A fluorescence assay to determine the viable biomass of microcosm dental plaque biofilms

Dental plaque bacteria form complex and robust cell aggregates which cannot be counted accurately using epifluorescence microscopy. This causes a significant problem for quantifying their viability. The aim of the investigation was to develop a fluorescence assay to quantify the viable biomass of dental plaque biofilms. Using an artificial mouth system, microcosm plaques were grown under a range of fluoride and mineralizing conditions, and were treated with the oral antiseptics chlorhexidine (CHX) and Listerine. Plaques were harvested, made into suspension and stained in microtitre plates with a di-chromatic fluorescent stain (Live/Dead BacLight). The percentage of viable biomass was calculated from the regression data generated from a viability standard. The standard was constructed using different proportions of viable (green fluorescence) and non-viable (red fluorescence) plaque bacteria, and growth conditions for optimizing green fluorescence were investigated. The results from the assay showed that fluoride at 1000 and 3000 ppm promoted plaque viability by at least 15%, from approximately 45 to 60%, and at 5000 ppm to approximately 87% (P<0.05). Plaques treated with Listerine and CHX from d 0 yielded insufficient biomass to be tested for viability, however 14 d post-treatment, viability was comparable to untreated plaques (approximately 55%, P>0.05). Treatment with Listerine and CHX from d 3 reduced biomass but not viability. Development of this assay enabled viability of plaque bacteria which cannot be resolved with epifluorescence microscopy to be evaluated. It offers a rapid alternative to epifluorescence microscopy and could be applied to nonoral bacteria.     

Influence of the fluoride releasing dental materials on the bacterial flora of dental plaque

The assessment of influence of silver-free, fluor releasing dental materials on dental plaque bacteria quantity. 17 patients were included into the study. 51 restorations were placed following manufacturers recommendations. Following materials were used: conventional glassionomer Ketac-Molar ESPE, resin modified glassionomer Fuji II LC GC and fluor containing composite Charisma Heraeus Kulzer Class V restorations were placed in following teeth of upper and lower jaw: canines, first bicuspids, second bicuspids. Sound enamel was a control. After 10 weeks the 72 hours old dental plaque was collected from surface of restorations and control using sterile probe. Total amount of 68 dental plaques were investigated. Each plaque was placed on scaled and sterile aluminum foil. The moist weight of dental plaque was scaled. Dental plaque was moved into 7 ml 0.85% NaCl solution reduced by cystein chlorine hydrogen and disintegrated by ultrasounds (power:100 Watt, wave amplitude: 5 micorm). The suspension of dental plaque was serially diluted from 10(-4) to 10(-5) in sterile 0,85% NaCl solution, and seeded with amount of 0.1 ml on appropriate base. In dental plaque trials the amount of cariogenic bacteria was calculated--Streptococcus mutans, Streptococcus, Lactobacillus, Veillonella and Neisseria, and also total amount of aerobic and anaerobic bacteria was measured. Microbiologic studies were performed in Institute of Microbiology, Medical University, ?ód?. Statistical analysis of collected data was accomplished. In 72 hours old dental plaques collected from the surfaces of Ketac -Molar, Fuji II LC, Charisma after 10 weeks since being placed into the class V cavity, results show no statistically significant differences in the amount of Streptococcus mutans, Streptococcus spp., Lactobacillus spp., Veillonella spp., Neisseria spp, in total amount of aerobic and anaerobic bacteria and in the quantity proportion of Streptococcus mutans versus Streptococcus spp. in comparison with control trail. Results show no statistically significant differences in the amount of listed above bacteria and in the proportion of Streptococcus mutans versus Streptococcus spp. in 72 hours old dental plaques collected from surfaces of investigated restorative materials.     

Urease and Dental Plaque Microbial Profiles in Children

Objective

Urease enzymes produced by oral bacteria generate ammonia, which can have a significant impact on the oral ecology and, consequently, on oral health. To evaluate the relationship of urease with dental plaque microbial profiles in children as it relates to dental caries, and to identify the main contributors to this activity.

