Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0031099 (periodontitis)
12,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lys-gingipain (Kgp) is a major cysteine proteinase produced by the oral anaerobic bacterium Porphyromonas gingivalis, and has been implicated as a major pathogen in the development and progression of advanced adult periodontitis. This enzyme is believed to act as a major virulence factor of the disease, yet there exist no convenient and sensitive substrates for analyzing its biological activity. For a better understanding of the importance of this enzyme in the organism, there is an urgent need for specific substrates. Here we designed and synthesized two peptide 4-methyl-coumaryl-7-amides (MCA), carbobenzoxy (Z)-His-Glu-Lys-MCA, and Z-Glu-Lys-MCA, and tested their possible use as sensitive substrates for Kgp with limited specificity. Both substrates exhibited greater k(cat)/K(m) values than the best known Kgp substrates described so far. Both substrates were resistant to Arg-gingipain, another pathogenic cysteine proteinase from P. gingivalis, as well as trypsin and cathepsins B, L, and H. The levels of Kgp in various microorganisms and human cells were determined with Z-His-Glu-Lys-MCA. Little or no Kgp-like activity was detected in either other microorganisms or human cells tested. These results indicate that the present substrates are a valuable and fast tool for routine assays and for mechanistic studies on Kgp.
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PMID:Design and synthesis of sensitive fluorogenic substrates specific for Lys-gingipain. 1105 1

One of the salient features of periodontitis and gingivitis is the increase in the levels of bacterial and host-derived proteolytic enzymes in oral inflammatory exudates. This study evaluated the potential of histatin 5, a 24-residue histidine-rich salivary antimicrobial protein, to inhibit these enzymes. Using biotinylated gelatin as a substrate, histatin 5 was found to inhibit the activity of the host matrix metalloproteinases MMP-2 and MMP-9 with 50% inhibitory concentrations (IC50s) of 0.57 and 0.25 microM, respectively. To localize the domain responsible for this inhibition, three peptides containing different regions of histatin 5 were synthesized and tested as inhibitors of MMP-9. Peptides comprising residues 1 to 14 and residues 4 to 15 of histatin 5 showed much lower inhibitory activities (IC50, 21.4 and 20.5 microM, respectively), while a peptide comprising residues 9 to 22 showed identical activity to histatin 5 against MMP-9. These results point to a functional domain localized in the C-terminal part of histatin 5. To evaluate the effect of histatin 5 on bacterial proteases, a detailed characterization of histatin 5 inhibition of gingipains from Porphyromonas gingivalis was carried out using purified Arg- and Lys-specific enzymes. Kinetic analysis of the inhibition of the Arg-gingipain revealed that histatin 5 is a competitive inhibitor, affecting only the Km with a K(i) of 15 microM. In contrast, inhibition of Lys-gingipain affected both the Km and Vmax, suggesting that both competitive and noncompetitive competitive processes underlie this inhibition. The inhibitory activity of histatin 5 against host and bacterial proteases at physiological concentrations points to a new potential biological function of histatin in the oral cavity.
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PMID:Salivary histatin 5 is an inhibitor of both host and bacterial enzymes implicated in periodontal disease. 1117 5

As the prevalence of antibiotic-resistant strains of bacteria increases, novel ways of treating infections need to be developed. This is particularly pertinent with respect to the periodontal diseases--the most common chronic bacterial infections of man. The use of a photosensitizer in combination with red light has been demonstrated to be effective in killing several human pathogens, including the oral bacterium, Porphyromonas gingivalis, a major pathogen in periodontitis. Killing was associated with alterations in the molecular masses of several outer membrane and plasma membrane proteins and these may be therapeutic targets for photodynamic therapy and other antimicrobial approaches. To identify these photolabile proteins, we have used a panel of monoclonal antibodies raised to whole P. gingivalis. A number of the antibodies recognized various photolabile proteins. Using a combination of Western blotting and protein sequencing the predominant photolabile proteins in P. gingivalis have been identified as the major secreted/cell surface proteases--Lys and Arg gingipain.
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PMID:Identification of photolabile outer membrane proteins of Porphyromonas gingivalis. 1139 71

