Exopeptidases and gingipains in Porphyromonas gingivalis as prerequisites for its amino acid metabolism

Porphyromonas gingivalis, an asaccharolytic bacterium, utilizes amino acids as energy and carbon sources. Since amino acids are incorporated into the bacterial cells mainly as di- and tri-peptides, exopeptidases including dipeptidyl-peptidase (DPP) and tripeptidyl-peptidase are considered to be prerequisite components for their metabolism. We recently discovered DPP11, DPP5, and acylpeptidyl oligopeptidase in addition to previously reported DPP4, DPP7, and prolyl tripeptidyl peptidase A. DPP11 is a novel enzyme specific for acidic P1 residues (Asp and Glu) and distributed ubiquitously in eubacteria, while DPP5 is preferential for the hydrophobic P1 residue and the first entity identified in prokaryotes. Recently, acylpeptidyl oligopeptidase with a preference for hydrophobic P1 residues was found to release N-terminally blocked di- and tri-peptides. Furthermore, we also demonstrated that gingipains R and K contribute to P1-basic dipeptide production. These observations implicate that most, if not all, combinations of di- and tri-peptides are produced from extracellular oligopeptides even with an N-terminal modification. Here, we review P. gingivalis exopeptidases mainly in regard to their enzymatic characteristics. These exopeptidases with various substrate specificities benefit P. gingivalis for obtaining energy and carbon sources from the nutritionally limited subgingival environment

Characterization of bacterial acylpeptidyl-oligopeptidase

Acylpeptidyl-oligopeptidase (AOP), which has been recently identified as a novel enzyme in a periodontopathic bacterium, Porphyromonas gingivalis, removes di- and tri-peptides from N-terminally acylated polypeptides, with a preference for hydrophobic P1-position amino acid residues. To validate enzymatic properties of AOP, characteristics of two bacterial orthologues from Bacteroides dorei (BdAOP), a Gramnegative intestinal rod, and Lysinibacillus sphaericus (LsAOP), a Gram-positive soil rod, were determined. Like P. gingivalis AOP (PgAOP), two orthologues more efficiently hydrolyzed N-terminal acylated peptidyl substrates than non-acylated ones. Optimal pH was shifted from 7.0 ? 8.9 for N-acylated to 8.5 ? 9.5 for non-acylated substrates, indicating preference for non-charged hydrophobic N-terminal residues. Hydrophobic P1- and P2-position preferences were common in the three AOPs, although PgAOP preferred Leu and the others preferred Phe at the P1 position. In vitro mutagenesis demonstrated that Phe647 in PgAOP was responsible for the P1 Leu preference. In addition, bacterial AOPs commonly liberated acetyl-Ser1-Tyr2 from amelanocyte-stimulating hormone. Taken together, although these three bacterial AOPs exhibited some variations in biochemical properties, the present study demonstrated the existence of a group of exopeptidases that preferentially liberates mainly dipeptides from N-terminally acylated polypeptides with a preference for hydrophobic P1 and P2-position residues

皮下埋没縫合および皮下閉鎖式陰圧ドレーン挿入による、回腸人工肛門閉鎖術後創部感染の減少効果について

Purpose: The purpose of this study was to evaluate the effectiveness of a wound closure method using a combination of subcuticular sutures and subcutaneous closed-suction drainage (SS closure) for preventing incisional surgical site infection (SSI) in loop ileostomy closure. Methods: A total of 178 consecutive patients who underwent loop ileostomy closure at Nara Medical University Hospital between 2004 and 2018 were retrospectively assessed. The patients were divided into 2 groups: the conventional skin closure (CC) group from 2004 to 2009 (75 patients) and the SS closure (SS) group from 2010 to 2018 (103 patients). The incidence of incisional SSI was compared between the two groups, and the factors associated with incisional SSI were examined by univariate and multivariate analyses. Results: Incisional SSI occurred in 7 cases (9.3%) in the CC group but was significantly reduced to only 1 case (0.9%) in the SS group (p = 0.034). In the univariate analysis, the hemoglobin levels, serum creatinine levels, and SS closure were associated with incisional SSI. SS closure was the only independent preventive factor for incisional SSI according to the multivariate analysis (hazard ratio = 0.24, p = 0.011). Conclusion: The combination of subcuticular sutures and subcutaneous closed-suction drainage may be a promising way of preventing incisional SSI in loop ileostomy closure.博士（医学）・乙第1496号・令和3年3月15日© Springer Nature Singapore Pte Ltd. 2020This is a post-peer-review, pre-copyedit version of an article published in Surgery today. The final authenticated version is available online at: https://doi.org/10.1007/s00595-020-02128-x

