Role of bacteriocin immunity proteins in the antimicrobial sensitivity of Streptococcus mutans

Bacteria utilize quorum-sensing systems to modulate environmental stress responses. The quorum-sensing system of Streptococcus mutans is mediated by the competence-stimulating peptide (CSP), whose precursor is encoded by the comC gene. A comC mutant of strain GS5 exhibited enhanced antimicrobial sensitivity to a wide variety of different agents. Since the addition of exogenous CSP did not complement this phenotype, it was determined that the increased tetracycline, penicillin, and triclosan sensitivities resulted from repression of the putative bacteriocin immunity protein gene, bip, which is located immediately upstream from comC. We further demonstrated that the inactivation of bip or smbG, another bacteriocin immunity protein gene present within the smb operon in S. mutans GS5, affected sensitivity to a variety of antimicrobial agents. Furthermore, both the bip and smbG genes were upregulated in the presence of low concentrations of antibiotics and were induced during biofilm formation relative to in planktonic cells. These results suggest, for the first time, that the antimicrobial sensitivity of a bacterium can be modulated by some of the putative bacteriocin immunity proteins expressed by the organism. The implications of these observations for the evolution of bacteriocin immunity protein genes as well as for potential new chemotherapeutic strategies are discussed.     

The anti-biofouling effect of polyphenols against Streptococcus mutans

Biofouling is a process of surface colonization by microorganisms through cell adhesion and production of extracellular polymers (polysaccharides and proteins). It often causes serious problems in the chemical, medical and pharmaceutical industries. Recently, it was demonstrated that some natural phenolic compounds found in plants and vegetables have an antibiofouling effect, reducing formation of biofilm by Gram-negative bacteria. In this study, Streptococcus mutans, a Gram-positive bacterium was investigated for the antibiofouling effect of polyphenols. It was hypothesized that the two enzymes, glucosyltransferase and fructosyltransferase, produced by S. mutans, would be inhibited by the natural phenolic compounds. When these two enzymes were inhibited, less (or no) biofilms were formed. Enzymes were separated from a S. mutans culture medium, and their activities were measured with five different polyphenols using microtiter-plates and high-performance liquid chromatography. The results of minimum inhibitory concentration (MIC) were used to determine the enzyme inhibition effect of polyphenols on biofilm formation without killing the cells. Most of the polyphenols used showed considerable reduction of biofilm formation. Gallic acid and tannic acid showed significant enzyme inhibition effects below their MICs.     

大蒜素抗变异链球菌的致龋效果

目的 研究大蒜素对口腔变异链球菌生长及其菌斑生物膜粘附的抑制作用。方法 二倍稀释法梯度稀释测最小抑菌浓度（minimum inhibitory concentration,MIC）,将MIC以上2个梯度浓度对应的培养物涂布于BHI培养基上进行次代培养获得最低杀菌浓度（minimum bactericidal concentration,MBC）;酶标仪测A值观察不同浓度大蒜素抑菌效应;抑制产酸试验观察抑制细菌产酸效应;结晶紫法研究亚抑菌浓度提取物对变异链球菌粘附能力及生物膜总量的影响;采用激光共聚焦荧光显微镜（laser scanning confocal microscopy,LSCM）观察常态牙菌斑生物膜生长过程中及药物处理后牙菌斑生物膜中死菌和活菌的构成,研究其对牙菌斑生物膜结构和活性的影响。结果 抑菌试验中,得到大蒜素MIC为12.8 mg/L,MBC为25.8 mg/L。MIC及亚抑菌浓度抑菌试验显示均有一定的抑菌性,抑制率为2.17%~67.12%,并且抑菌性与浓度梯度成正相关。产酸试验显示24 h内大蒜素明显抑制细菌产酸（P<0.01）,细菌粘附试验结果显示大蒜素在MIC时生物膜的生成速度最慢,生物膜的总量最低（P<0.01）。共聚焦荧光显微镜可见大蒜素组随药物浓度增加,菌斑生物膜较薄,绿色的活菌及团块明显减少,抑制生物膜的生长。结论 大蒜素对变异链球菌生长、产酸与粘附有一定抑制作用。     