Porphyromonas gingivalis, a bacterium associated with active chronic periodontitis lesions, produces several proteolytic enzymes that are thought to be involved in host colonization, perturbation of the immune system, and tissue destruction. The aim of the present study was to investigate the contribution of Arg- and Lys-gingipains produced by P. gingivalis to its growth. Although all of the proteins studied were degraded by P. gingivalis, only human serum albumin and transferrin supported growth during serial transfers in a chemically defined medium (CDM). Growth studies with site-directed gingipain-deficient mutants of P. gingivalis revealed that inactivation of both gingipains prevents growth, whereas inactivation of either Arg- or Lys-gingipain activity extended the doubling times to 33 or 13 h, respectively, compared to 9 h for the parent strain. Growth of the mutants and the parent strain was similar when the CDM was supplemented with a protein hydrolysate instead of human serum albumin. Incubation of resting P. gingivalis ATCC 33277 cells with fluorophore-labeled albumin indicated that the proteolytic fragments generated by the gingipains were internalized by the bacterial cells. Internalization of fluorophore-labeled albumin fragments was reduced or completely inhibited in the proteinase-deficient mutants. Interestingly, gingival crevicular fluid samples from diseased periodontal sites contained low-molecular-mass albumin fragments, whereas samples from healthy sites did not. The critical role of proteinases in the growth of P. gingivalis was further investigated using specific Arg- and Lys-gingipain inhibitors. Adding the inhibitors to CDM containing albumin revealed that leupeptin (Arg-gingipain A and B inhibitor) was more efficient at inhibiting growth than cathepsin B inhibitor II (Lys-gingipain inhibitor). Our study suggests that Arg-gingipains and, to a lesser extent, Lys-gingipain play an important role in the growth of P. gingivalis in a defined medium containing a human protein as the sole carbon and nitrogen source.
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PMID:Role of gingipains in growth of Porphyromonas gingivalis in the presence of human serum albumin. 1144

Extracellular Arg-x- and Lys-x-specific cysteine proteinases are considered important virulence factors and pathogenic markers for Porphyromonas gingivalis, a bacterium implicated as a major etiological agent of chronic periodontitis. Three genes. rgpA, rgpB, and kgp, encode an Arg-x-specific proteinase and adhesins (RgpA), an Arg-x-specific proteinase (RgpB), and a Lys-x-specific proteinase and adhesins (Kgp), respectively. The contribution to pathogenicity of each of the proteinase genes of P. gingivalis W50 was investigated in a murine lesion model using isogenic mutants lacking RgpA, RgpB, and Kgp. Whole-cell Arg-x-specific proteolytic activity of both the RgpA(-) and RgpB(-) isogenic mutants was significantly reduced (3- to 4-fold) relative to that of the wild-type W50. However, for the Kgp(-) isogenic mutant, whole-cell Arg-x activity was similar to that of the wild-type strain. Whole-cell Lys-x proteolytic activity of the RgpA(-) and RgpB(-) mutants was not significantly different from that of wild-type W50, whereas the Kgp(-) mutant was devoid of Lys-x whole-cell proteolytic activity. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot analysis using proteinase-specific antibodies of cell sonicates of the wild-type and mutant strains showed that the proteinase catalytic domain of each of the mutants was not expressed. This analysis further showed that RgpB appeared as 72- and 80-kDa bands, and the catalytic domains of RgpA and Kgp appeared as processed 45-kDa and 48-kDa bands, respectively. In the murine lesion model, mice were challenged with three doses of each mutant and wild-type strain. At the lower dose (3.0 x 10(9) viable-cells), no lesions were recorded for each of the mutants, whereas wild-type W50 induced large ulcerative lesions. At a dose of 6.0 x 10(9) viable-cells, all the mice challenged with the wild-type strain died, whereas mice challenged with the RgpA(-) and RgpB(-) isogenic mutants did not die but developed lesions. Mice challenged with the Kgp(-) isogenic mutant at this dose did not develop lesions. At a 1.2 x 10(10) viable-cell dose, only 40% of mice challenged with the Kgp(-) mutant developed lesions, and these lesions were significantly smaller than lesions induced by the wild-type strain at the 3.0 x 10(9) viable-cell dose. All the mice challenged with the RgpA(-) mutant died at the 1.2 x 10(10) viable-cell dose, whereas only 20% died when challenged with the RgpB(-) mutant at this dose. Wild-type phenotype was restored to the RgpB(-) mutant by complementation with plasmid pNJR12::rgpB containing the rgpB gene. There was no difference between the pNJR12::rgpB-complemented RgpB(-) mutant and the wild-type W50 strain in whole-cell Arg-x activity, protein profile, or virulence in the murine lesion model. These results show that the three proteinases, RgpA, RgpB, and Kgp, all contributed to virulence of P. gingivalis W50 in the murine lesion model and that the order in which they contributed was Kgp >> RgpB > or = RgpA.
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PMID:Role of RgpA, RgpB, and Kgp proteinases in virulence of Porphyromonas gingivalis W50 in a murine lesion model. 1170 29

