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Differential Sensitivity to Plasmodium yoelii Infection in C57BL/6 Mice Impacts Gut-Liver Axis Homeostasis. | LitMetric

AI Article Synopsis

  • Experimental models reveal that specific Plasmodium infections can disrupt gut microbiota and shorten intestines in mice, indicating loss of gut balance.
  • Severe malaria leads to significant changes in the gut-liver axis, with higher immune cell influx and distinct metabolomic profiles compared to mild infections.
  • Additionally, severe infections result in more liver damage and altered gut bile acids, while enhancing bacterial motility and amino acid metabolism in the microbiota, potentially increasing enteric bacteremia risks.

Article Abstract

Experimental models of malaria have shown that infection with specific Plasmodium species in certain mouse strains can transiently modulate gut microbiota and cause intestinal shortening, indicating a disruption of gut homeostasis. Importantly, changes in gut homeostasis have not been characterized in the context of mild versus severe malaria. We show that severe Plasmodium infection in mice disrupts homeostasis along the gut-liver axis in multiple ways compared to mild infection. High parasite burden results in a larger influx of immune cells in the lamina propria and mice with high parasitemia display specific metabolomic profiles in the ceca and plasma during infection compared to mice with mild parasitemia. Liver damage was also more pronounced and longer lasting during severe infection, with concomitant changes in bile acids in the gut. Finally, severe Plasmodium infection changes the functional capacity of the microbiota, enhancing bacterial motility and amino acid metabolism in mice with high parasite burden compared to a mild infection. Taken together, Plasmodium infections have diverse effects on host gut homeostasis relative to the severity of infection that may contribute to enteric bacteremia that is associated with malaria.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6401097PMC
http://dx.doi.org/10.1038/s41598-019-40266-6DOI Listing

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