Oral Mucosal In Vitro Cell Culture Model to Study the Effect of Fructilactobacillus Phage on the Interplay between Food Components and Oral Microbiota.

BACKGROUND AND AIMS: Dietary habits, food, and nutrition-associated oral dysbiosis lead to the formation of microbial biofilm, which affects the overall health of an individual by promoting systemic diseases like cardiovascular disease, immunological disorders, and diabetes. Today's diets contain a variety of fermentable carbohydrates, including highly processed starch and novel synthetic carbohydrates such as oligofructose, sucralose, and glucose polymers. These constitute risk factors in the initiation and progression of oral dysbiosis. Oral, lung and gut microbiomes are interlinked with each other via direct and indirect ways. It is unknown whether or not lactobacilli and Lactobacillus phages are able to rescue dysbiotic effects by decreasing the uptake into the cells of excess simple sugars and their derivatives present within the digestive tract. MATERIALS AND METHODS: Using transwell cell culture plate inserts, six groups of in vitro co-cultured TR146 and HepG2 cells, grown in DMEM medium either with or without sucrose (10 % v/v), were treated with 1) PBS, 2) Fructilactobacillus sanfranciscensis (F.s) H2A, 3) F.s H2A and sucrose, 4) F.s H2A plus sucrose plus phage EV3 lysate, 5) F.s H2A plus sucrose plus phage EV3 supernatant, and 6) F.s H2A plus sucrose plus phage EV3 particles. The pH of the culture medium (indicating lactic acid production) and key oral biomarkers, including cytokines (IL-1ß and IL-6), inflammatory chemokines (e.g., CXCL8 and CCL2), and homeostatic chemokines (e.g., CXCL4 and CCL18) were measured. RESULTS: Excess sucrose significantly enhanced inflammatory signal molecules (e.g., IL-1ß, IL-6, and CCL2) secretion, concomitant with the enhancement of intracellular triglycerides in co-cultured HepG2 cells. Co-culture with F.s H2A decreased the sucrose-induced release of inflammatory signal molecules from co-cultured cells, these effects being abolished by F.s phage EV3. CONCLUSION: This study shows that Lactobacillus phages apparently influence the interplay between food components, oral microbiota, and the oral cellular milieu, at least in part by affecting the microbial uptake of excess free simple sugars from the oral milieu. To confirm the biological consequences of these effects on human oral microbiota and health, further studies are warranted, incorporating ex vivo studies of human dental plaque biofilms and host biomarkers, such as cytohistological, molecular, or biochemical measurements.

Shaping ability of four root canal instrumentation systems in simulated 3D-printed root canal models.

INTRODUCTION: The aim of this study was to compare the shaping ability of four root canal preparation systems in newly developed 3D-printed root canal models. MATERIALS AND METHODS: For this study, 1080 3D-printed acrylic resin blocks with nine different root canal configurations were produced. They were prepared with Reciproc R25 (#25), F6 SkyTaper (#25 and #30) F360 (#25 and #35) and One Shape (#25) (N = 30 per system). Pre- and post-instrumentation images were superimposed for evaluation of the centering ratio of the different systems. Ledges, instrument fractures and preparation times were also recorded. Analysis of variance (ANOVA) and post-hoc Tukey tests were conducted, comparing the mean canal centering ratios and the mean preparation times. RESULTS: There were significant differences between all systems regarding the centering ratios in the different root canal configurations (ANOVA p < 0.001). The root canal configuration had considerable effect on the centering ratio of the instruments. The best overall mean centering ratios were achieved with F6 SkyTaper #25 instruments especially in canal configurations with big curvature angles and radii, while F360 #35 was least centered especially in canals with small curvature angles and radii. Most ledges occurred with OneShape, while it was the significantly (p < 0.001) fastest preparation system (86.7 s (SD 13.53)) and Reciproc the significantly (p < 0.001) slowest (103.0 s (SD 20.67)). CONCLUSION: 3D-printed root canals are suitable to produce challenging canal configurations and to investigate the limitations of root canal instruments. We found that all instruments caused canal transportations. However, F6 SkyTaper #25 files had better overall centering ratios than the other instruments. In canal configurations with small curvature radii, the centering ratio of some instruments is low and the probability for ledges is increased.

Solvent free fabrication of micro and nanostructured drug coatings by thermal evaporation for controlled release and increased effects.

