Utilizing a reductionist model to study host-microbe interactions in intestinal inflammation

The gut microbiome is altered in patients with inflammatory bowel disease, yet how these alterations contribute to intestinal inflammation is poorly understood. Murine models have demonstrated the importance of the microbiome in colitis since colitis fails to develop in many genetically susceptible...

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Bibliographic Details
Published in:Microbiome 2021-11, Vol.9 (1), p.215-215, Article 215
Main Authors: Tsou, Amy M, Goettel, Jeremy A, Bao, Bin, Biswas, Amlan, Kang, Yu Hui, Redhu, Naresh S, Peng, Kaiyue, Putzel, Gregory G, Saltzman, Jeffrey, Kelly, Ryan, Gringauz, Jordan, Barends, Jared, Hatazaki, Mai, Frei, Sandra M, Emani, Rohini, Huang, Ying, Shen, Zeli, Fox, James G, Glickman, Jonathan N, Horwitz, Bruce H, Snapper, Scott B
Format: Article
Language:English
Subjects:
Age
Animal models
Animals
Bacteria
Colitis
Colitis - microbiology
Colon
Defined consortium
Design
Disease
Disease Models, Animal
Feces
Germfree
Gut microbiota
Helicobacter
Helicobacter - genetics
Host Microbial Interactions
Humans
Immune dysregulation
Immune system
Immunogenicity
Immunology
Inflammation
Inflammatory bowel disease
Inflammatory bowel diseases
Intestinal inflammation
Intestinal microflora
Intestine
Lipocalin
Lymphocytes
Mice
Microbiomes
Microbiota
Mucosa
Pathobiont
Relative abundance
Reproductive fitness
Rodents
Transcription
Transcriptomics
Wiskott-Aldrich syndrome
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Summary:The gut microbiome is altered in patients with inflammatory bowel disease, yet how these alterations contribute to intestinal inflammation is poorly understood. Murine models have demonstrated the importance of the microbiome in colitis since colitis fails to develop in many genetically susceptible animal models when re-derived into germ-free environments. We have previously shown that Wiskott-Aldrich syndrome protein (WASP)-deficient mice (Was ) develop spontaneous colitis, similar to human patients with loss-of-function mutations in WAS. Furthermore, we showed that the development of colitis in Was mice is Helicobacter dependent. Here, we utilized a reductionist model coupled with multi-omics approaches to study the role of host-microbe interactions in intestinal inflammation. Was mice colonized with both altered Schaedler flora (ASF) and Helicobacter developed colitis, while those colonized with either ASF or Helicobacter alone did not. In Was mice, Helicobacter relative abundance was positively correlated with fecal lipocalin-2 (LCN2), a marker of intestinal inflammation. In contrast, WT mice colonized with ASF and Helicobacter were free of inflammation and strikingly, Helicobacter relative abundance was negatively correlated with LCN2. In Was colons, bacteria breach the mucus layer, and the mucosal relative abundance of ASF457 Mucispirillum schaedleri was positively correlated with fecal LCN2. Meta-transcriptomic analyses revealed that ASF457 had higher expression of genes predicted to enhance fitness and immunogenicity in Was compared to WT mice. In contrast, ASF519 Parabacteroides goldsteinii's relative abundance was negatively correlated with LCN2 in Was mice, and transcriptional analyses showed lower expression of genes predicted to facilitate stress adaptation by ASF519 in Was compared to WT mice. These studies indicate that the effect of a microbe on the immune system can be context dependent, with the same bacteria eliciting a tolerogenic response under homeostatic conditions but promoting inflammation in immune-dysregulated hosts. Furthermore, in inflamed environments, some bacteria up-regulate genes that enhance their fitness and immunogenicity, while other bacteria are less able to adapt and decrease in abundance. These findings highlight the importance of studying host-microbe interactions in different contexts and considering how the transcriptional profile and fitness of bacteria may change in different hosts when developing microbiota-ba
ISSN:2049-2618
2049-2618
DOI:10.1186/s40168-021-01161-3