Effects of natural cross-linkers on the stability of dentin collagen and the inhibition of root caries in vitro.

PURPOSE: To evaluate the effects of dentin collagen modifications induced by various cross-linkers on the stability of collagen matrix and the inhibition of root caries. MATERIALS AND METHODS: The following cross-linkers were tested: 5% glutaraldehyde (GA), 0.5% proanthocyanidin (PA), 0.625% genipin (GE). In the first experiment, cross-linker-treated demineralized human root dentin was digested with bacterial collagenase, centrifuged, and the supernatants were subjected to amino acid analysis to determine collagen content. The residues were analyzed by SDS-PAGE and hydroxyproline analysis. In the second experiment, bovine root surfaces were conditioned with phosphoric acid, treated with the cross-linkers, incubated with Streptococcus mutans and Lactobacillus acidophilus for 1 week and the root caries inhibition was evaluated with confocal microscopy. Lastly, the ability of the bacteria to colonize the root surface was evaluated. In this experiment slabs of bovine root were treated with the cross-linkers and incubated in a suspension of S. mutans and L. acidophilus. The slabs were washed, resuspended in water, glucose was added, and the pH measured. RESULTS: While all collagen was digested with collagenase in the control groups, only a small proportion was solubilized in the GA-, PA-, and GE-treated groups. The root caries was significantly inhibited by treatment with PA or GA. Drops in pH in the cross-linker-treated groups were essentially the same as in the untreated group. CONCLUSION: Naturally occurring cross-linkers, especially PA, could be used to modify root dentin collagen to efficiently stabilize collagen and to increase its resistance against caries.

Signaling cascades triggered by bacterial metabolic end products during reactivation of Kaposi's sarcoma-associated herpesvirus.

The present studies explore the role of polymicrobial infection in the reactivation of Kaposi's sarcoma-associated herpesvirus (KSHV) and analyze signaling pathways activated upon this induction. We hypothesized that activation of the cellular stress-activated mitogen-activated protein kinase (MAPK) p38 pathway would play a key role in the bacterium-mediated disruption of viral latency similar to that of previously reported results obtained with other inducers of gammaherpesvirus lytic replication. KSHV within infected BCBL-1 cells was induced to replicate following exposure to metabolic end products from gram-negative or -positive bacteria that were then simultaneously exposed to specific inhibitors of signal transduction pathways. We have determined that bacterium-mediated induction of lytic KSHV infection is significantly reduced by the inhibition of the p38 MAPK pathway. In contrast, inhibition of the phosphatidylinositol 3-kinase pathway did not impair induction of lytic replication or p38 phosphorylation. Protein kinase C, though activated, was not the major pathway used for bacterium-induced viral reactivation. Furthermore, hyperacetylation of histones 3 and 4 was detected. Collectively, our results show that metabolic end products from these pathogens induce lytic replication of KSHV in BCBL-1 cells primarily via the activation of a stress-activated MAPK pathway. Importantly, we demonstrate for the first time a mechanism by which polymicrobial bacterial infections result in KSHV reactivation and pathogenesis.

Self antigen prognostic for human immunodeficiency virus disease progression.

We have recently found that an extracellular protein, alpha(1) proteinase inhibitor (alpha(1)PI; alpha(1) antitrypsin), is required for in vitro human immunodeficiency virus (HIV) infectivity outcome. We show here in a study of HIV-seropositive patients that decreased viral load is significantly correlated with decreased circulating alpha(1)PI. In the asymptomatic category of HIV disease, 100% of patients manifest deficient levels of active alpha(1)PI, a condition known to lead to degenerative lung diseases and a dramatically reduced life span. Further, HIV-associated alpha(1)PI deficiency is correlated with circulating anti-alpha(1)PI immunoglobulin G. These results suggest that preventing HIV-associated alpha(1)PI deficiency may provide a strategic target for preventing HIV-associated pathophysiology.

Kinetics of coaggregation of Porphyromonas gingivalis with Fusobacterium nucleatum using an automated microtiter plate assay.