Methods

82 supragingival plaque samples were collected from 44 children at baseline and one year later, as part of a longitudinal study on urease and caries in children. DNA was extracted; the V3–V5 region of the 16S rRNA gene was amplified and sequenced using 454 pyrosequencing. Urease activity was measured using a spectrophotometric assay. Data were analyzed with Qiime.

Results

Plaque urease activity was significantly associated with the composition of the microbial communities of the dental plaque (Baseline P = 0.027, One Year P = 0.012). The bacterial taxa whose proportion in dental plaque exhibited significant variation by plaque urease levels in both visits were the family Pasteurellaceae (Baseline P<0.001; One Year P = 0.0148), especially Haemophilus parainfluenzae. No association was observed between these bacteria and dental caries. Bacteria in the genus Leptotrichia were negatively associated with urease and positively associated with dental caries (Bonferroni P<0.001).

Conclusions

Alkali production by urease enzymes primarily from species in the family Pasteurellaceae can be an important ecological determinant in children’s dental plaque. Further studies are needed to establish the role of urease-associated bacteria in the acid/base homeostasis of the dental plaque, and in the development and prediction of dental caries in children.     

Antimicrobial Peptides and their Potential as Oral Therapeutic Agents

Dental caries (tooth decay) and periodontal diseases are the most prevalent bacterial infectious diseases of mankind, together affecting almost the entire population of the world. Both diseases are caused by oral bacteria that exist as components of a polymicrobial biofilm, known as dental plaque, on the tooth surface. The control of specific types of bacteria and/or total numbers of bacteria in dental plaque could lead to prevention or resolution of disease. Antimicrobial peptides isolated from a wide range of natural sources have been known for over 30 years yet little progress had been made in the therapeutic application of these peptides. This is due in part to the characteristics, including susceptibility to proteolysis, of the cationic amphipathic antimicrobial peptides that form the majority of peptides discovered to date. Bovine milk is a readily available source of a range of bioactive peptides. We have isolated and characterized a novel anionic antimicrobial peptide, Kappacin, from bovine milk. Antibacterial activity of the peptide is increased when it is complexed with zinc ions. We have demonstrated that a Kappacin:Zn²⁺ preparation is able to suppress the growth of oral cariogenic bacteria in a biofilm. The Kappacin:Zn²⁺ antibacterial complex may have potential as an additive to oral care products and other delivery vehicles for the control of oral disease.     

Aggregative Behavior of Bacteria Isolated from Canine Dental Plaque

Interbacterial adhesion of bacteria isolated from canine dental plaque was assessed by performing a visual coaggregation assay. Using conditions mimicking those likely to be encountered in vivo, the entire cultivable plaque microbiota from a single dog was assessed, and eight (6.7%) unique coaggregation interactions were detected for 120 crosses. Transmission electron microscopy was used to visualize several of the bacteria in isolation and as coaggregates, which revealed surface structures that may be involved in adhesion and coaggregation. The results of this study indicate that the prevalence of coaggregating pairs of dental plaque bacteria in dogs is similar to the prevalence of coaggregating pairs of dental plaque bacteria reported in humans. In addition, genera found in both hosts generally exhibited similar coaggregation reactions; however, autoaggregation was found to be more common among oral bacteria isolated from dogs.     

Lack of insulin stimulation on Percoll-prepared or high-speed-centrifuged rat liver hepatocytes

Rat liver hepatocytes isolated from a 30-31% percoll density gradient at 10,000g are refractory toward insulin stimulation of 14CO2 formation and 14C-incorporation into protein from [2,3-14C]succinate. Basal hepatocyte oxidation of succinate was not impaired by the presence of 5% percoll in the incubation medium nor was it impaired when percoll-free hepatocytes were used that had been isolated after centrifugation at 9000g; however, in both instances the stimulatory effect of insulin was lost. Hepatocyte damage may have occurred in these processes. This is in contrast to previous work which shows that insulin (10 mU/ml) will stimulate [2,3-14C]succinate oxidation and [2,3-14C]succinate carbon incorporation into protein in non-percoll-treated hepatocytes (isolated by centrifugation at 10g) by about 29%. We conclude that the latter procedure although more time consuming is the more gentle method of choice and leaves the hepatocyte in a form more closely related to an in vivo state than does treatment with a percoll density gradient at 10,000g.     

