Expression of E. coli FimH Enhances Trafficking of an Orally Delivered Lactobacillus acidophilus Vaccine to Immune Inductive Sites via Antigen-Presenting Cells.
Allison C VilanderKimberly SheltonAlora LaVoyGregg A DeanPublished in: Vaccines (2023)
The development of lactic acid bacteria as mucosal vaccine vectors requires the identification of robust mucosal adjuvants to increase vaccine effectiveness. The E. coli type I fimbriae adhesion protein FimH is of interest as a mucosal adjuvant as it targets microfold (M) cells enhancing vaccine uptake into Peyer's patches and can activate the innate immune system via Toll-like receptor (TLR) 4 binding. Here, we displayed the N-terminal domain of FimH on the surface of a Lactobacillus acidophilus vaccine vector and evaluated its ability to increase uptake of L. acidophilus into Peyer's patches and activate innate immune responses. FimH was robustly displayed on the L. acidophilus surface but did not increase uptake into the Peyer's patches. FimH did increase trafficking of L. acidophilus to mesenteric lymph nodes by antigen-presenting cells including macrophages and dendritic cells. It also increased transcription of retinaldehyde dehydrogenase and decreased transcription of IL-21 in the Peyer's patches and mesenteric lymph nodes. The N-terminal domain of FimH did not activate TLR4 in vitro, indicating that FimH may stimulate innate immune responses through a not-yet-identified mechanism. These results indicate that E. coli FimH alters the innate immune response to L. acidophilus and should be further studied as an adjuvant for lactic acid bacterial vaccine platforms.
Keyphrases
- immune response
- toll like receptor
- lactic acid
- dendritic cells
- induced apoptosis
- lymph node
- cell cycle arrest
- escherichia coli
- nuclear factor
- inflammatory response
- randomized controlled trial
- transcription factor
- innate immune
- systematic review
- binding protein
- staphylococcus aureus
- poor prognosis
- oxidative stress
- small molecule
- regulatory t cells
- pi k akt
- cell migration
- gene therapy