Coaggregation between Porphyromonas gingivalis and Fusobacterium nucleatum strains was previously studied using either a semi-quantitative macroscopic assay or radioactive tracer assays. A new automated microtiter plate assay is introduced, in which the plate reader (Vmax) was adapted to allow quantitative evaluation of the kinetics of coaggregation. F nucleatum PK 1594 coaggregated with P. gingivalis HG 405 with a maximal coaggregation rate of 1.05 mOD/min, which occurred at a P. gingivalis to F. nucleatum cell ratio of 1 to 2. F. nucleatum PK 1594 failed to do so with P. gingivalis strains A 7436 or ATCC 33277. Galactose inhibition of this coaggregation could be quantitatively measured over a wide range of concentrations to demonstrate its dose-dependent manner. P. gingivalis HG 405 failed to coaggregate with F. nucleatum strains ATCC 25586 and ATCC 49256. The assay used in the present study is a sensitive and efficient quantitative automated tool to study coaggregation and may replace tedious radioactive tracer assays.

Glucose-6-phosphatase mutation G188R confers an atypical glycogen storage disease type 1b phenotype.

Glycogen storage disease type 1a (GSD 1a) is caused by a deficiency in microsomal glucose-6-phosphatase (G6Pase). A variant (GSD 1b) is caused by a defect in the transport of glucose-6-phosphate (G6P) into the microsome and is associated with chronic neutropenia and neutrophil dysfunction. Mutually exclusive mutations in the G6Pase gene and the G6P transport gene establish GSD la and GSD 1b as independent molecular processes and are consistent with a multicomponent translocase catalytic model. A modified translocase/catalytic unit model based on biochemical data in a G6Pase knockout mouse has also been proposed for G6Pase catalysis. This model suggests coupling of G6Pase activity and G6P transport. A 5-mo-old girl with hypoglycemia, hepatomegaly, and lactic acidemia was diagnosed with GSD 1a. She also developed neutropenia, neutrophil dysfunction, and recurrent infections characteristic of GSD 1b. Homozygous G188R mutations of the G6Pase gene were identified, but no mutations in the G6P translocase gene were found. We have subsequently identified a sibling and two unrelated patients with similar genotypic/phenotypic characteristics. The unusual association of neutrophil abnormalities in patients with homozygous G188R mutations in the G6Pase gene supports a modified translocase/catalytic unit model.

Fluoride release from restorative materials and its effects on dentin demineralization.

As the use of adhesive restorative materials has increased during the last several years, interest in adhesive materials that release fluoride has also grown. The purpose of this study was to measure fluoride release from several adhesive restorative materials and to evaluate its effect on dentin resistance to demineralization and on bacterial metabolism in a modified in vitro system. Standardized cavities (1.8 mm in diameter) were prepared in bovine teeth that had been ground to dentin. One cavity in each tooth was restored with one of the following restorative systems: (a) Single Bond and Z100; (b) Single Bond and Tetric Ceram; (c) Fuji Bond LC and Z100; (d) Fuji Bond LC and Tetric Ceram; (e) Fuji II LC; or (f) Fuji IX GP. The other cavity in each tooth was "restored" with wax as a control. For each restorative system, 12 specimens were evaluated for fluoride release during the first 24 hrs after restoration placement. Dentin adjacent to the restored sites was subjected to lactic acid challenge (pH 4.3) for 3 hrs, after which calcium release was measured. Another 12 specimens in each group were stored for 24 hrs in de-ionized water, and were exposed to an S. mutans suspension (1:1 THB/de-ionized water and 50 mM glucose, A660 = 0.2) for 6 hrs, followed by calcium release and pH measurement. Bulk specimens of each material were also made and stored in water. Fluoride released from Fuji Bond LC, Fuji IX GP, and Fuji II LC in bulk was significantly greater than from the other materials. In the restored dentin specimens, increased resistance to demineralization from a lactic acid challenge was directly related to fluoride release. The same effects were seen as a result of the S. mutans challenge. While fluoride release from restorative materials increased the resistance of dentin to demineralization in this system, the clinical relevance of the findings is not known.

Modulation of chronic enteric infection by distant oral infection.