Nanostructuring of drug delivery systems offers many promising applications like precise control of dissolution and release kinetics, enhanced activities, flexibility in terms of surface coatings, integration into implants, designing the appropriate scaffolds or even integrating into microelectronic chips etc. for different desired applications. In general such kind of structuring is difficult due to unintentional mixing of chemical solvents used during drug formulations. We demonstrate here the successful solvent-free fabrication of micro-nanostructured pharmaceutical molecules by simple thermal evaporation (TE). The evaporation of drug molecules and their emission to a specific surface under vacuum led to controlled assembling of the molecules from vapour phase to solid phase. The most important aspects of thermal evaporation technique are: solvent-free, precise control of size, possibility of fabricating multilayer/hybrid, and free choice of substrates. This could be shown for twenty eight pharmaceutical substances of different chemical structures which were evaporated on surfaces of titanium and glass discs. Structural investigations of different TE fabricated drugs were performed by atomic force microscopy, scanning electron microscopy and Raman spectroscopy which revealed that these drug substances preserve their structurality after evaporation. Titanium discs coated with antimicrobial substances by thermal evaporation were subjected to tests for antibacterial or antifungal activities, respectively. A significant increase in their antimicrobial activity was observed in zones of inhibition tests compared to controls of the diluted substances on the discs made of paper for filtration. With thermal evaporation, we have successfully synthesized solvent-free nanostructured drug delivery systems in form of multilayer structures and in hybrid drug complexes respectively. Analyses of these substances consolidated that thermal evaporation opens up the possibility to convert dissoluble drug substances into the active forms by their transfer onto a specific surface without the need of their prior dissolution.

Common genetic risk variants of TLR2 are not associated with periodontitis in large European case-control populations.

AIM: Involvement of TLR2 in the pathophysiology of periodontitis has widely been discussed, but hitherto, no validated genetic associations were reported. Previous association studies lacked sufficient statistical power and adequate haplotype information to draw unambiguous conclusions. The aim of this study was to comprehensively investigate TLR2 linkage disequilibrium (LD) regions for their potential associations with periodontitis in two large analysis populations of aggressive (AgP) and chronic periodontitis (CP) of North West European descent. MATERIALS AND METHODS: The study population comprised 598 AgP patients, 914 CP patients and 1804 healthy controls. Analysis of TLR2 LD regions was performed with haplotype tagging SNPs (tagSNPs) using SNPlex and TaqMan genotyping assays. Genotypic, dominant, multiplicative, and recessive genetic models were tested. The genotypes were adjusted for the covariates smoking, diabetes, and gender. Resequencing was performed by Sanger technology. RESULTS: Upon covariate adjustment and correction for multiple testing, no tagSNPs showed significant associations with AgP or CP. Targeted resequencing of exon 3 in 47 AgP cases identified carriership of two common and three rare variants. CONCLUSION: Common LD regions of TLR2 do not show genetic associations with periodontitis in the North West European population. Resequencing of exon 3 could not identify disease-associated rare variants in TLR2.

CDKN2BAS is associated with periodontitis in different European populations and is activated by bacterial infection.

Epidemiological studies have indicated a relationship between coronary heart disease (CHD) and periodontitis. Recently, CDKN2BAS was reported as a shared genetic risk factor of CHD and aggressive periodontitis (AgP), but the causative variant has remained unknown. To identify and validate risk variants in different European populations, we first explored 150 kb of the genetic region of CDKN2BAS including the adjacent genes CDKN2A and CDKN2B, covering 51 tagging single nucleotide polymorphisms (tagSNPs) in AgP and chronic periodontitis (CP) in individuals of Dutch origin (n=313). In a second step, we tested the significant SNP associations in an independent AgP and CP population of German origin (n=1264). For the tagSNPs rs1360590, rs3217992, and rs518394, we could validate the associations with AgP before and after adjustment for the covariates smoking, gender and diabetes, with SNP rs3217992 being the most significant (OR 1.48, 95% CI 1.19 to 1.85; p=0.0004). We further showed in vivo gene expression of CDKN2BAS, CDKN2A, CDKN2B, and CDK4 in healthy and inflamed gingival epithelium (GE) and connective tissue (CT), and detected a significantly higher expression of CDKN2BAS in healthy CT compared to GE (p=0.004). After 24 h of stimulation with Porphyromonas gingivalis in Streptococcus gordonii pre-treated gingival fibroblast (HGF) and cultured gingival epithelial cells (GECs), we observed a 25-fold and fourfold increase of CDKN2BAS gene expression in HGFs (p=0.003) and GECs (p=0.004), respectively. Considering the global importance of CDKN2BAS in the disease risk of CHD, this observation supports the theory of inflammatory components in the disease physiology of CHD.

A genome-wide association study identifies GLT6D1 as a susceptibility locus for periodontitis.

Periodontitis is a widespread, complex inflammatory disease of the mouth, which results in a loss of gingival tissue and alveolar bone, with aggressive periodontitis (AgP) as its most severe form. To identify genetic risk factors for periodontitis, we conducted a genome-wide association study in German AgP patients. We found AgP to be strongly associated with the intronic SNP rs1537415, which is located in the glycosyltransferase gene GLT6D1. We replicated the association in a panel of Dutch generalized and localized AgP patients. In the combined analysis including 1758 subjects, rs1537415 reached a genome-wide significance level of P= 5.51 x 10(-9), OR = 1.59 (95% CI 1.36-1.86). The associated rare G allele of rs1537415 showed an enrichment of 10% in periodontitis cases (48.4% in comparison with 38.8% in controls). Fine-mapping and a haplotype analysis indicated that rs1537415 showed the strongest association signal. Sequencing identified no further associated variant. Tissue-specific expression analysis of GLT6D1 indicated high transcript levels in the leukocytes, the gingiva and testis. Analysis of potential transcription factor binding sites at this locus predicted a significant reduction of GATA-3 binding affinity, and an electrophoretic mobility assay indicated a T cell specific reduction of protein binding for the G allele. Overexpression of GATA-3 in HEK293 cells resulted in allele-specific binding of GATA-3, indicating the identity of GATA-3 as the binding protein. The identified association of GLT6D1 with AgP implicates this locus as an important susceptibility factor, and GATA-3 as a potential signaling component in the pathophysiology of periodontitis.

