Rosmarinic Acid Attenuates <i>Salmonella enteritidis</i>-Induced Inflammation via Regulating TLR9/NF-κB Signaling Pathway and Intestinal Microbiota
<i>Salmonella enteritidis</i> (<i>SE</i>) infection disrupts the homeostasis of the intestinal microbiota, causing an intestinal inflammatory response and posing a great threat to human and animal health. The unreasonable use of antibiotics has led to an increase in the preva...
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| Main Authors: | , , , , , , , , |
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| Format: | Book |
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MDPI AG,
2024-10-01T00:00:00Z.
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| Summary: | <i>Salmonella enteritidis</i> (<i>SE</i>) infection disrupts the homeostasis of the intestinal microbiota, causing an intestinal inflammatory response and posing a great threat to human and animal health. The unreasonable use of antibiotics has led to an increase in the prevalence of drug-resistant <i>SE</i>, increasing the difficulty of controlling <i>SE</i>. Therefore, new drug strategies and research are urgently needed to control <i>SE</i>. Rosmarinic acid (RA) is a natural phenolic acid with various pharmacological activities, including antioxidant, anti-inflammatory and antibacterial properties. However, the protective effects and mechanism of RA on intestinal inflammation and the gut microbial disorders caused by <i>SE</i> have not been fully elucidated. In this study, RAW264.7 cells, MCECs and BALB/c mice were challenged with <i>SE</i> to assess the protective effects and mechanisms of RA. The results showed that RA enhanced the phagocytic ability of RAW264.7 cells, reduced the invasion and adhesion ability of <i>SE</i> in MCECs, and inhibited <i>SE</i>-induced inflammation in cells. Moreover, RA inhibited the activation of the NF-κB signaling pathway by upregulating TLR9 expression. Importantly, we found that RA provided protection against <i>SE</i> and increased the diversity and abundance of the intestinal microbiota in mice. Compared with infection control, RA significantly increased the abundance of <i>Firmicutes</i> and <i>Acidibacteria</i> and decreased the abundance of <i>Proteobacteria</i>, <i>Epsilonbacteraeota</i> and <i>Bacteroidota</i>. However, RA failed to alleviate <i>SE</i>-induced inflammation and lost its regulatory effects on the TLR9/NF-κB signaling pathway after destroying the gut microbiota with broad-spectrum antibiotics. These results indicated that RA attenuated <i>SE</i>-induced inflammation by regulating the TLR9/NF-κB signaling pathway and maintaining the homeostasis of the gut microbiota. Our study provides a new strategy for preventing <i>SE</i>-induced intestinal inflammation. |
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| Item Description: | 10.3390/antiox13101265 2076-3921 |