Functionality of Sortase A in Lactococcus lactis

Lactococcus lactis IL1403 harbors a putative sortase A (SrtA) and 11 putative sortase substrates that carry the canonical LPXTG signature of such substrates. We report here on the functionality of SrtA to anchor five LPXTG substrates to the cell wall, thus suggesting that SrtA is the housekeeping sortase in L. lactis IL1403.The GRAS (generally recognized as safe) status of lactic acid bacteria (LAB) has catalyzed a myriad of promising applications using these bacteria as a vehicle for in situ delivery of bioactive proteins such as antigens or digestive enzymes in the gastrointestinal tract of the human host (4, 26). In the context of therapeutic applications of LAB, a major fundamental goal is to determine whether they can be engineered to deliver bioactive proteins to the right bacterial and host locations. We previously designed a protein-targeting system in LAB that addressed proteins to the desired bacterial site (i.e., cytoplasm, cell wall, or external medium), as validated using a model protein reporter and various antigens (14, 15). Studies investigating the use of LAB as vaccine delivery vehicles suggested that the cell-wall-anchored protein form may possess superior ability to induce a strong immune response (3, 14). Among the various surface display systems described in Gram-positive bacteria (13), a dedicated surface protein anchoring system catalyzed by sortases was first described and characterized in Staphylococcus aureus (29). It covalently anchors proteins via their C-terminal cell wall anchor (CWA) domain to the bacterial peptidoglycan. SrtA-like sortases process proteins bearing an LPXTG C-terminal motif and are considered to be the housekeeping sortase that anchors most proteins harboring a sorting signal (32). Other sortases were subsequently shown to anchor proteins bearing the same or other motifs (11, 16).Surprisingly, while the roles of sortases and LPXTG proteins are well documented in pathogens, few reports have examined these functions in other bacteria. A report suggests a relationship between sortase activity and adhesion of the LAB Lactobacillus salivarius, although direct involvement of sortase was not demonstrated (47). Recently, sortase activity was correlated to assembly of pili and adhesion properties in Lactobacillus rhamnosus (21). To further characterize sortase in LAB, we chose an industrially important member of this bacterial group, Lactococcus lactis, to study sortase A functionality in anchoring its putative substrates on the cell wall.