Effect of nicotine on streptococcus mutans

Indiana University-Purdue University Indianapolis (IUPUI)Streptococcus mutans is a key contributor to dental caries. Smokers have increased caries, but the association between tobacco, nicotine, caries and S. mutans growth is little investigated. In the first section, seven S. mutans strains were used for screening. The minimum inhibitory concentration (MIC), minimum bactericidal concentration (MBC), and minimum biofilm inhibitory concentration (MBIC) were 16 mg/ml (0.1 M), 32 mg/ml (0.2 M), and 16 mg/ml (0.1 M), respectively, for most of the S. mutans strains. Growth of planktonic S. mutans cells was significantly repressed by 2.0-8.0 mg/ml nicotine concentrations. Biofilm formation and metabolic activity of S. mutans was increased in a nicotine-dependent manner up to 16.0 mg/ml. Scanning electron microscopy (SEM) revealed higher nicotine-treated S. mutans had thicker biofilm and more spherical bacterial cells than lower concentrations of nicotine. In the second section, confocal laser scanning microscopy (CLSM) results demonstrated that both biofilm bacterial cell numbers and extracellular polysaccharide (EPS) synthesis were increased by nicotine. Glucosyltransferase (Gtf) and glucan binding protein A (GbpA) protein expression of S. mutans planktonic cells were upregulated, while GbpB protein expression of biofilm cells were downregulated by nicotine. The mRNA expression of those genes were mostly consistent with their protein results. Nicotine was not directly involved in S. mutans LDH activity. However, since it increased the total number of bacterial cells in biofilm; total LDH activity of S. mutans biofilm was increased. In the third section, a PCR-based multiple species cell counting (PCR-MSCC) method was designed to investigate the effect of nicotine on S. mutans in a ten mixed species culture. The absolute S. mutans number in mixed biofilm culture was increased but the percentage of S. mutans in the total number of bacterial cells was not changed. In conclusion, nicotine enhanced biofilm formation and biofilm metabolism of S. mutans, through stimulating S. mutans planktonic cell Gtfs and Gbps expression. This leads to more planktonic cells attaching to dental biofilm. Increased S. mutans cell numbers, in biofilms of single species or ten mixed species, resulted in higher overall LDH activity. More lactic acid may be generated and contribute to caries development in smokers

Volatile Sulfur Compounds and their Effects on Streptococcus mutans Biofilm

poster abstractVolatile sulfur compounds (VSC) are produced by certain anaerobic bacteria known to cause halitosis in the oral cavity. Porphyromonas gingivalis produces VSC and causes halitosis and periodontal disease. Streptococcus mutans is a facultative anaerobic bacterium that is most commonly known for causing dental caries in the oral cavity. No research has been reported indicating a connection between S. mutans and VSC. An observation was made by Dr. Richard Gregory and Ph.D. student Ruijie Huang that when an S. mutans culture was left in an anaerobic environment with P. gingivalis, the growth of S. mutans appeared to be inhibited. This study explored that observation using not only P. gingivalis culture supernatant containing VSC but also other VSC, such as DTT, and 2ME to demonstrate that VSC inhibit the growth of S. mutans biofilm using total growth and biofilm formation after crystal violet staining. The results were read using a spectrophotometer to read the total growth and biofilm formation. These results indicate that S. mutans total growth and biofilm is significantly inhibited (p<0.05) by the presence of VSC. Results also establish that different VSC inhibit S. mutans depending on the amount of sulfur in each agent; however, each agent greatly reduced the amount of S. mutans biofilm. Due to these results, one can conclude that there is an inhibitory relationship between VSC and S. mutans. A person with a major case of halitosis or a person who has periodontal disease would most likely have little to no evidence of dental caries at that time

Nicotine Regulates Streptococcus mutans Extracellular Polysaccharide and Related Protein Expression