This investigation determined the effects of a distant oral infection (Porphyromonas gingivalis) on a concurrent local enteric infection (Echerichia coli). A modified murine subcutaneous tissue chamber model was used. Subcutaneously implanted chambers with different microbial makeups were monitored for sloughing and their contents assayed for prostaglandin E2. Bilaterally implanted chamber experiments revealed that a distant "chronic" (immunization with heat-killed organism, followed by live challenge) P. gingivalis infection offered protection against a local chronic E. coli infection, as evidenced by delaying the time for 50% of the chambers to reject from day 19 to day 25 and a statistically significant prostaglandin E2 decrease from 529.4 +/- 176.6 ng/ml to 191.5 +/- 100.9 ng/ml (p < 0.01) (Mann-Whitney test). An acute (live challenge only) distant P. gingivalis infection or immunization with the heat-killed organism alone had no effect on "chronic" E. coli infection in this model. These data suggest that the presence of low-grade chronic oral infection may modify the responses to other infectious challenges.

Specific activity of alpha1proteinase inhibitor and alpha2macroglobulin in human serum: application to insulin-dependent diabetes mellitus.

The shifting balance between proteinases and proteinase inhibitors in blood, a function of their relative affinities and concentrations, has long been hypothesized to influence immune competency. The identification of proteinase-activated receptor responses in cells of the mononuclear phagocyte system suggests a potential explanation. The major serum proteinase inhibitor, alpha1proteinase inhibitor (alpha1PI, alpha1-antitrypsin), has been reported to increase in concentration during inflammation. Quantitative determination of serum alpha1PI has traditionally been performed nephelometrically; however, antigenically quantitated levels may not be representative of functional capacity. It has previously been observed that alpha1PI in serum exhibits bimodal behavior as the result of various concentrations of proteinase inhibitors, specifically alpha2macroglobulin (alpha2M) and inter-alpha-trypsin inhibitor, which compete in binding to a panel of serine proteinases. Consequently, it has not previously been possible to assign a numerical value for the specific activity of these competing proteinase inhibitors in serum. By applying known constants representing the association of proteinase inhibitors with porcine pancreatic elastase (PPE), the theoretical relationship between the functional and antigenic values for alpha1PI and alpha2M has been empirically derived allowing, for the first time, the calculation of their specific activities in serum. As predicted, the serum concentration of alpha1PI was found to be highly correlated with residual uninhibited PPE catalytic activity in healthy individuals, but not in individuals exhibiting fragmented or complexed alpha1PI. Using these techniques, both the antigenic and functional levels of alpha1PI were determined in sera from subjects with insulin-dependent diabetes mellitus (IDDM) who had been clinically diagnosed as having either periodontal disease or gingival health. Determination of quantitative levels by antigen-capture suggests that the IDDM subjects with periodontitis manifest dramatically increased levels of fragmented serum alpha1PI compared with their orally healthy counterparts or normal controls. In contrast, functional analysis of serum alpha1PI revealed no differences between the three subject populations. The elevated levels of antigenically determined serum alpha1PI reflect the inflammatory status of periodontal disease. These results support the importance of and provide methodology for determining the functionally active levels of alpha1PI allowing reexamination of changes detected during the acute phase of inflammation, replacement therapy, and longitudinal studies in relevant disease processes including malignancy and diabetes.

A clinical study of bacterial contamination of chlorhexidine-coated filaments of an interdental brush.

The purpose of this study was to assess the effectiveness of a chlorhexidine coating on the nylon filaments of an interdental brush in reducing bacterial contamination from actual clinical usage. In addition, the residual antimicrobial capacity of the coating over time from clinical exposure was studied. The same type of interdental brush, one with chlorhexidine-coated nylon filaments (antibacterial) and one with uncoated (control) nylon filaments was used with 20 subjects who were participating in a periodontal maintenance program. All subjects had more than four interproximal spaces large enough to accommodate the interdental brush at the start of the study. The subjects served as their own controls in this cross-over design. They used their brushes daily for one and two weeks, respectively. After the last use, each brush was kept in a controlled environment (20-22 degrees C, 65% relative humidity) for 24 hours for air drying. It was found that antimicrobial activity was detected on the chlorhexidine-coated filaments, even after one or two weeks of storage. The mean residual antimicrobial activity of the test filaments at one week was significantly higher than that found on the filaments after two weeks. The mean number of bacteria attached to the antimicrobial filaments were significantly fewer than those on uncoated, control filaments at both one week and two weeks of usage. These results suggest that chlorhexidine-coated filaments on an interdental brush can significantly reduce bacterial contamination and retain this antimicrobial activity for up to two weeks of use.

