Identifying ligand-binding specificity of the oligopeptide receptor OppA from Bifidobacterium longum KACC91563 by structure-based molecular modeling

As a ATP-binding cassette (ABC) transporter the OppA receptor plays key roles in protecting the host organism and transporting nutrients across the intestine by the oligopeptide transporter from symbiotic bacteria and directs maturation of the host immune system. Among lactic acid bacteria, Bifidobacterium longum KACC91563, isolated from fecal samples of healthy Korean neonates, has the capability to alleviate food allergy effects. Operating as a peptide importer, the extracellular OppA receptor from gram-positive B. longum KACC91563 translocates nutrients, specifically peptides, from the outside environment of the intestinal tract to the inside of symbiotic cells. In the present study we attempt to explicate the relationship between the substrate’s specificity from the OppA importer and the probiotic effects of B. longum KACC91563 in the host intestine. It was first identified in this study the specialized structure–function relationship from the OppA importer of B. longum KACC91563 with its structural and functional determinants. This could provide insights into substrate specificity of unique immunological properties and a key switch for the substrate’s metabolism to reprogramming immune responses in the host intestine by structure-based molecular modeling. The probiotic effects of oligopeptide substrate (such as a proline-rich peptide containing at least one branched residue of leucine, isoleucine, and valine) and its metabolism for the OppA from B. longum KACC91563 are attributed to enhancement of the epithelial barrier by several different strain specific pathways to prevent the strong adhesion of pathogens.