UMLS:C0031099 - FACTA Search

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

The role of bacteria in the initiation of periodontitis is well-documented and the end result, destruction of the alveolar bone and periodontal connective tissue, is readily observed; but the events occurring between these two points in time remain obscure and are the focus of this paper. Bacteria induce tissue destruction indirectly by activating host defense cells, which in turn produce and release mediators that stimulate the effectors of connective tissue breakdown. Components of microbial plaque have the capacity to induce the initial infiltrate of inflammatory cells including lymphocytes, macrophages, and PMNs. Microbial components, especially lipopolysaccharide (LPS), have the capacity to activate macrophages to synthesize and secrete a wide array of molecules including the cytokines interleukin-1 (IL-1) and tumor-necrosis factor-alpha (TNF-alpha), prostaglandins, especially PGE2, and hydrolytic enzymes. Likewise, bacterial substances activate T lymphocytes and they produce IL-1 and lymphotoxin (LT), a molecule having properties very similar to TNF-alpha. These cytokines manifest potent proinflammatory and catabolic activities, and play key roles in periodontal tissue breakdown. They induce fibroblasts and macrophages to produce neutral metalloproteinases such as procollagenase and prostromelysin, the serine proteinase urokinase-type plasminogen activator (u-PA), tissue inhibitor of metalloproteinase (TIMP), and prostaglandins, u-PA converts plasminogen into plasmin, which can activate neutral metalloproteinase proenzymes, and these enzymes degrade the extracellular matrix components. TIMP inactivates the active enzymes and thereby blocks further tissue degradation. Several amplification and suppression mechanisms are involved in the process. While LPS activates macrophages to produce IL-1, IL-1 is autostimulatory and can therefore amplify and perpetuate its own production. Interferon-gamma (INF-gamma) suppresses autostimulation, but it enhances LPS-induced IL-1 production. PGE2 exerts a control over the whole process by suppressing production of both IL-1 and TNF-alpha. Furthermore, the activated cells produce an IL-1 receptor antagonist that binds to the IL-1 receptor but does not induce the biologic consequences of IL-1 binding. Other cytokines such as transforming growth factor-beta (TGF-beta) suppress production of metalloproteinases and u-PA. Thus the progression and extent of tissue degradation is likely to be determined in major part by relative concentrations and half-life of IL-1, TNF-alpha, and related cytokines, competing molecules such as the IL-1 receptor antagonist, and suppressive molecules such as TGF-beta and PGE2. These molecules control levels of latent and active metalloproteinase and u-PA, and the availability and concentration of TIMP determines the extent and duration of degradative activity.
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PMID:The role of inflammatory mediators in the pathogenesis of periodontal disease. 167 30

Interstitial collagenases (matrix metalloproteinase-1, EC 3.4.24.7), isolated from extracts of inflamed human gingiva, gingival crevicular fluid and saliva were characterized for their molecular weight, proteolytic and non-proteolytic activation and substrate specificity against soluble collagen types I, II and III. All three collagenases had Mr of 70 K. The enzymes existed predominantly in a latent form that could be activated by aminophenylmercuric acetate, gold thioglucose and hypochlorous acid. Among serine proteases tested, trypsin, chymotrypsin, neutrophil cathepsin G and a combination of trypsin and human gingival fibroblast prostromelysin activated gingival and salivary interstitial collagenases. Plasmin and plasma kallikrein, however, were relatively ineffective activators. The collagenases degraded soluble type I and II collagens at apparently equal rates but considerably faster than they did type III collagen. These findings suggest that the characteristics of interstitial collagenases found in inflamed human gingiva, gingival crevicular fluid and saliva are consistent with those of human neutrophil interstitial collagenase rather than the fibroblast-type interstitial collagenase. Thus, neutrophils are suggested to be the main source of such enzymes in inflamed human gingiva, crevicular fluid and saliva during adult periodontitis.
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PMID:The role of gingival crevicular fluid and salivary interstitial collagenases in human periodontal diseases. 196 17