Inflammatory mediator response as a potential risk marker for periodontal diseases in insulin-dependent diabetes mellitus patients.

The gingival crevicular fluid (GCF) and monocytic secretion of prostaglandin E2 (PGE2) and interleukin 1 beta (IL-1 beta) were measured in a group of 39 insulin-dependent diabetes mellitus (IDDM) patients and 64 systemically healthy individuals. Diabetics were divided into Group A (gingivitis or mild periodontal disease) and Group B (moderate or severe periodontal disease). Diabetics had significantly higher GCF levels of both PGE2 and IL-1 beta as compared to non-diabetic controls who were matched with regard to periodontal disease severity (P < 0.00001 and P = 0.0005, respectively). Within the diabetic population, the GCF levels of these inflammatory mediators were almost 2-fold higher in Group B as compared to Group A (P = 0.01, P = 0.006, respectively for GCF-PGE2 and IL-1 beta). Furthermore, diabetics as a group had a significantly higher monocytic PGE2 and IL-1 beta production in response to various concentrations of both Escherichia coli and Prophyromonas gingivalis lipopolysaccharide (LPS) as compared to non-diabetic patients with adult periodontitis (P = 0.0001). LPS dose-response curves demonstrated that monocytes from Group B diabetics produced approximately 3 times more PGE2 than Group A monocytes; however, there was no significant difference in monocytic IL-1 beta secretion within the IDDM patients. The levels of GCF or monocytic mediators did not correlate with age, race, or glycosylated hemoglobin (HbA1C) levels. Our data suggest that the high GCF and monocytic secretion of PGE2 and IL-1 beta in IDDM patients may be a consequence of a systemic response trait and that the presence of Gram-negative infections such as periodontal diseases may interact synergistically to yield high local levels of these mediators and a more severe periodontal condition.

Monocytic TNF alpha secretion patterns in IDDM patients with periodontal diseases.

The aim of the present study was to identify whether monocytic TNF alpha secretion patterns could serve as a potential phenotypic discriminator for periodontal disease susceptibility within insulin-dependent diabetes mellitus (IDDM) patients. In 32 IDDM individuals the lipopolysaccharide (LPS) stimulated monocytic TNF alpha secretion dose-response characteristics were analyzed and related to two different periodontal status categories. Diabetics were divided into group A (gingivitis or mild periodontal disease) and group B (moderate to severe periodontal disease). In addition, 17 non-diabetic individuals with various degrees of periodontal disease served as control patients. Diabetics as a group had a significantly higher monocytic TNF alpha production in response to increasing Porphyromonas gingivalis A 7436 lipopolysaccharide concentrations (0, 0.003, 0.03, 0.3 and 3.0 micrograms/ml) as compared to non-diabetic patients with gingivitis or adult periodontitis (p < 0.05). A significant difference in the dose response was also noted in the level of TNF alpha secreted as a function of P. gingivalis LPS concentrations between group A and B diabetics, as determined by two-way repeated measurements ANOVA (p < 0.05). Furthermore, there was no significant difference in the mean HbA1C between the two diabetic groups, and the TNF alpha level was not significantly associated with the HbA1C level within diabetic patients. These data suggest that the diabetic state results in an upregulated monocytic TNF alpha secretion phenotype (4.6-fold increase) which, in the presence of Gram-negative bacterial challenge, is associated with a more severe periodontal disease expression. In addition, approximately 40% (10 of 24) IDDM periodontitis patients in group B demonstrated a 62-fold elevation in TNF alpha secretion relative to non-diabetic gingivitis or periodontitis patients and a 13.5-fold increase relative to IDDM group A (gingivitis or mild periodontitis) patients.

Hemin-induced modifications of the antigenicity and hemin-binding capacity of Porphyromonas gingivalis lipopolysaccharide.