poster abstractStreptococcus mutans, a gram-positive facultatively anaerobic bacterium, is considered as the primary contributor to caries due to its high acidogenicity and aciduricity. Smoking is one of the risk factors of periodontal disease and dental caries. Nicotine is one of the alkaloid pharmacologically active agents in tobacco. Previous studies indicated nicotine stimulated S. mutans biofilm formation and metabolism. However, the detailed mechanism is still unknown. Thus, the aim of this study is to investigate how nicotine facilitates S. mutans biofilm formation focused on extracellular polysaccharide synthesis. S. mutans UA159 (ATCC 700610) was used in the present study. Confocal laser scanning microscopy (CLSM) was used to investigate the effect of 0, 1, 2 and 4 mg/ml nicotine on 24 h S. mutans biofilm extracellular polysaccharide (EPS) expression (red fluorescentlabeled) and nucleic acid expression (green fluorescent-labeled). Western blot assays were used to investigate the effect of 0, 1, 2 and 4 mg/ml nicotine on the expression of glucosyltransferase (Gtfs), glucan-binding protein A (Gbp-A) and Gbp-B in 24 h S. mutans biofilm cells. CLSM results indicated nicotine increased both EPS and nucleic acid, and the ratio of EPS/nucleic acid was also increased. It implied EPS synthesis in single S. mutans cells was stimulated by nicotine treatment. Biofilm thickness was thicker in nicotine-treated groups than the non-treated group. Western blot assay results indicated that nicotine stimulated GtfC, Gbp-A and Gbp-B expression, but decreased GtfB expression. In conclusion, nicotine stimulates S. mutans cell proliferation and EPS synthesis partially by increasing GtfC, Gbp-A and Gbp-B

Effect of Green Tea on Streptococcus mutans Metabolic Activity, Planktonic Growth, and Biofilm Activity in the Presence of Nicotine

poster abstractStreptococcus mutans is the main bacterial cause of dental caries, and it has been proven by previous research that its growth is affected by various concentrations of nicotine and other agents. The amount of S. mutans in the mouth is directly proportional to the number of dental cavities. Studies have shown that smokers have an increased amount of caries, much of which is due to the low concentrations of nicotine the mouth is exposed to. It is known that S. mutans thrives in low-moderate concentrations of nicotine, and that nicotine is a promoting agent for S. mutans. S. mutans has also been proven as a contributor to atherosclerosis, resulting from dental plaque entering the bloodstream. Green Tea is a commonly consumed beverage, which has been known to reduce the number of dental cavities. Previous research has concluded that green tea contains polyphenols, which have antimicrobial effects, including an inhibitory effect on S. mutans. The objective of this research is to observe how green tea affects S. mutans metabolic activity, as well as biofilm and planktonic growth, in the presence of nicotine. The experiments compared S. mutans treated with nicotine concentrations (0-8 mg/ml), and S. mutans treated with a 2.5 g/200 mL concentration of Sencha Jade Reserve Japanese green tea in conjunction with the various nicotine concentrations. The assays were performed in a microtiter plate; the XTT and biofilm assays measured absorbance, and the planktonic assay measured kinetic growth. The experiments conclude that green tea has an inhibitory effect on nicotine-treated S. mutans metabolic activity and planktonic growth, with higher concentrations of green tea inhibiting more effectively. It was also concluded that green tea increases biofilm formation. These conclusions provide evidence of the inhibitory effect green tea has on nicotine-treated S. mutans, and may indicate a way to reduce the incidence of caries and atherosclerosis

EFFECT OF TOBACCO-TREATED MG63 OSTEOBLAST ON HUMAN PULP CELLS

poster abstractObjective: The objective of this study is to determine the effects of to-bacco products on protein concentration and growth of MG63 osteoblasts and the effects of the bacterial cells and culture supernatants on human pulp cells. The study was designed to observe the effects of P.gingivalis grown in four different tobacco solutions such as CSC (cigarette smoked condensate), nicotine (chewing tobacco), and DST (dissolvable smokeless tobacco) strips, and in the media control only without tobacco products. Methods: MG63 os-teoblast was grown in BHI-YE (Bacteria Heart Infusion-Yeast Extract) and hemin-vitamin K. In addition, MG63 osteoblast was grown in BHI-Y-E con-taining nicotine, CSC, and DST. Human pulp cells were grown in media con-taining BGS (Bovine Growth Serum) and washed. The pulp cell cultures will be assayed for cytotoxicity and the supernatants will be assayed for cyto-kines and MMP expression. Results: The protein assays was performed us-ing a microplate spectrophometer and SoftMax Pro 5.2, and we observed that nicotine and DST treated cells had significantly less protein than control cells, however, CSC treated cells had significantly more protein. The undilut-ed control had significantly less protein than the tobacco-treated superna-tants. Conclusion: Based on the previous experiments, we speculate that the additional protein in the undiluted CSC cells and tobacco-treated super-natant may stimulate more effect on human pulp cells than the control, nico-tine or DST treated cells or the control supernatant

Enantiodivergent α-Amino C–H Fluoroalkylation Catalyzed by Engineered Cytochrome P450s