The nature and levels of hemoglobin (Hb)-hydrolyzing acidic proteinases including cathepsin D and cathepsin E, which were most active at pH 3.5-4.0, were enzymatically and immunochemically compared between human and rat neutrophils. By subcellular fractionation and immunoprecipitation with discriminative antibodies specific for each enzyme, cathepsin D was shown to be present in the granular content fraction of both human and rat neutrophils and to account for about 35% of the total Hb-hydrolyzing activity. Cathepsin E was observed mainly in the cytoplasmic fraction of rat neutrophils from peripheral blood and peritoneal exudates and accounted for about 65% of the total activity, but it was not detected in human blood neutrophils. Immunoelectron microscopy on rat neutrophils revealed that cathepsin D was exclusively confined to lysosomes, whereas cathepsin E was localized mainly in the cytoplasmic matrix and often in the perinuclear spaces and the rough endoplasmic reticulum. The non-cathepsin D activity in human neutrophils, which represented about 65% of the total activity, appeared to be due to a serine proteinase, since it was inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride and was not inhibited by agents specific for aspartic-, cysteine-, or metallo proteinases. The enzyme(s) responsible for this activity was largely associated with the granular membranes, and a half of it could be described as an integral membrane protein on the basis of phase separation with Triton X-114 at 35 degrees C. The levels of these Hb-hydrolases in gingival crevicular fluid from human chronic inflammatory periodontitis patients were examined in order to clarify their participation in the periodontal tissue breakdown.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of hemoglobin-hydrolyzing acidic proteinases in human and rat neutrophils. 208 32

The concentration of medullasin, an elastase-like serine proteinase, in gingival crevicular fluid (GCF) from chronic adult periodontitis patients and experimental gingivitis subjects was determined by the highly sensitive immunoassay method. In periodontitis patients, the medullasin content increased with increase of the GCF volume and then attained a maximum value at a relatively mildly inflamed stage. The value was maintained through more serious stages of disease activity. However, the medullasin content was independent of the probing depth. The medullasin content of the patients was markedly decreased after periodontal treatment, indicating that the enzyme participates in the development of the chronic periodontitis. Large amounts of medullasin were also detected in GCF from experimental gingivitis subjects, although it was not detected by the activity measurements. There was a rapid increase in the medullasin content during the 4-day period after abstention from oral hygiene measures, which corresponded to those of severely inflamed periodontitis patients. The peak value decreased up to the 7th-d followed by a gradual increase during the 21-d experimental period. The increased medullasin level rapidly decreased following resumption of oral hygiene measures. The results suggest that medullasin plays important roles both in the defence mechanism against the gingival inflammation and in the development of the acute inflammation.
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PMID:Granulocyte medullasin levels in gingival crevicular fluid from chronic adult periodontitis patients and experimental gingivitis subjects. 214 48

Serine proteinases have the potential to influence the degradation of connective tissue in chronic periodontitis, which may progress episodically at individual tooth sites. Elastase-, chymotrypsin- and tryptase-like proteinase activity in homogenized gingival tissue were measured using, respectively, the selective peptide substrates MeOSuc-Ala-Ala-Pro-Val-AFC. MeOSuc-Phe-Pro-Phe-AFC and Z-Ala-Arg-Arg-AFC. Each tooth site was assayed separately and divided, where appropriate, into gingival tissue and granulomata. Elastase-like activity was detected in only about half of the sites and with large variations. Chymotrypsin-like activity decreased with increasing pocket depth, clinical attachment level, gingival index and gingival bleeding index. Tryptase-like activity did not vary consistently with clinical measures. Chymotrypsin- and tryptase-like proteinase activity were much higher in gingival tissue than in granulomata. These effects are best explained by the likely influence (or lack of influence) of the endogenous serum and tissue inhibitors of serine proteinases, the different cellular origins of the enzymes, and their relative affinities for their substrates.
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PMID:A biochemical study of serine proteinase activities at local gingival tissue sites in human chronic periodontitis. 220 77

Crevicular fluid was collected from gingivitis and periodontitis patients on filter paper strips and then eluted into buffer. The eluates hydrolyzed ZAlaArgArgAFC at alkaline pH and the effector response at pH 8.5 indicated serine proteinase activity. The results, particularly the substantial increase in activity produced by heparin, were suggestive of mast cell tryptase. They were also consistent with the properties of the tryptase-like enzyme identified in extracts of inflamed human gingiva (Cox and Eley, Arch Oral Biol, in press). Partial inhibition of crevicular fluid eluate activity by soybean trypsin inhibitor suggested the additional presence of a second trypsin-like enzyme which might be of host or bacterial origin.
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PMID:Tryptase-like activity in crevicular fluid from gingivitis and periodontitis patients. 252 68

Inflamed gingiva contain a serine proteinase which could not previously be identified on the basis of its substrate specificity and inhibitor response. Using the substrate ZAlaArgArgAFC at alkaline pH, the enzyme was shown to be extracted more efficiently in high salt buffer. Inclusion of NaCl in assays, however, caused progressive reduction of activity. There was also inhibition by CaCl2, MgCl2 and 2 mM TosLysCH2Cl but not by 2 mM TosPheCH2Cl. Heparin produced significant activation. In gel filtrations with 1.0 M NaCl, activity appeared in fractions corresponding to a molecular weight of about 135,000. These properties are all consistent with tryptase from human mast cells. The enzyme may participate in both the connective tissue destruction and the inflammatory and immunological processes of gingivitis and periodontitis.
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PMID:Identification of a tryptase-like enzyme in extracts of inflamed human gingiva by effector and gel-filtration studies. 268 10