Establishment of potent and specific synthetic substrate for dipeptidyl-peptidase 7

Bacterial dipeptidyl-peptidase (DPP) 7 liberates a dipeptide with a preference for aliphatic and aromatic penultimate residues from the N-terminus. Although synthetic substrates are useful for activity measurements, those currently used are problematic, because they are more efficiently degraded by DPP5. We here aimed to develop a potent and specific substrate and found that the kcat/Km value for Phe-Met-methylcoumaryl-7-amide (MCA) (41.40?±?0.83?μM?1?s?1) was highest compared to Met-Leu-, Leu-Leu-, and Phe-Leu-MCA (1.06?3.77?μM?1?s?1). Its hydrolyzing activity was abrogated in a Porphyromonas gingivalis dpp7-knockout strain. Conclusively, we propose Phe-Met-MCA as an ideal synthetic substrate for DPP7

Characterization of substrate specificity and novel autoprocessing mechanism of dipeptidase A from Prevotella intermedia

Prevotella intermedia, a gram-negative anaerobic rod, is frequently observed in subgingival polymicrobial biofilm from adults with chronic periodontitis. Peptidases in periodontopathic bacteria are considered to function as etiological reagents. Pre. intermedia OMA14 cells abundantly express an unidentified cysteine peptidase specific for Arg-4-methycoumaryl-7- amide (MCA). BAU17746 (locus tag, PIOMA14_I_1238) and BAU18827 (locus tag, PIOMA14_II_0322) emerged as candidates of this peptidase from the substrate specificity and sequence similarity with C69-family Streptococcus gordonii Arg-aminopeptidase. The recombinant form of the former solely exhibited hydrolyzing activity toward Arg-MCA, and BAU17746 possesses a 26.6% amino acid identity with the C69-family Lactobacillus helveticus dipeptidase A. It was found that BAU17746 as well as L. helveticus dipeptidase A was a P1-position Arg-specific dipeptidase A, although the L. helveticus entity, a representative of the C69 family, had been reported to be specific for Leu and Phe. The fulllength form of BAU17746 was intramolecularly processed to a mature form carrying the N-terminus of Cys15. In conclusion, the marked Arg-MCA-hydrolyzing activity in Pre. intermedia was mediated by BAU17746 belonging to the C69-family dipeptidase A, in which the mature form carries an essential cysteine at the N-terminus

Preferential dipeptide incorporation of Porphyromonas gingivalis mediated by proton-dependent oligopeptide transporter (Pot)

Multiple dipeptidyl-peptidases (DPPs) are present in the periplasmic space of Porphyromonas gingivalis, an asaccharolytic periodontopathic bacterium. Dipeptides produced by DPPs are presumed to be transported into the bacterial cells and metabolized to generate energy and cellular components. The present study aimed to identify a transporter responsible for dipeptide uptake in the bacterium. A real-time metabolic analysis demonstrated that P. gingivalis preferentially incorporated Gly-Xaa dipeptides, and then,single amino acids, tripeptides, and longer oligopeptides to lesser extents. Heterologous expression of the P. gingivalis serine/threonine transporter (SstT) (PGN_1460), oligopeptide transporter (Opt) (PGN_1518), and proton-dependent oligopeptide transporter (Pot) (PGN_0135) genes demonstrated that Escherichia coli expressing Pot exclusively incorporated Gly-Gly, while SstT managed Ser uptake and Opt was responsible for Gly-Gly-Gly uptake. Dipeptide uptake was significantly decreased in a P. gingivalis Δpot strain and further suppressed in a Δpot-Δopt double-deficient strain. In addition, the growth of the Δpot strain was markedly attenuated and the Δpot-Δopt strain scarcely grew, whereas the ΔsstT strain grew well almost like wild type. Consequently, these results demonstrate that predominant uptake of dipeptide in P. gingivalis is mostly managed by POT. We thus propose that Pot is a potential therapeutic target of periodontal disease and P. gingivalis related systemic diseases