The introduction of fluoroalkyl groups into organic compounds can significantly alter pharmacological characteristics. One enabling but underexplored approach for the installation of fluoroalkyl groups is selective C(sp^3)–H functionalization due to the ubiquity of C–H bonds in organic molecules. We have engineered heme enzymes that can insert fluoroalkyl carbene intermediates into α-amino C(sp3)–H bonds and enable enantiodivergent synthesis of fluoroalkyl-containing molecules. Using directed evolution, we engineered cytochrome P450 enzymes to catalyze this abiological reaction under mild conditions with total turnovers (TTN) up to 4070 and enantiomeric excess (ee) up to 99%. The iron-heme catalyst is fully genetically encoded and configurable by directed evolution so that just a few mutations to the enzyme completely inverted product enantioselectivity. These catalysts provide a powerful method for synthesis of chiral organofluorine molecules that is currently not possible with small-molecule catalysts

Evaluation of selected properties of a new root repair cement containing surface pre-reacted glass ionomer fillers

Objective This study evaluated selected properties of a prototype root repair cement containing surface pre-reacted glass ionomer fillers (S-PRG) in comparison to mineral trioxide aggregate (MTA) and intermediate restorative material (IRM). Materials and methods The antibacterial effect of S-PRG, MTA, and IRM cements was tested against Porphyromonas gingivalis and Enterococcus faecalis after 1 and 3 days of aging of the cements. The set cements were immersed in distilled water for 4 h to 28 days, and ion-releasing ability was evaluated. Initial and final setting times of all cements were evaluated using Gilmore needles. The push-out bond strength between radicular dentin and all cements was tested at different levels of the roots. Results S-PRG and IRM cements, but not MTA cement, demonstrated significant antibacterial effect against P. gingivalis. All types of cements exhibited significant antibacterial effect against E. faecalis without being able to eliminate the bacterium. S-PRG cement provided continuous release of fluoride, strontium, boron, sodium, aluminum, and zinc throughout all tested time points. Both initial and final setting times were significantly shorter for S-PRG and IRM cements in comparison to MTA. The push-out bond strength was significantly lower for S-PRG cement in comparison to MTA and IRM at coronal and middle levels of the roots. Conclusions S-PRG cement demonstrated significant antibacterial effects against endodontic pathogens, multiple ion-releasing ability, relatively short setting time, and low bonding strength. Clinical relevance S-PRG cement can be used as a one-visit root repair material with promising antibacterial properties and ion-releasing capacity

Effect of nicotine on cariogenic virulence of Streptococcus mutans

Nicotine has well-documented effects on the growth and colonization of Streptococcus mutans. This study attempts to investigate the effects of nicotine on pathogenic factors of S. mutans, such as the effect on biofilm formation and viability, expression of pathogenic genes, and metabolites of S. mutans. The results demonstrated that addition of nicotine did not significantly influence the viability of S. mutans cells. The biofilms became increasingly compact as the concentrations of nicotine increased. The expression of virulence genes, such as ldh and phosphotransferase system (PTS)-associated genes, was upregulated, and nlmC was upregulated significantly, while ftf was downregulated. The lactate concentration of S. mutans grown in 1 mg/mL of nicotine was increased up to twofold over either biofilm or planktonic cells grown without nicotine. Changes in the metabolites involved in central carbon metabolism from sucrose indicated that most selected metabolites were detectable and influenced by increased concentrations of nicotine. This study demonstrated that nicotine can influence the pathogenicity of S. mutans and may lead to increased dental caries through the production of more lactate and the upregulation of virulence genes

Research on Optimization of Cryptocurrency Trading Strategies Based on Reinforcement Learning – combining traditional machine learning and deep reinforcement learning methods

The cryptocurrency market, with its 24/7 trading and high volatility, challenges traditional quantitative strategies in path dependency, high-frequency optimization, and risk control. A "prediction-decision" framework is proposed, integrating Gradient Boosting Regression Trees (GBRT) for short-term forecasting and deep reinforcement learning techniques including Rainbow Deep Q-Network (Rainbow DQN) and Soft Actor-Critic (SAC) algorithms for dynamic optimization. The framework combines the complementary strengths of GBRT's pattern recognition capabilities and deep reinforcement learning's adaptive decision-making mechanisms. A spatiotemporal experience replay mechanism tailored to cryptocurrency fat-tailed distributions boosts BTC/USDT annual returns by 37.2% and enhances TD3's drawdown control by 63% during the LUNA crisis. Empirical results show SAC achieves 152% excess returns (Sharpe 2.81) in ETH/USDT trading, while Rainbow DQN yields 287% returns in trend markets. A dynamic reward function reduces maximum drawdown from 42.7% to 19.3%, and the hybrid architecture curtails losses by 23.8% during the 2020 "March 12" crash. Curriculum learning accelerates TD3 convergence by 59% with 37% GPU memory reduction. This study establishes a verifiable algorithmic framework and advances high-frequency trading through synergistic ML/RL integration, offering a dynamic decision-making paradigm for evolving financial markets