Aggregative behavior of bacteria isolated from canine dental plaque

Interbacterial adhesion of bacteria isolated from canine dental plaque was assessed by performing a visual coaggregation assay. Using conditions mimicking those likely to be encountered in vivo, the entire cultivable plaque microbiota from a single dog was assessed, and eight (6.7%) unique coaggregation interactions were detected for 120 crosses. Transmission electron microscopy was used to visualize several of the bacteria in isolation and as coaggregates, which revealed surface structures that may be involved in adhesion and coaggregation. The results of this study indicate that the prevalence of coaggregating pairs of dental plaque bacteria in dogs is similar to the prevalence of coaggregating pairs of dental plaque bacteria reported in humans. In addition, genera found in both hosts generally exhibited similar coaggregation reactions; however, autoaggregation was found to be more common among oral bacteria isolated from dogs.     

Extracellular dextranase from Streptococcus oralis.

A human dental plaque organism, Streptococcus oralis (S. mitior), was cultivated in a dextran-free, dialysed medium, and dextranase activity was isolated from the cell-free, culture supernatant. The lyophilized, crude enzyme preparation, optimum pH 6, was subjected sequentially to anion exchange and gel filtration fast protein liquid chromatography (FPLC). The dextranolytic fraction from gel filtration FPLC produced a symmetrical, baseline resolved peak. The dextranolytic enzyme was purified 1,126-fold with a yield of 2.4%. Amino acid analysis revealed a large proportion of alanine and an abundance of acidic amino acids. This extracellular enzyme isolated from S. oralis is constitutive and has a relative molecular mass of 45 kD. Further investigation of the possible structural and biochemical effects of endogenous bacterial glucanases in human dental plaques is necessary.     

A rapid method for the enumeration of cultivable bacteria in dental plaque samples

A rapid method for estimating the number of cultivable bacteria in dental plaque samples was developed in which five fluorogenic substrates (4-methylumbelliferyl (4-MU)-α-glucoside, 4-MU-β-glucoside, glycyl-prolyl-7-amido-4-methyl-coumarin (-AMC), tyrosyl-AMC and prolyl-AMC) in 150 μl were incubated with 50 μl of dental plaque suspension. The increase in fluorescence measured at emission and excitation wavelengths of 380 and 460 nm correlated with the colony count per plaque sample. The rapid method allows the number of cultivable bacteria in plaque samples to be estimated and, with the choice of appropriate substrates, it should be useful for estimating the numbers of bacteria in other mixed populations.     

Bacteriological Studies of the Effects of Cow's Milk on Dental Plaque and Dental Caries in Rats

The effects of liquid milk and skim milk powder on the bacterial composition of rat dental plaque and dental caries were examined in two separate experiments. First, groups of rats fed a cariogenic diet plus one or other of three types of liquid milk had. after 28 d. similar plaque flora. Those rats receiving reconstituted spray-dried skim milk had a significantly higher incidence of dental caries than those receiving either pasteurized and homogenized milk or ultra-heat treated milk. The differences in caries scores may be related to differences in inorganic phosphate and calcium levels of the milks. Secondly, rats fed a diet containing 65% phosphate-free sucrose plus 32% spray-dried skim milk in powder form had a significantly lower dental caries score than did rats receiving a diet containing 65% sucrose plus 32% autoclaved roller-dried skim milk powder. At the end of this experiment, the plaque flora had changed significantly and the difference in caries incidence was related to the reduction in the percentage of potentially cariogenic bacteria.
These results indicate that the mechanism by which milk reduces dental caries incidence may be (a) by remineralizing incipient carious lesions or (b) by mediating changes in the bacterial composition of dental plaque.     

