Abstract
The gut microbiome (GM), a complex community of bacteria, viruses, protozoa, and fungi located in the gut of humans and animals, plays significant roles in host health and disease. Animal models are widely used to investigate human diseases in biomedical research and the GM within animal models can change due to the impact of many factors, such as the vendor, husbandry, and environment. Notably, variations in GM can contribute to differences in disease model phenotypes, which can result in poor reproducibility in biomedical research. Variation in the gut microbiome can also impact the translatability of animal models. For example, standard lab mice have different pathogen exposure experiences when compared to wild or pet store mice. As humans have antigen experiences that are more similar to the latter, the use of lab mice with more simplified microbiomes may not yield optimally translatable data. Additionally, the literature describes many methods to manipulate the GM and differences between these methods can also result in differing interpretations of outcomes measures. In this review, we focus on the GM as a potential contributor to the poor reproducibility and translatability of mouse models of disease. First, we summarize the important role of GM in host disease and health through different gut–organ axes and the close association between GM and disease susceptibility through colonization resistance, immune response, and metabolic pathways. Then, we focus on the variation in the microbiome in mouse models of disease and address how this variation can potentially impact disease phenotypes and subsequently influence research reproducibility and translatability. We also discuss the variations between genetic substrains as potential factors that cause poor reproducibility via their effects on the microbiome. In addition, we discuss the utility of complex microbiomes in prospective studies and how manipulation of the GM through differing transfer methods can impact model phenotypes. Lastly, we emphasize the need to explore appropriate methods of GM characterization and manipulation.
Highlights
In theIn followfollowing subsections, we review the current knowledge of the of laboratory mice, ing subsections, we review the current knowledge of the gut microbiome (GM) of laboratory mice, and its and its influence on health host health disease susceptibility through colonization resistance, influence on host and and disease susceptibility through colonization resistance, imimmune responses, and metabolic pathways
Considering the important role that the GM plays in host health and disease, differences in the GM between mice could result in a different disease phenotype in a given model, causing poor research reproducibility [76]
A better understanding of each model system can provide an improved study design and overcome the limitations associated with animal models
Summary
The term gut microbiome (GM) refers to the community of all of the microorganisms, including bacteria, viruses (virome), protozoa (protozoome), fungi (mycobiome), and their collective genetic material, that colonize and exist in the guts of all animals [1,2]. Accumulating studies suggest that changes or differences in the GM are associated with numerous intestinal diseases, such as inflammatory bowel disease (IBD) [11,12,13], 4.0/). Accumulating studies suggest that changes or differences in the GM are associated with numerous intestinal diseases, such as inflammatory bowel disease (IBD) [11,12,13], irirritable bowel syndrome syndrome (IBS). 1.1.Gut such as: colonization resistance, host immune response, and metabolism. The commenmensal microbiome plays an essential role in protecting the host from the overgrowth sal microbiome plays an essential role in protecting the host from the overgrowthofof pathobionts, pathobionts,and andthe theinvasion invasionofofforeign foreignpathogenic pathogenicbacterial bacterialand andviral viralinfection, infection,using using different strategies collectively referred to as colonization resistance (CR).
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