AI Article Synopsis
- Researchers have struggled for decades to find an effective treatment for Gulf War Illness (GWI), primarily due to the complex and variable symptoms and challenges of accurately modeling the illness in mice.
- A new study developed a humanized-mouse model using a double engraftment strategy with a human immune system and microbiome, showing significant changes in gut microbiota and immune responses similar to those found in GWI veterans.
- This innovative model may enhance our understanding of how gut health affects immune interactions in GWI, paving the way for potential future therapies.
Article Abstract
Unraveling the multisymptomatic Gulf War Illness (GWI) pathology and finding an effective cure have eluded researchers for decades. The chronic symptom persistence and limitations for studying the etiologies in mouse models that differ significantly from those in humans pose challenges for drug discovery and finding effective therapeutic regimens. The GWI exposome differs significantly in the study cohorts, and the above makes it difficult to recreate a model closely resembling the GWI symptom pathology. We have used a double engraftment strategy for reconstituting a human immune system coupled with human microbiome transfer to create a humanized-mouse model for GWI. Using whole-genome shotgun sequencing and blood immune cytokine enzyme linked immunosorbent assay (ELISA), we show that our double humanized mice treated with Gulf War (GW) chemicals show significantly altered gut microbiomes, similar to those reported in a Veteran cohort of GWI. The results also showed similar cytokine profiles, such as increased levels of IL-1β, IL-6, and TNF R-1, in the double humanized model, as found previously in a human cohort. Further, a novel GWI Veteran fecal microbiota transfer was used to create a second alternative model that closely resembled the microbiome and immune-system-associated pathology of a GWI Veteran. A GWI Veteran microbiota transplant in humanized mice showed a human microbiome reconstitution and a systemic inflammatory pathology, as reflected by increases in interleukins 1β, 6, 8 (IL-1β, IL-6, IL-8), tumor necrosis factor receptor 1 (TNF R-1), and endotoxemia. In conclusion, though preliminary, we report a novel in vivo model with a human microbiome reconstitution and an engrafted human immune phenotype that may help to better understand gut-immune interactions in GWI.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11172868 | PMC |
| http://dx.doi.org/10.3390/ijms25116093 | DOI Listing |
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