Isolation and characterization of the mutans streptococci from the dental plaques in Koreans

Mutans streptococci have been implicated as cariogenic bacteria in dental caries because they can produce high levels of dental caries-causing lactic acid and extracellular polysaccharide. The aim of this study was to isolate and characterize the mutans streptococci from the dental plaque obtained from Koreans. The dental plaque samples were collected from the anterior and molar teeth of both jaws in 155 subjects (aged 2 to 33.2 years, average age 13.7+/-4.7 years). The samples were diluted by 100-fold in 1x PBS and plated on mitis-salivarius bacitracin (MSB) agar plates. The mutans streptococci grown on MSB plates were screened by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) targeting dextranase gene (dex). The mutans streptococci were identified at the species level using a 16S rDNA sequencing comparison method. The biochemical tests were carried out to biotype the mutans streptococci. Ninety-five strains of the mutans streptococci out of 358 colonies, which were derived from 141 subjects, were isolated. Of them, 77 strains and 18 strains were Streptococcus mutans and Streptococcus sobrinus, respectively. The biotyping data showed that 62, 1, 20, 10, and 2 strains were biotypes I, II, IV, V and variant, respectively. Of the two strains of variant biotype, one strains was similar to biotype IV except that it was positive to the arginine hydrolysis test. We considered this one strain a new biotype, and classified it as biotype VII. In conclusion, S. mutans and its biotype I was most frequently isolated in Korean dental plaque. The mutans streptococci strains isolated in this study might be useful for the study of the pathogenesis and the prevention of dental caries.     

Extracellular Glycoside Hydrolase Activities in the Human Oral Cavity

Carbohydrate availability shifts when bacteria attach to a surface and form biofilm. When salivary planktonic bacteria form an oral biofilm, a variety of polysaccharides and glycoproteins are the primary carbon sources; however, simple sugar availabilities are limited due to low diffusion from saliva to biofilm. We hypothesized that bacterial glycoside hydrolase (GH) activities would be higher in a biofilm than in saliva in order to maintain metabolism in a low-sugar, high-glycoprotein environment. Salivary bacteria from 13 healthy individuals were used to grow in vitro biofilm using two separate media, one with sucrose and the other limiting carbon sources to a complex carbohydrate. All six GHs measured were higher in vitro when grown in the medium with complex carbohydrate as the sole carbon source. We then collected saliva and overnight dental plaque samples from the same individuals and measured ex vivo activities for the same six enzymes to determine how oral microbial utilization of glycoconjugates shifts between the planktonic phase in saliva and the biofilm phase in overnight dental plaque. Overall higher GH activities were observed in plaque samples, in agreement with in vitro observation. A similar pattern was observed in GH activity profiles between in vitro and ex vivo data. 16S rRNA gene analysis showed that plaque samples had a higher abundance of microorganisms with larger number of GH gene sequences. These results suggest differences in sugar catabolism between the oral bacteria located in the biofilm and those in saliva.     

牙菌斑形成早期微生物定植规律的定量PCR研究

目的观察牙面彻底清洁后24 h内牙面上定植的变异链球菌、伴放线放线杆菌和总微生物的数量变化。方法 8名健康成人接受全口洁治后,分别于6、12和24 h收集龈上菌斑,提取菌斑内细菌的基因组DNA。设计变异链球菌、伴放线放线杆菌和总菌特异性引物,获得目的基因,克隆于大肠埃希菌DH5α感受态细胞,测序后获得质粒标准品。将样本和梯度稀释的质粒标准品进行SYBR Green I实时荧光定量PCR检测,绘制标准曲线,确定样本中变异链球菌、伴放线放线杆菌和总菌DNA拷贝数。结果牙面彻底清洁6 h后即有大量变异链球菌定植,变异链球菌拷贝数占总菌的0.32%,24 h后增加到0.67%。12 h时定植的变异链球菌拷贝数高于6 h,差异有统计学意义（P=0.031）,24 h后继续增加（P=0.024）。12 h时定植的总菌拷贝数高于6 h,差异有统计学意义（P=0.004）,24 h后继续增加（P=0.042）。牙菌斑中伴放线放线杆菌的拷贝数低于103。结论早期牙菌斑中12 h定植的变异链球菌和总菌数量高于6 h,且24 h内不断增加,仅有少量伴放线放线杆菌定植。     

Inhibition of cyclic nucleotide phosphodiesterase activity by an endogenous factor.