Previous studies have shown that the physical, biochemical, and antigenic properties of the bacterial outer membrane are profoundly influenced by the growth environment. In the present study, the effects of growth in hemin-replete (H+) and hemin-depleted (H-) media on the lipopolysaccharide (LPS) of the oral pathogen Porphyromonas gingivalis were investigated. Our studies show that LPS from P. gingivalis cultured in H+ media (H+LPS) expressed additional low-molecular-mass antigens, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot (immunoblot) analysis. Particularly evident was a 26-kDa antigen (26 LPSC) that was lost from the LPS upon transfer of P. gingivalis into H- media. The loss of the 26 LPSC was accompanied by a marked reduction in the hemin-binding capacity of the LPS. The 26 LPSC was refractory to Coomassie blue staining and proteinase K digestion. H+LPS from strain W50/BE1, a nonpigmented pleiotropic strain, lacked the 26 LPSC and did not bind hemin. Polyclonal antiserum raised to whole-cell antigens of P. gingivalis A7436, W83, and HG405 grown in H+ media, but not in H- media, recognized the 26 LPSC in the purified H+LPS from any of the three strains. The immunoreactivities of sera from humans with (n = 24) or without (n = 25) periodontitis to the 26 LPSC and other H+LPS determinants were analyzed by Western blot. Overall, 75% of adult periodontitis patient sera reacted with multiple bands in the H+LPS stepladder, particularly in the range of 14 to 27 kDa. In contrast, only 20% of control sera reacted faintly with H+LPS bands in the range 27 to 34 kDa. The 26 LPSC was recognized by over 40% of sera from adult patients with periodontitis and none of the healthy control sera. Taken together, these results suggest that the antigenicity and hemin-binding properties of P. gingivalis LPS can be modified by growth in H+ media.

Inhibition of HIV-1 by modification of a host membrane protease.

While it is clear that CD4 is the receptor for the gp120 envelope protein of HIV-1, substantial evidence suggests that other host cell proteins are required for successful membrane fusion. Studies were initiated to examine the potential for a protein receptor which has an elastase-like character to participate in fusion of HIV-1 with permissive host cells. A synthetic elastase inhibitor was shown to significantly reduce HIV-1 infectivity when present during, but not after, the initial contact between virus and cells. A human T cell elastase-like membrane component was purified and shown to be lipid-associated. By competitive inhibition, the purified protein was shown to bind gp160 within the HIV-1 fusion domain. The binding parameters of whole T cell membrane extract, with a hydrophobic pentapeptide representative of the fusion domain, suggested an elastase-like protein is the single, secondary T cell receptor for HIV-1 (K = 1 x 10(3) M-1). The pentapeptide interacted with porcine and human (epithelial and polymorphonuclear leukocyte), but not murine, elastase isoforms, suggesting its participation in the permissiveness of host cells to infection.

Lactoferrin interaction with salmonellae potentiates antibiotic susceptibility in vitro.

Interaction of lactoferrin (Lf) with the cell envelope (CE) and outer membrane (OM) of Salmonella typhimurium-type strain ATCC13311 was tested by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western-blot analyses. The peroxidase-labeled bovine Lf (BLf) and human Lf both recognized a heat-modifiable protein with an estimated molecular mass of 38 kD in the OM. Simultaneous immunoblotting with an antiporin monoclonal antibody specific for a conserved porin domain in members of enterobacteriaceae confirmed that the Lf-binding protein is a porin. Such Lf-binding porin proteins (37-39 kD range) were readily detected in nine other common Salmonella species: S. dublin, S. panama, S. rostock, S. abony, S. hartford, S, kentucky, S. pullorum, S. thompson, and S. virchow. The latter six species also demonstrated one to three weak Lf-reactive bands of low molecular weight in their CE. The antibiotic susceptibility of Salmonella in the presence of Lf was examined. A mixture containing sub-minimum inhibitory concentration (MIC) levels of Lf (MIC/4) and cefuroxime (MIC/2) inhibited the bacterial growth. Lf strongly potentiated the action of erythromycin (eightfold), whereas it increased the activity only by two-fold for ampicillin, ciprofloxacin, chloramphenicol, and rifampicin; similarly, these antibiotics also reduced the MIC of BLf by twofold in S. typhimurium. Such antimicrobial potentiation was not observed with BLf mixtures containing cefalexin, gentamycin, or polymyxin B against strain ATCC13311. BLf and cefuroxime also demonstrated potentiation of varying degrees (two to 16-fold) with nine other Salmonella species. These data established the binding of Lf to porins in salmonellae and a potentiation effect of Lf with certain antibiotics.

