Porphyromonas gingivalis secretes endopeptidase gingipains, which are important virulence factors of this bacterium. Gingipains are transported across the inner membrane via the Sec system, followed by transport across the outer membrane via an unidentified pathway. The latter transport step is suggested to be mediated via a novel protein secretion pathway. In the present study, we report a novel candidate as an essential factor for the latter transport step. The PG0027 gene of P. gingivalis W83 encodes novel protein PG27. In a PG0027 deletion mutant (83K10), the activities of Arg-gingipain and Lys-gingipain were severely reduced, while the activities of secreted exopeptidases DPPIV, DPP-7, and PTP-A were unaffected. Protein localization was investigated by cell-surface biotinylation, subcellular fractionation, and immunoblot analysis. In the wild-type W83, Arg-gingipains in membrane fraction were detected as cell surface proteins. In contrast, in 83K10, Arg-gingipains were trapped in the periplasm and hardly secreted into an extracellular milieu. PG27 was suggested to be exposed to the cell surface by a cell surface biotinylation experiment; however, PG27 was detected in both inner and outer membrane fractions by subcellular fractionation experiments. Taken together, we suggest that PG27 is a unique membrane protein essential for a novel secretion pathway.
PG27 is required for secretion of virulence factor gingipains, and has recently been proposed as LptO, which is involved in O-deacylation of lipopolysaccharide. In the present study, a predicted 14 anti-parallel β-strand structure of PG27 was ascertained. Deletion study showed that the region from Asp382 to the C-terminal His391 of PG27 is dispensable for the function of PG27. Analysis of C-terminal deletion mutants revealed that the region in strand S14 (Asn369-Gly385) is important for activity. Of the gingipain-defective mutants, ΔThr378-His391 and ΔPhe377-His391 produced amounts of PG27 comparable to those produced by wild-type cells, suggesting that Thr378-Phe381 contains essential residues for the function of PG27. In contrast, ΔPhe381-His391, ΔAla380-His391, ΔLeu379-His391 and ΔArg376-His391 produced no detectable PG27. The defects of the ΔAla380-His391 mutant were suppressed by changing either Ala346 or Ala359 of PG27 to valine. Importantly, Ala346 and Ala359 are located close to Leu379 in the structural model of PG27. A359V compensated for the instability of PG27, but not the gingipain-defective phenotypes, of other deletion mutants tested, suggesting that Ala380 and Phe381 of PG27 are important for the stability of PG27. Lastly, we found that the C-terminal region of PG27 may be located in the periplasm. Taken together, these findings fit well with a predicted β-barrel structure model for PG27, and show that strand S14 is important for its function.
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