Cyclic nucleotide phosphodiesterase activity of several tissues of rat is inhibited by an endogenous factor isolated from rat adipocytes following exposure of these cells to agents that raise intracellular cyclic AMP levels. The inhibitory action was demonstrated with varying cAMP concentrations from 0.1-400 muM. Enzyme from 10,000 X g supernatant of epididymal adipose tissue was inhibited approximately 2-3 fold more than the plasma membrane of adipocytes by a given concentration of the feedback regulator. Kinetic analysis of cAMP phosphodiesterase of plasma membrane showed that feedback regulator (8.8 U/ml) inhibited the Vmax 48%. The maximum inhibition of phosphodiesterase by feedback regulator (20 U/ml) was about 80%. The apparent Km for cAMP was increased. The ability of phosphodiesterase from several tissues of rat (10,000 X g supernatant) to hydrolyze cAMP and cGMP was tested. Feedback regulator inhibited cGMP hydrolysis in cardiac muscle and 5 other tissues 23-92% more than it inhibited the hydrolysis of cAMP. The physiological significance of this inhibitory effect can begin to be clarified when the feedback regulator is purified to homogeneity and characterized.     

Biodegradation of photosynthetically produced extracellular organic carbon from intertidal benthic algae

14C-labeled extracellular products of a natural microphytobenthic community and two species of benthic diatoms (Nitzschia hybridaeformis and Amphora coffeaeformis) were fractionated into extracellular dissolved organic carbon (14C-EDOC), organic carbon extracted with EDTA (14C-EDTA-extractable OC) and extracellular polymeric substances (14C-EPS). The biodegradation of this labeled extracellular organic carbon by bacteria in sediments was examined to determine the processes of enzymatic degradation of photosynthetically-produced extracellular organic carbon from microphytobenthos in an intertidal flat ecosystem. In addition, primary production as well as extracellular enzyme activities (beta- and alpha-glucosidase) were measured to evaluate the possible relationship between organic carbon production and microbiological degradation at the Isshiki intertidal flat in Mikawa Bay, Japan. With all three 14C-fractions extracted from a natural microphytobenthic assemblage and two species of benthic diatoms, more than 50% of the added substrates were mineralized within 24 h by the bacterial community in sediments. At that time, the percentage of high-molecular-weight compounds (>5 K MW) to total MW compounds of 14C-EDTA-extractable OC and 14C-EPS fractions decreased within 24 h from 50.9 to 6.6% and 74.5 to 11.1%, respectively. In situ, beta- and alpha-glucosidase activity in sediment was higher than in the seawater column (at a depth of 1 m), though the photosynthetic production of microphytobenthos was equal to that of phytoplankton. Based on our previous studies that microphytobenthos produced much more extracellular products than phytoplankton, it is assumed from these results that carbon flowing into the microbial loop through the mediation of enzymatic degradation of extracellular products in a benthic system exceeds that in the overlying water column.     

Streptococcus mutans, an assessment of its physiological potential in relation to dental caries.

Streptococcus mutans converts low levels of sucrose to lactic acid, but at high levels favours synthesis of glucans for plaque accumulation. Thus, the continued exposure to sucrose fluxes would select microorganisms in the oral cavity (S. mutans being a prototype) with highly specialized adaptation and potential dental caries activity. The bacteria that have evolved physiological systems to function efficiently under these conditions are the lactic acid bacteria. These organisms survive in environments where carbohydrate availability is constantly changing. High tolerances to acidic environments may be an important determinant in establishing the ecology of the carious lesion. Also, the intercellular polysaccharide storgae (glycogenamylopectin) and extracellular polymer reserves (levan and soluble glucan) are important during carbohydrate depletion. Further, the formation of insoluble glucans is a prerequisite for the caries process on smooth surfaces of teeth through plaque development. These conditions could result in an increase in S. mutans and cariogenic microorganisms. As a result, this process may be best understood as a manifestation of an amphibiotic shift.     

