Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes

Abstract Background Environmental enrichment (EE) is commonly included as an important component of animal housing to promote well being of laboratory animals; however, much remains to be learned about the impact of chewable forms of EE on experimental outcomes in the context of nutritional and micr...

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Main Authors: Mark Wulczynski, Stephen P. J. Brooks, Judy Green, Fernando Matias, Martin Kalmokoff, Julia M. Green-Johnson, Sandra T. Clarke
Format: Article
Language:English
Published: BMC 2025-01-01
Series:Animal Microbiome
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Online Access:https://doi.org/10.1186/s42523-024-00369-6
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author Mark Wulczynski
Stephen P. J. Brooks
Judy Green
Fernando Matias
Martin Kalmokoff
Julia M. Green-Johnson
Sandra T. Clarke
author_facet Mark Wulczynski
Stephen P. J. Brooks
Judy Green
Fernando Matias
Martin Kalmokoff
Julia M. Green-Johnson
Sandra T. Clarke
author_sort Mark Wulczynski
collection DOAJ
description Abstract Background Environmental enrichment (EE) is commonly included as an important component of animal housing to promote well being of laboratory animals; however, much remains to be learned about the impact of chewable forms of EE on experimental outcomes in the context of nutritional and microbiome-related studies, and whether outcomes differ between sexes. In the present study, nylon chew bones (gnaw sticks, GS) were evaluated for their effects on fermentation profiles, microbial community structure, and cytokine profiles of gastrointestinal and systemic tissues in pair-housed female and male Sprague Dawley (SD) rats. Results Food consumption and weight gain were not significantly altered by access to GS. Cecal short-chain fatty acid and branched-chain fatty acid profiles significantly differed between sexes in rats with access to GS, and alpha diversity of the microbiome decreased in females provided GS. Sex-related tissue cytokine profiles also significantly differed between rats with and without access to GS. Conclusions These findings indicate that including GS can influence microbiota and immune-related parameters, in a sex dependent manner. This shows that environmental enrichment strategies need to be clearly reported in publications to properly evaluate and compare experimental results, especially with respect to the use of chewable EE in the context of studies examining diet, microbiome and immune parameters.
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institution Kabale University
issn 2524-4671
language English
publishDate 2025-01-01
publisher BMC
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series Animal Microbiome
spelling doaj-art-5a8b52edf2dc4ec5b90a41b8306241692025-02-02T12:44:17ZengBMCAnimal Microbiome2524-46712025-01-017111510.1186/s42523-024-00369-6Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexesMark Wulczynski0Stephen P. J. Brooks1Judy Green2Fernando Matias3Martin Kalmokoff4Julia M. Green-Johnson5Sandra T. Clarke6Applied Bioscience Graduate Program, Faculty of Science, Ontario Tech UniversityBureau of Nutritional Sciences, Health CanadaBureau of Nutritional Sciences, Health CanadaBureau of Nutritional Sciences, Health CanadaKentville Research and Development Centre, Agriculture and Agri-Food CanadaApplied Bioscience Graduate Program, Faculty of Science, Ontario Tech UniversityApplied Bioscience Graduate Program, Faculty of Science, Ontario Tech UniversityAbstract Background Environmental enrichment (EE) is commonly included as an important component of animal housing to promote well being of laboratory animals; however, much remains to be learned about the impact of chewable forms of EE on experimental outcomes in the context of nutritional and microbiome-related studies, and whether outcomes differ between sexes. In the present study, nylon chew bones (gnaw sticks, GS) were evaluated for their effects on fermentation profiles, microbial community structure, and cytokine profiles of gastrointestinal and systemic tissues in pair-housed female and male Sprague Dawley (SD) rats. Results Food consumption and weight gain were not significantly altered by access to GS. Cecal short-chain fatty acid and branched-chain fatty acid profiles significantly differed between sexes in rats with access to GS, and alpha diversity of the microbiome decreased in females provided GS. Sex-related tissue cytokine profiles also significantly differed between rats with and without access to GS. Conclusions These findings indicate that including GS can influence microbiota and immune-related parameters, in a sex dependent manner. This shows that environmental enrichment strategies need to be clearly reported in publications to properly evaluate and compare experimental results, especially with respect to the use of chewable EE in the context of studies examining diet, microbiome and immune parameters.https://doi.org/10.1186/s42523-024-00369-6Gnaw sticksEnvironmental enrichmentRatGut microbiomeCytokinesNutrition
spellingShingle Mark Wulczynski
Stephen P. J. Brooks
Judy Green
Fernando Matias
Martin Kalmokoff
Julia M. Green-Johnson
Sandra T. Clarke
Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
Animal Microbiome
Gnaw sticks
Environmental enrichment
Rat
Gut microbiome
Cytokines
Nutrition
title Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
title_full Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
title_fullStr Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
title_full_unstemmed Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
title_short Environmental enrichment with nylon gnaw sticks introduces variation in Sprague Dawley rat immune and lower gastrointestinal parameters with differences between sexes
title_sort environmental enrichment with nylon gnaw sticks introduces variation in sprague dawley rat immune and lower gastrointestinal parameters with differences between sexes
topic Gnaw sticks
Environmental enrichment
Rat
Gut microbiome
Cytokines
Nutrition
url https://doi.org/10.1186/s42523-024-00369-6
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