Role of Acetyltransferase PG1842 in Gingipain Biogenesis in Porphyromonas gingivalis

Porphyromonas gingivalis, the major etiologic agent in adult periodontitis, produces large amounts of proteases that are important for its survival and pathogenesis. The activation/maturation of gingipains, the major proteases, in P. gingivalis involves a complex network of processes which are not yet fully understood. VimA, a putative acetyltransferase and virulence-modulating protein in P. gingivalis, is known to be involved in gingipain biogenesis. P. gingivalis FLL92, a vimA-defective isogenic mutant (vimA::ermF-ermAM) showed late-onset gingipain activity at stationary phase, indicating the likelihood of a complementary functional VimA homolog in that growth phase. This study aimed to identify a functional homolog(s) that may activate the gingipains in the absence of VimA at stationary phase. A bioinformatics analysis showed five putative GCN5-related N-acetyltransferases (GNAT) encoded in the P. gingivalis genome that are structurally related to VimA. Allelic exchange mutagenesis was used to make deletion mutants for these acetyltransferases in the P. gingivalis virnA-defective mutant FLL102 (Delta vimA::ermF) genetic background. One of the mutants, designated P. gingivalis FLL126 (Delta vimA-Delta PG1842), did not show any late-onset gingipain activity at stationary phase compared to that of the parent strain P. gingivalis FLL102. A Western blot analysis of stationary-phase extracellular fractions with antigingipain antibodies showed immunoreactive bands that were similar in size to those for the progingipain species present only in the AvimA-APG1842 isogenic mutant. Both recombinant VimA and PG1842 proteins acetylated Y230, K247, and K248 residues in the pro-RgpB substrate. Collectively, these findings indicate that PG1842 may play a significant role in the activation/maturation of gingipains in P. gingivalis. IMPORTANCE Gingipain proteases are key virulence factors secreted by Porphyromonas gingivalis that cause periodontal tissue damage and the degradation of the host immune system proteins. Gingipains are translated as an inactive zymogen to restrict intracellular proteolytic activity before secretion. Posttranslational processing converts the inactive proenzyme to a catalytically active protease. Gingipain biogenesis, including its secretion and activation, is a complex process which is still not fully understood. One recent study identified acetylated lysine residues in the three gingipains RgpA, RgpB, and Kgp, thus indicating a role for acetylation in gingipain biogenesis. Here, we show that the acetyltransferases VimA and PG1842 can acetylate the proRgpB gingipain species. These findings further indicate that acetylation is a potential mechanism in the gingipain activation/maturation pathway in P. gingivalis.