Effects of a Porphyromonas gingivalis infection on inflammatory mediator response and pregnancy outcome in hamsters.

This study examines the effects of various localized, nondissemination challenges of Porphyromonas gingivalis on inflammatory mediator production and pregnancy outcome in the golden hamster. Live or heat-killed (HK) organisms were inoculated into a previously implanted subcutaneous tissue chamber on the 8th day of gestation to determine the effects on fetal weight, viability, and resorption. In one group of animals, HK organisms were inoculated prior to mating to determine the effects of previous exposure on day-8 gestational challenges. Chamber contents were assayed at 1 and 5 days after challenge for prostaglandin E2 (PGE2) and tumor necrosis factor alpha (TNF-alpha). All P. gingivalis challenges caused a significant increase in chamber PGE2 and TNF-alpha at P < 0.01 in the following order of potency: HK < Live < HK+Live. For example, following the HK+Live challenge, PGE2 levels increased from 4.7 pg/ml at baseline to 362 pg/ml at day 5 and TNF-alpha increased from 26.4 pg/ml to 724 pg/ml at day 5. The same order of potency of the various challenges was maintained with regard to the toxic effects of P. gingivalis on pregnancy outcome. For the HK+Live challenge, fetal weight was decreased 24%; embryolethality increased to 26.5% and the percent fetal resorption increased to 10.6% compared with control animal levels. There was a statistically significant association between increasing levels of both PGE2 and TNF-alpha and fetal growth retardation and embryolethality at P < 0.001. These data suggest that infections with gram-negative periodontal pathogens can elicit adverse pregnancy outcomes and that the levels of PGE2 and TNF-alpha produced as a result of challenge are associated with the severity of fetal effect.

Effects of Escherichia coli and Porphyromonas gingivalis lipopolysaccharide on pregnancy outcome in the golden hamster.

This report describes the effects of two gram-negative bacterial endotoxin (lipopolysaccharide [LPS]) preparations on hamster pregnancy outcome variables. Single intravenous challenges with Escherichia coli and Porphyromonas gingivalis LPS on day 8 of pregnancy produced dose-dependent effects on fetal weight malformation and fetal resorption with E. coli LPS having potent embryolethal effects. Premating maternal exposure to P. gingivalis produced embryolethal effects similar to those of E. coli. These data suggest that maternal exposure to P. gingivalis LPS prior to and during pregnancy can induce deleterious effects on the developing fetus.

Effect of lactoferrin on interaction of Prevotella intermedia with plasma and subepithelial matrix proteins.

A lactoferrin-binding protein with an estimated molecular mass of 57 kDa was identified in the cell envelope of Prevotella intermedia by gel electrophoresis and Western-blot analysis. Peroxidase-labeled bovine lactoferrin and human lactoferrin showed similar specific binding to this protein. Whole cells of P. intermedia were also examined for interactions with 5 125I-labeled plasma and subepithelial matrix proteins. A high degree of binding was found with fibronectin, collagen type I and type IV and laminin, whereas a moderate interaction was detected with fibrinogen. The ability of bovine lactoferrin to affect the interactions of the above proteins with P. intermedia was examined. In the presence of unlabeled bovine lactoferrin, a dose-dependent inhibition of binding was observed with all 5 proteins tested. Unlabeled bovine lactoferrin also dissociated the bacterial complexes with these proteins. The complexes with laminin or collagen type I were more effectively dissociated than fibronectin or fibrinogen, whereas the interaction with collagen type IV was affected to a lesser extent. A strain-dependent variation in the effect of bovine lactoferrin was observed. These data establish the presence of a specific lactoferrin-binding protein in the cell envelope of P. intermedia. The ability of lactoferrin to inhibit the binding of some plasma and subepithelial matrix proteins to P. intermedia could be a protective mechanism against the establishment of this pathogen in the periodontal pocket.