Identification of a shared genetic susceptibility locus for coronary heart disease and periodontitis.

Recent studies indicate a mutual epidemiological relationship between coronary heart disease (CHD) and periodontitis. Both diseases are associated with similar risk factors and are characterized by a chronic inflammatory process. In a candidate-gene association study, we identify an association of a genetic susceptibility locus shared by both diseases. We confirm the known association of two neighboring linkage disequilibrium regions on human chromosome 9p21.3 with CHD and show the additional strong association of these loci with the risk of aggressive periodontitis. For the lead SNP of the main associated linkage disequilibrium region, rs1333048, the odds ratio of the autosomal-recessive mode of inheritance is 1.99 (95% confidence interval 1.33-2.94; P = 6.9 x 10(-4)) for generalized aggressive periodontitis, and 1.72 (1.06-2.76; P = 2.6 x 10(-2)) for localized aggressive periodontitis. The two associated linkage disequilibrium regions map to the sequence of the large antisense noncoding RNA ANRIL, which partly overlaps regulatory and coding sequences of CDKN2A/CDKN2B. A closely located diabetes-associated variant was independent of the CHD and periodontitis risk haplotypes. Our study demonstrates that CHD and periodontitis are genetically related by at least one susceptibility locus, which is possibly involved in ANRIL activity and independent of diabetes associated risk variants within this region. Elucidation of the interplay of ANRIL transcript variants and their involvement in increased susceptibility to the interactive diseases CHD and periodontitis promises new insight into the underlying shared pathogenic mechanisms of these complex common diseases.

Do different implant surfaces exposed in the oral cavity of humans show different biofilm compositions and activities?

Osseointegrated dental implants play an important role in restorative dentistry. However, plaque accumulation may cause inflammatory reactions around the implants, sometimes leading to implant failure. In this in vivo study the influence of two physical hard coatings on bacterial adhesion was examined in comparison with a pure titanium surface. Thin glass sheets coated with titanium nitride (TiN), zirconium nitride (ZrN) or pure titanium were mounted on removable intraoral splints in two adults. After 60 h of intraoral exposure, the biofilms were analyzed to determine the number of bacteria, the types of bacteria [by applying single-strand conformation polymorphism (SSCP analysis) of 16S rRNA genes], and whether or not the bacteria were active (by SSCP analysis of 16S rRNA). The results showed that bacterial cell counts were higher on the pure titanium-coated glass sheets than on the glass sheets coated with TiN or ZrN. The lowest number of bacterial cells was present on theZrN-coated glass. However, the metabolic activity (RNA fingerprints) of bacteria on TiN- and ZrN-coated glass sheets seemed to be lower than the activity of bacteria on the titanium-coated surfaces, whereas SSCP fingerprints based on 16S rDNA revealed that the major 16S bands are common to all of the fingerprints, independently of the surface coating.

Fibroblast growth on surface-modified dental implants: an in vitro study.

A major consideration in designing dental implants is the creation of a surface that provides strong attachment between the implant and bone, connective tissue, or epithelium. In addition, it is important to inhibit the adherence of oral bacteria on titanium surfaces exposed to the oral cavity to maintain plaque-free implants. Previous in vitro studies have shown that titanium implant surfaces coated with titanium nitride (TiN) reduced bacterial colonization compared to other clinically used implant surfaces. The aim of the present study was to examine the support of fibroblast growth by a TiN surface that has antimicrobial characteristics. Mouse fibroblasts were cultured on smooth titanium discs that were either magnetron-sputtered with a thin layer of titanium nitride, thermal oxidized, or modified with laser radiation (using a Nd-YAG laser). The resulting surface topography was examined by scanning electron microscopy (SEM), and surface roughness was estimated using a two-dimensional contact stylus profilometer. A protein assay (BCA assay) and a colorimetric assay to examine fibroblast metabolism (MTT) were used. Cellular morphology and cell spreading were analyzed using SEM and fluorescence microscopy. Fibroblasts on oxidized titanium surfaces showed a more spherical shape, whereas cells on laser-treated titanium and on TiN appeared intimately adherent to the surface. The MTT activity and total protein were significantly increased in fibroblasts cultured on titanium surfaces coated with TiN compared to all other surface modifications tested. This study suggests that a titanium nitride coating might be suitable to support tissue growth on implant surfaces.