High fat diet changes bacterial signatures in the murine pancreas

Abstract

Hyperglycemia is caused by failure of pancreatic beta cells. Beta-cell inflammation contributes to beta-cell dysfunction, however (primary) immunogenic triggers are in large unknown. The gut microbiota is one potential source of pro-inflammatory molecules. A high-fat diet treatment increases pro-inflammatory bacteria in the gut microbiome, parts of which could migrate to the pancreatic beta-cell. In the present study, the bacterial DNA signature in the pancreas and intestine of C57BL6/J mice was analyzed. Mice were fed a high-fat diet (60% kcal fat) or a regular chow diet for 12 weeks. We took several precautions to avoid and map contamination. The gut microbiota was affected by high-fat diet as following: We observed several common intestinal ASVs in the pancreatic tissue. Although the pancreatic ASVs do not correlate exactly with the gut ASVs, our data implicate that the pancreas contains bacterial DNA and that this signature is altered in high-fat diet fed mice (PERMONOVA, p = 0.037; betadisper, p=0.029). Gut derived bacterial DNA might end up in the pancreas at some point in time. Hence, this work supports the concept of translocation of bacterial DNA to the pancreas, which might contribute to inflammation and dysfunction of pancreatic beta-cells.