. ; 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Intestinal epithelial cells (IECs) are responsible for maintaining homeostatic interactions between the gut microbiota and its host. In this study, we hypothesized that disruption to colonic IECs is a key factor underlying stress-induced disturbances to intestinal homeostasis. Conventionally raised (CONV-R) and germ-free (GF) mice were exposed to a social disruption stressor (Str) to ascertain how stress modifies colonic IECs, the mucosal layer, and the gut microbiota. RNA sequencing of IECs isolated from CONV-R mice revealed a robust pro-inflammatory (Saa1, Il18), pro-oxidative (Duox2, Nos2), and antimicrobial (Reg3b/g) transcriptional profile as a result of Str. This response occurred concomitant to mucus layer thinning and signs of microbial translocation. In contrast to their CONV-R counterparts, IECs from GF mice or mice treated with broad spectrum antibiotics exhibited no detectable transcriptional changes in response to Str. Nevertheless, IECs from Str-exposed GF mice exhibited an altered response to ex vivo bacterial challenge (increased dual Oxidase-2 [Duox2] and nitric oxide synthase-2 (Nos2)), indicating that STR primes host IEC pro-oxidative responses. In CONV-R mice stress-induced increases in colonic Duox2 and Nos2 (ROS generating enzymes) strongly paralleled changes to microbiome composition and function, evidencing Str-mediated ROS production as a primary factor mediating gut-microbiota dysbiosis. In conclusion, a mouse model of social stress disrupts colonic epithelial and mucosal integrity, a response dependent on an intact microbiota and host stress signals. Together these preclinical findings may provide new insight into mechanisms of stress-associated bowel pathologies in humans.</abstract><cop>United States</cop><pub>Taylor & Francis</pub><pmid>35184677</pmid><doi>10.1080/19490976.2022.2035661</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals brain-gut axis Dual Oxidases Epithelial Cells - microbiology epithelium Gastrointestinal Microbiome Intestinal Mucosa - microbiology Mice microbiome Reactive Oxygen Species Research Paper ROS Stress Stress, Psychological
title	Psychological stress disrupts intestinal epithelial cell function and mucosal integrity through microbe and host-directed processes
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