The cysteine proteinases cathepsins B and L have collagenolytic potential and so have been implicated in connective-tissue breakdown in chronic periodontitis. Synthetic peptide substrates are often used to detect proteolytic enzymes. The action of homogenates of inflamed gingiva tissue against three such substrates of cathepsin B have been characterized here by protease inhibitors. Using the selective reagents ZPheAlaCHN2, BzValLysLysArgAFC, ZAlaArgArgAFC and ZPheArgAFC were susceptible to both cysteine and non-cysteine proteinase activity; the two types of enzymes had acidic and alkaline pH optima, respectively. The action of other inhibitors at acidic pH indicated the involvement of cathepsin B and, to a lesser extent, cathepsin L. The enzyme active at alkaline pH was a serine proteinase; it resembled glandular kallikrein in its inhibitor response and its ability to hydrolyse a fourth substrate, DValLeuArgAFC, but its greater reactivity with BzValLysLysArgAFC and ZAlaArgArgAFC was not consistent with kallikrein. ZPheArgAFC, though less sensitive than BzValLysLysArgAFC to cysteine proteinase action, was far less susceptible to hydrolysis by the serine proteinase and thus appears the best choice for selective assays of cathepsins B and L.
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PMID:Preliminary studies on cysteine and serine proteinase activities in inflamed human gingiva using different 7-amino-4-trifluoromethyl coumarin substrates and protease inhibitors. 348 58

This content was analysed in patients with chronic periodontitis and in control subjects. In periodontal disease, it was characterized by higher mean concentrations of glycine, proline, tyrosine and delta-aminovaleric acid than in controls (p less than 0.001). However, the range of values varied considerably in the two groups. There were differences between periodontitis and control samples in the proportions of proline to serine (p less than 0.01) and proline to glutamic acid and glutamine (p less than 0.05). Bacterial contamination and decomposition of salivary proteins is responsible for the elevated salivary levels of glycine, proline, tyrosine and delta-aminovaleric acid in the periodontal group.
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PMID:Free amino-acid content of wax-stimulated human whole saliva as related to periodontal disease. 348 59

The anaerobic bacterium Porphyromonas gingivalis has been implicated as a primary causative agent in adult periodontitis. Several proteinases are produced by this bacterium, and it is suggested that they contribute to virulence and to local tissue injury resulting from infection by P. gingivalis. Cysteine proteinases with specificities to cleave either Arg-X or Lys-X peptide bonds (i.e., gingipains) have been characterized as predominant enzymes associated with vesicles shed from the surface of this bacterium. It has recently been demonstrated that these proteinases are capable of degrading the blood complement component C5, resulting in the generation of biologically active C5a. By using an affinity-purified rabbit antibody raised against residues 9 to 29 of the C5a receptor (C5aR; CD88), we demonstrate that noncysteinyl proteinases associated with vesicles obtained from P. gingivalis cleave the C5aR on human neutrophils. Proteolytic attack of the C5aR by enzymes from the P. gingivalis vesicles was inhibited by TPCK (tolylsullonyl phenylalanyl chloromethyl ketone), PMSF (phenylmethylsulfonyl fluoride), and dichloroisocoumarin, suggesting that serine proteinases are primarily responsible for this degradative activity. The purified vesicle proteinase Lys-gingipain but not Arg-gingipain also cleaved the N-terminal region of the C5aR on the human neutrophils. Lys-gingipain activity was essentially resistant to these inhibitors but was inhibited by TLCK (Nalpha-p-tosyl-L-lysine chloromethyl ketone) and iodoacetamide. A synthetic peptide that mimics the N-terminal region of C5aR (residues 9 to 29; PDYGHY DDKDTLDLNTPVDKT) was readily cleaved by chymotrypsin but not by trypsin, despite the presence of two potential trypsin (i.e., lysyl-X) cleavage sites. The specific sites of cleavage in the C5aR 9-29 peptide were determined by mass spectroscopy for both chymotrypsin and Lys-gingipain digests. This analysis demonstrated that the C5aR peptide is susceptible to cleavage at both potential Lys-gingipain sites (i.e., between residues 17 and 18 [K-D] and 28 and 29 [K-T]) and at two chymotrypsin sites (between residues 14 and 15 [Y-D] and 20 and 21 [L-D]), respectively. These studies suggest that P. gingivalis contains at least two enzymes capable of cleaving the C5aR, Lys-gingipain and a second nontryptic serine proteinase that is distinct from either Arg- or Lys-gingipain.
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PMID:Proteolytic inactivation of the leukocyte C5a receptor by proteinases derived from Porphyromonas gingivalis. 867 97

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