Glycoproten biosynthesis in Trypanosoma brucei. The glycosylation of Glycoproteins located in and attached to the plasma membrane

1. Glycosyltransferase activity incorporating N-[14C]acetylglucosamine ([14C]GlcNAc) from uridine diphosphate N-[14C]acetylglucosamine (UDP-[14C]GlcNAc) into endogenous proitein acceptors was localized primarily in the plasma membrane of Trypanosoma brucei. 2. The acceptor site for the nucleotide sugar was further localized exclusively to the cytoplasmic face of the plasma membrane. 3. The glycosyltransferase produced elongation of the growing oligosaccharide chains while they were attached to their peptide acceptors. 4. This glycosyltransferase activity was incapable of initiating sugar attachment directly to amino acid residues within peptide acceptors. 5. The dolichyl-phosphate-sugar pathway for glycoprotein biosynthesis was either absent of only present at a very low level in T. brucei when compared to rat liver. 6. All oligosaccharide chains accepting GlcNAc were of the same or very similar lengths. 7. Both O-glycosidic (26%) and N-glycosidic (74%) linkages (exclusive of hydroxylysine attachment) were found. 8. Glycosyltransferase activity required either Mn2+ or Mg2+, had a pH optimum of 6.5 and was temperature-dependent. 9. The kinetics of incorporation were complex, probably a result of multiple acceptors or glycosyltransferases whose activities were characterized by a Km of 30 microM for UDP-GlcNAc with a V of 40 pmol x mg protein -1 x min-1 for the highest affinity system and a Km of approximately 2 mM for UDP-GlcNAc with a V of approximately 400 pmol x mg protein-1 x min-1 for the lowest affinity system. 10. Glycosyltransferases using UDP-GlcNAc, uridine diphosphate glucose, uridine diphosphate galactose and guanidine diphosphate mannose as glycosyl donors were observed. Each peptide acceptor was specific for a singloe labelled sugar in the absence of other unlabelled nucleotide sugars. 11. The final extent of incorporation of GlcNAc was due primarily to exhaustion of peptide acceptor. 12. An inhibitor of UDP-[14C]GlcNAc incorporation into plasma membranes was found in the cytoplasmic fraction.     

Functional expression of enterobacterial O-polysaccharide biosynthesis enzymes in Bacillus subtilis

The expression of heterologous bacterial glycosyltransferases is of interest for potential application in the emerging field of carbohydrate engineering in gram-positive organisms. To assess the feasibility of using enzymes from gram-negative bacteria, the functional expression of the genes wbaP (formerly rfbP), wecA (formerly rfe), and wbbO (formerly rfbF) from enterobacterial lipopolysaccharide O-polysaccharide biosynthesis pathways was examined in Bacillus subtilis. WbaP and WecA are initiation enzymes for O-polysaccharide formation, catalyzing the transfer of galactosyl 1-phosphate from UDP-galactose and N-acetylglucosaminyl 1-phosphate from UDP-N-acetylglucosamine, respectively, to undecaprenylphosphate. The WecA product (undecaprenylpyrophosphoryl GlcNAc) is used as an acceptor to which the bifunctional wbbO gene product sequentially adds a galactopyranose and a galactofuranose residue from the corresponding UDP sugars to form a lipid-linked trisaccharide. Genes were cloned into the shuttle vectors pRB374 and pAW10. In B. subtilis hosts, the genes were effectively transcribed under the vegII promoter control of pRB374, but the plasmids were susceptible to rearrangements and deletion. In contrast, pAW10-based constructs, in which genes were cloned downstream of the tet resistance cassette, were stable but yielded lower levels of enzyme activity. In vitro glycosyltransferase assays were performed in Escherichia coli and B. subtilis, using membrane preparations as sources of enzymes and endogenous undecaprenylphosphate as an acceptor. Incorporation of radioactivity from UDP-alpha-D-(14)C-sugar into reaction products verified the functionality of WbaP, WecA, and WbbO in either host. Enzyme activities in B. subtilis varied between 20 and 75% of those measured in E. coli.     

