Abstract
AbstractZebrafish is a valuable model for neuroscience research, but the housing conditions to which it is daily exposed may be impairing its welfare status. The use of environmental enrichment and the refinement of methodology for cortisol measurement could reduce stress, improving its welfare and its suitability as an animal model used in stress research. Thus, this study aimed to evaluate (I) the influence of different housing conditions on zebrafish physiology and behavior and (II) skin mucus potential for cortisol measurement in adult zebrafish. For this, AB zebrafish were raised under barren or enriched (PVC pipes and gravel image) environmental conditions. After 6 months, the behavior was assessed by different behavioral paradigms (shoaling, white-black box test, and novel tank). The physiological response was also evaluated through cortisol levels (whole-body homogenates and skin mucus) and brain oxidative stress markers. Results revealed that enriched-housed fish had an increased nearest neighbors’ distance and reduced activity. However, no effect on body length or stress biomarkers was observed; whole-body and skin mucus cortisol levels had the same profile between groups. In conclusion, this study highlights the skin mucus potential as a matrix for cortisol quantification and how environmental enrichment could influence the data in future studies.Simple SummaryThe delivery of proper housing conditions may translate into good fish welfare. As zebrafish housing is usually poorly enriched, the fish could be unable to express some natural behaviors, leading to distress and/ or stress mechanisms’ dysregulation. This work focused on the examination of zebrafish welfare raised under different housing conditions (barren or environmentally enriched) and the testing of a low-invasive technique (skin mucus collection) to measure the main stress hormone (cortisol). The data was processed to assess body length, behavior, and physiological status. Results revealed that enrichment induced minor alterations on zebrafish behavior. Thus, the influence of housing conditions should be considered in future research, depending on the purpose of the study. Also, skin mucus appears to be a promising matrix to replace whole-body to measure cortisol in zebrafish, since its collection is nonlethal and showed similar results to the traditional method.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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