A37 POSTBIOTIC BACTERIAL MEMBRANE VESICLES FROM B. SUBTILIS DELIVER NOD2 LIGANDS AND PROMOTE IN VITRO WOUND RE-EPITHLIALIZATION THROUGH RIPK2 SIGNALING
L Baerg, D Philpott, R Mahadevan

TL;DR
This study shows that bacterial membrane vesicles from B. subtilis can deliver NOD2 ligands and promote wound healing in intestinal cells through RIPK2 signaling.
Contribution
The first demonstration that B. subtilis-derived membrane vesicles deliver NOD2 ligands and enhance epithelial regeneration via RIPK2 signaling.
Findings
B. subtilis membrane vesicles induce IL8 and CXCL1 expression in a NOD2-dependent manner.
MVs promote in vitro wound re-epithelialization, which is blocked by RIPK2 inhibition.
Wound healing is enhanced by synergistic PAMPs and requires RIPK2 signaling.
Abstract
Bacterial membrane vesicles (MVs) are bilipid nanoparticles secreted as a conserved method of intercellular communication. MVs from Gram-positive bacteria carry diverse bacterial products and represent a unique opportunity in the growing field of postbiotics. This native machinery for mediating microbe-host interactions makes MVs a promising tool for intestinal drug delivery in the context of Crohn’s disease (CD). CD is a chronic inflammatory bowel disease characterized by relapsing inflammation of the digestive tract. CD is associated with (1) loss of function mutations in the host gene encoding the nuclear-binding oligomerization domain 2 (NOD2) pattern recognition receptor and (2) a gut microbiome with reduced capabilities to generate NOD2 stimulating muropeptides from peptidoglycan. Nod2-/- mice have decreased barrier integrity and impaired epithelial restitution upon challenge.…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
Taxonomy
TopicsMicrobial Fuel Cells and Bioremediation · Graphene and Nanomaterials Applications · Cancer Research and Treatments