Hydrogen sulfide (H(2)S) is a major metabolic end product detected in deep periodontal pockets that is produced by resident periodontopathic microbiota associated with the progression of periodontitis. Treponema denticola, a member of the subgingival biofilm at disease sites, produces cystalysin, an enzyme that catabolizes cysteine, releasing H(2)S. The metabolic pathway leading to H(2)S formation in periodontal pockets has not been determined. We used a variety of thiol compounds as substrates for T. denticola to produce H(2)S. Our results indicate that glutathione, a readily available thiol source in periodontal pockets, is a suitable substrate for H(2)S production by this microorganism. In addition to H(2)S, glutamate, glycine, ammonia, and pyruvate were metabolic end products of metabolism of glutathione. Cysteinyl glycine (Cys-Gly) was also catabolized by the bacteria, yielding glycine, H(2)S, ammonia, and pyruvate. However, purified cystalysin could not catalyze glutathione and Cys-Gly degradation in vitro. Moreover, the enzymatic activity(ies) in T. denticola responsible for glutathione breakdown was inactivated by trypsin or proteinase K, by heating (56 degrees C) and freezing (-20 degrees C), by sonication, and by exposure to N alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK). These treatments had no effect on degradation of cysteine by the purified enzyme. In this study we delineated an enzymatic pathway for glutathione metabolism in the oral spirochete T. denticola; our results suggest that glutathione metabolism plays a role in bacterial nutrition and potential virulence expression.
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PMID:Role of glutathione metabolism of Treponema denticola in bacterial growth and virulence expression. 1185 90

Porphyromonas gingivalis is an anaerobic, asaccharolytic Gram-negative rod associated with chronic periodontitis. We have undertaken a proteomic study of the outer membrane of P. gingivalis strain W50 using two-dimensional gel electrophoresis and peptide mass fingerprinting. Proteins were identified by reference to the pre-release genomic sequence of P. gingivalis available from The Institute for Genomic Research. Out of 39 proteins identified, five were TonB-linked outer membrane receptors, ten others were putative integral outer membrane proteins and four were putative lipoproteins. Pyroglutamate was found to be the N-terminal residue of seven of the proteins, and was predicted to be the N-terminal residue of 13 additional proteins. The RgpA, Kgp and HagA polyproteins were identified as fully processed domains in outer membranes prepared in the presence of proteinase inhibitors. Several domains were found to be C-terminally truncated 16-57 residues upstream from the N-terminus of the following domain, at a residue penultimate to a lysine. This pattern of C-terminal processing was not detected in a W50 strain isogenic mutant lacking the lysine-specific proteinase Kgp. Construction of another W50 isogenic mutant lacking the arginine-specific proteinases indicated that RgpB and/or RgpA were also involved in domain processing. The C-terminal adhesin of RgpA, designated RgpA27, together with RgpB and two newly identified proteins designated P27 and P59 were found to migrate on two-dimensional gels as vertical streaks at a molecular mass 13-42 kDa higher than that calculated from their gene sequences. The electrophoretic behaviour of these proteins, together with their immunoreactivity with a monoclonal antibody that recognizes lipopolysaccharide, is consistent with a modification that could anchor the proteins to the outer membrane.
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PMID:Major outer membrane proteins and proteolytic processing of RgpA and Kgp of Porphyromonas gingivalis W50. 1190 53

Bacteroides forsythus, which has been recognized as a pathogen associated with periodontitis, produces a hemagglutinin. The hemagglutinin was localized in the envelope of B. forsythus. The hemagglutinating activity was inhibited by lactose at concentrations as low as 1 mM, and by L-arginine and L-lysine at concentrations of 100 mM. N-Acetylneuraminyllactose (NeuAc-lactose) was at least 100 times more potent an inhibitor than lactose, as it completely inhibited the hemagglutination at concentrations below 10 microM. This is similar to the Helicobacter pylori hemagglutinin. The hemagglutinin was heat-labile, and resistant to treatment with proteases such as trypsin. A specific antibody raised against one of the S-layer proteins that are major species-specific proteins had no inhibitory effect on the hemmaglutination. These results suggest that the NeuAc-lactose-sensitive adhesin of B. forsythus may play an important role in colonization in the oral cavity.
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PMID:Bacteroides forsythus hemagglutinin is inhibited by N-acetylneuraminyllactose. 1192 61