Changes in the localization of catalase during differentiation of neutrophilic granulocytes.

The nature of the compartmentalization of catalase in human myeloid cells is an unresolved issue. Using a rabbit polyclonal antibody specific for catalase, indirect immunocytofluorescence of immature leukemic promyelocytes (HL-60 cells) showed a pattern of small, sharp, punctate staining in the cytoplasm of all cells, while mature neutrophils showed a larger diffuse, flocculent pattern of cytoplasmic staining. Differential centrifugation of nitrogen cavitates of HL-60 cells indicated that the putative catalase-containing compartment was relatively fragile compared with the compartment(s) that contained myeloperoxidase (MPO), beta-hexosaminidase, beta-glucuronidase, and lysosomal alpha-mannosidase activities. Parallel studies using dimethylsulfoxide (DMSO)-induced HL-60 cells and mature neutrophils showed that, in the course of differentiation, there was an apparent shift in the localization of catalase from the granule fraction to the cytosolic fraction. Percoll-sucrose density gradient centrifugation of HL-60 cell cavitates showed a catalase-containing compartment with a mean peak density (1.05 g/mL) significantly lower than that of the major myeloperoxidase-containing compartment (1.08 g/mL); in mature neutrophils, catalase activity comigrated with lactate dehydrogenase (LDH) activity. Catalase in isolated fractions was protected from proteolysis in the absence, but not in the presence, of 0.1% Triton X-100. Digitonin titration experiments confirmed the compartmentalized nature of catalase in immature HL-60 cells and were consistent with a cytosolic localization in mature neutrophils. Ultrastructural localization of catalase by Protein A-gold immunocytochemistry demonstrated four to six catalase-containing compartments in all HL-60 cell profiles. In mature neutrophils, catalase was localized primarily in the cytoplasmic matrix, although in fewer than 2% of the cell profiles, one to two catalase-containing compartments were observed. The changes in catalase localization that occur during myeloid differentiation appear to be similar to the changes that occur during erythroid and megakaryocytic differentiation, and may have potential clinical significance in the classification of acute leukemia and in the development of drug resistance.

Inhibition of C3 and IgG proteolysis enhances phagocytosis of Porphyromonas gingivalis.

In the face of an apparently competent immune response to Porphyromonas gingivalis, it is unclear how P. gingivalis evades the immune response and persists in human periodontitis. Particularly germane may be its ability to resist phagocytosis by degrading and not binding serum opsonins. In our study, the resistance by invasive (W83 and A7436) and noninvasive (ATCC 33277) P. gingivalis strains to phagocytosis by human neutrophils was compared with their C3- and IgG-proteolytic activity. The ability of opsonic human serum antibody to inhibit C3 proteolysis was also evaluated. Our results indicate that the more phagocytosis-resistant invasive strains accumulate less 125I-C3 than the noninvasive strain; moreover, invasive strains degrade complement C3 in a dose-dependent manner, inhibitable by rabbit antiserum or adult periodontitis serum. Opsonization and C3 accumulation on strain A7436 were both facilitated by pretreatment with rabbit antiserum, certain adult periodontitis sera, protease inhibitors (p-chloromercuriphenylsulfonic acid, N alpha-p-tosyl-L-lysine chloromethyl ketone, diisopropylfluorophosphate), heat (60 degrees C, 15 min), and were Mg2+ dependent. The sera from 13 human subjects with or without periodontitis were assayed for antibody titers to P. gingivalis (ELISA units), opsonic activity (% of PMN engaged in phagocytosis) and enhancement of C3 accumulation. Statistically significant associations were observed between % of PMN engaged in phagocytosis and % C3 accumulation, between % of PMN engaged in phagocytosis and ELISA units and between % C3 accumulation and ELISA units. Degradation of purified rabbit IgG, but not specific antibody-containing rabbit IgG by P. gingivalis A7436 was observed, and was inhibited by diisopropyl fluorophosphate (DFP) or cold (2 degrees C). Our data suggest that C3 and IgG cleavage by P. gingivalis proteases are inhibitable by antibody and are contributory factors in, but are not the sole determinants of, phagocytosis resistance.