Beschreibung
Additional mechanistic data on the interplay between butyrate, FFAR3 signaling, and mitochondrial dynamics in intestinal epithelial cells are presented. The findings support a role for short-chain fatty acid receptors in maintaining epithelial homeostasis.
Figure 9
ChartSource Paper
Butyrate reduces adherent-invasive E. coli-evoked disruption of epithelial mitochondrial morphology and barrier function: involvement of free fatty acid receptor 3.Cite This Figure
![Figure 9: Additional mechanistic data on the interplay between butyrate, FFAR3 signaling, and mitochondrial dynamics in intestinal epithelial cells are presented. The findings support a role for short-chain fatty acid receptors in maintaining epithelial homeostasis.]() > Source: Samira A Hamed et al. "Butyrate reduces adherent-invasive E. coli-evoked disruption of epithelial mitoc." *Gut microbes*, 2023. PMID: [38078655](https://pubmed.ncbi.nlm.nih.gov/38078655/)
<figure> <img src="" alt="Additional mechanistic data on the interplay between butyrate, FFAR3 signaling, and mitochondrial dynamics in intestinal epithelial cells are presented. The findings support a role for short-chain fatty acid receptors in maintaining epithelial homeostasis." /> <figcaption>Figure 9. Additional mechanistic data on the interplay between butyrate, FFAR3 signaling, and mitochondrial dynamics in intestinal epithelial cells are presented. The findings support a role for short-chain fatty acid receptors in maintaining epithelial homeostasis.<br> Source: Samira A Hamed et al. "Butyrate reduces adherent-invasive E. coli-evoked disruption of epithelial mitoc." <em>Gut microbes</em>, 2023. PMID: <a href="https://pubmed.ncbi.nlm.nih.gov/38078655/">38078655</a></figcaption> </figure>