Porphyromonas gingivalis has been implicated as an etiologic agent of adult periodontitis. We have previously shown that P. gingivalis can degrade the epithelial cell-cell junction complexes, thus suggesting that this bacterium can invade the underlying connective tissues via a paracellular pathway. However, the precise mechanism(s) involved in this process has not been elucidated. The purpose of this study was to determine if the arginine- and lysine-specific gingipains of P. gingivalis (i.e., HRgpA and RgpB, and Kgp, respectively) were responsible for the degradation of E-cadherin, the cell-cell adhesion protein in the adherens junctions. In addition, we compared the degradative abilities of the whole gingipains HRgpA and Kgp to those of their catalytic domains alone. In these studies, immunoprecipitated E-cadherin as well as monolayers of polarized Madin-Darby canine kidney (MDCK) epithelial cell cultures were incubated with the gingipains and hydrolysis of E-cadherin was assessed by Western blot analysis. Incubation of P. gingivalis cells with immunoprecipitated E-cadherin resulted in degradation, whereas prior exposure of P. gingivalis cells to leupeptin and especially acetyl-Leu-Val-Lys-aldehyde (which are arginine- and lysine-specific inhibitors, respectively) reduced this activity. Furthermore, incubation of E-cadherin immunoprecipitates with the different gingipains resulted in an effective and similar hydrolysis of the protein. However, when monolayers of MDCK cells were exposed to the gingipains, Kgp was most effective in hydrolyzing the E-cadherin molecules in the adherens junction. Kgp was more effective than its catalytic domain in degrading E-cadherin at 500 nM but not at a lower concentration (250 nM). These results suggest that the hemagglutinin domain of Kgp plays a role in degradation and that there is a critical threshold concentration for this activity. Taken together, these results provide evidence that the gingipains, especially Kgp, are involved in the degradation of the adherens junction of epithelial cells, which may be important in the invasion of periodontal connective tissue by P. gingivalis.
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PMID:Hydrolysis of epithelial junctional proteins by Porphyromonas gingivalis gingipains. 1195 90

Current consensus is that periodontitis is an infectious disease in which a deregulated chronic inflammatory reaction not only may lead to periodontal tissue damage but also eventually may cause tooth loss. In controlling the inflammatory state the interplay between a network of cytokines and their receptors plays an important role. Here we show that the interleukin-6 receptor (IL-6R) is rapidly and efficiently inactivated by gingipains, the arginine- (HRgpA and RgpB) and lysine- (Kgp) specific cysteine proteinases from Porphyromonas gingivalis. Preincubation of HepG2 cells with active gingipains results in the loss of gp80 (CD126) from the cell surface. This also correlates with a decreased responsiveness to stimulation by interleukin-6 (IL-6), as determined by measurement of the status of IL-6R-mediated STAT 3 (Signal Transducer and Activator of Transcription 3) activation by this cytokine. Significantly, incubation of cells with gingipains was not accompanied by release of the soluble receptor, indicating its degradation, and this was confirmed by susceptibility of the recombinant, soluble receptor to proteolytic digestion by these enzymes. With the exception of the degradation of soluble IL-6R (sIL-6R) by Kgp, all of these reactions were also observed in the presence of serum suggesting that receptor inactivation may occur in vivo. Interestingly, Kgp, although less effective in cleaving sIL-6R, was able to decrease cell responsiveness to IL-6, possibly through degradation/inactivation of the signal transducing component (gp130) associated with IL-6R. These data, together with previous observation that IL-6 itself is inactivated by gingipains, suggest that at periodontitis sites infected by P. gingivalis the inflammatory reactions dependent on IL-6 could be severely hindered contributing to both tissue damage and periodontopathogen survival.
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PMID:Proteolysis of interleukin-6 receptor (IL-6R) by Porphyromonas gingivalis cysteine proteinases (gingipains) inhibits interleukin-6-mediated cell activation. 1207 7


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