Differences in microbiological composition of saliva and dental plaque in subjects with different drinking habits

Several foods have been shown to contain natural components (especially polyphenols) which display anti-adhesive properties against Streptococcus mutans, the aetiological agent responsible for dental crown caries, as well as inhibition of glucosyltransferases, which are the S. mutans enzymes involved in the synthesis of an adherent, water-insoluble glucan from sucrose. Other studies have demonstrated an in vitro action on oral plaque biofilm formation and desorption. This study evaluated whether the activity displayed in vitro by food compounds could affect the microbiological composition of saliva and dental plaque of subjects with a diet rich in these foods, comparing the results with those obtained from subjects with a different diet. The foods considered were: coffee, barley coffee, tea and wine. A total of 93 subjects were recruited into the study. Six samples of both plaque and saliva were collected from each subject at roughly one-monthly intervals. Total bacteria, total streptococci, S. mutans and lactobacilli counts were determined by culture in both saliva and dental plaque. The highest bacterial titres were recorded for the control population, while each drinking habit subgroup showed counts roughly one log lower than the controls. These differences in bacterial counts proved statistically significant (P<0.05). As far as dental plaque was concerned, while total counts did not significantly vary per mg of plaque in the subjects belonging to the different drinking habit subgroups, a significant decrease (P<0.05) was observed in those subjects drinking coffee, tea, barley coffee and wine when mutans streptococci and lactobacilli were evaluated. In several cases a more than one log decrease was observed. Plaque indices were also determined, and a significant (P<0.05) reduction in values was recorded in the subjects belonging the specific drinking habit subgroups compared to the control group. This study indicates that there is a correlation between consumption of specific foods and oral health in terms of reduced plaque deposition and lower counts of odontopathogens.     

Coaggregation-mediated interactions of streptococci and actinomyces detected in initial human dental plaque

Streptococci and actinomyces that initiate colonization of the tooth surface frequently coaggregate with each other as well as with other oral bacteria. These observations have led to the hypothesis that interbacterial adhesion influences spatiotemporal development of plaque. To assess the role of such interactions in oral biofilm formation in vivo, antibodies directed against bacterial surface components that mediate coaggregation interactions were used as direct immunofluorescent probes in conjunction with laser confocal microscopy to determine the distribution and spatial arrangement of bacteria within intact human plaque formed on retrievable enamel chips. In intrageneric coaggregation, streptococci such as Streptococcus gordonii DL1 recognize receptor polysaccharides (RPS) borne on other streptococci such as Streptococcus oralis 34. To define potentially interactive subsets of streptococci in the developing plaque, an antibody against RPS (anti-RPS) was used together with an antibody against S. gordonii DL1 (anti-DL1). These antibodies reacted primarily with single cells in 4-h-old plaque and with mixed-species microcolonies in 8-h-old plaque. Anti-RPS-reactive bacteria frequently formed microcolonies with anti-DL1-reactive bacteria and with other bacteria distinguished by general nucleic acid stains. In intergeneric coaggregation between streptococci and actinomyces, type 2 fimbriae of actinomyces recognize RPS on the streptococci. Cells reactive with antibody against type 2 fimbriae of Actinomyces naeslundii T14V (anti-type-2) were much less frequent than either subset of streptococci. However, bacteria reactive with anti-type-2 were seen in intimate association with anti-RPS-reactive cells. These results are the first direct demonstration of coaggregation-mediated interactions during initial plaque accumulation in vivo. Further, these results demonstrate the spatiotemporal development and prevalence of mixed-species communities in early dental plaque.