Defensins: antimicrobial peptides of innate immunity

The production of natural antibiotic peptides has emerged as an important mechanism of innate immunity in plants and animals. Defensins are diverse members of a large family of antimicrobial peptides, contributing to the antimicrobial action of granulocytes, mucosal host defence in the small intestine and epithelial host defence in the skin and elsewhere. This review, inspired by a spate of recent studies of defensins in human diseases and animal models, focuses on the biological function of defensins.     

Bacterial proteases and bacterial resistance against human innate immunity factors

The molecular and cell-mediated mechanisms that are developed by certain opportunistic and pathogenic bacteria and were obtained over the course of evolution to preserve resistance against principal components of human body innate immunity are summarized.     

The anti-biofouling effect of Lactobacillus fermentum-derived biosurfactant against Streptococcus mutans

Biofouling in the oral cavity often causes serious problems. The ability of Streptococcus mutans to synthesize extracellular glucans from sucrose using glucosyltransferases (gtfs) is vital for the initiation and progression of dental caries. Recently, it was demonstrated that some biological compounds, such as secondary metabolites of probiotic bacteria, have an anti-biofouling effect. In this study, S. mutans was investigated for the anti-biofouling effect of Lactobacillus fermentum (L.f.)-derived biosurfactant. It was hypothesized that two enzymes produced by S. mutans, glucosyltransferases B and C, would be inhibited by the L.f.-biosurfactant. When these two enzymes were inhibited, fewer biofilms (or none) were formed. RNA was extracted from a 48-h biofilm of S. mutans formed in the presence or absence of L.f. biosurfactant, and the gene expression level of gtfB/C was quantified using the real-time polymerase chain reaction (RT-PCR). L.f. biosurfactant showed substantial anti-biofouling activity because it reduced the process of attachment and biofilm production and also showed a reduction in gtfB/C gene expression (P value < 0.05).     

白及提取物抗变异链球菌致龋效果的研究

目的研究白及提取物对变异链球菌粘附、生物膜形成及活性的影响,评价其抗龋效果。方法市售白及95%乙醇浸提;纸片法、打孔法测定直接抑菌作用;液体稀释法检测MIC;结晶紫法研究亚抑菌浓度提取物对变异链球菌粘附能力及生物膜总量的影响;采用荧光显微镜和激光共聚焦显微镜观察常态牙菌斑生物膜生长过程中及药物处理后牙菌斑生物膜中死菌和活菌的构成,研究其对牙菌斑生物膜结构和活性的影响;运用扫描电镜观察白及药液对变异链球菌生物膜的影响。结果白及提取物具有一定的抑菌作用,MIC为16~62 mg/m L;结晶紫法定量研究生物膜结果显示白及药液作用4 h对变异链球菌的粘附均有抑制作用,抑制率为28.63%~60.08%;作用20 h对生物膜总量抑制率达77.08%;白及药液作用20 h,荧光染色显示生物膜活性明显被抑制,抑制率达62.03%;梯度浓度白及药液分别作用20 h后,激光共聚焦显微镜下观察到随着药液浓度增加,绿色的活菌、团块状结构减少,生物膜形成明显被抑制;扫描电镜下可见药液作用后细菌间粘性物质减少。结论高浓度白及提取液对变异链球菌有直接抑菌作用,亚抑菌浓度能抑制其粘附和生物膜的形成,进而具有抗龋作用。     

厚朴酚对变形链球菌生物膜致龋毒力因子作用的研究

目的 通过激光共聚焦显微镜观察厚朴酚对变形链球菌生物膜的抑菌效果,并初步了解厚朴酚对变形链球菌生物膜的产酸、耐酸、胞外多糖形成及生物膜形成能力等相关致龋毒力因子的转录表达的影响,为进一步研究厚朴酚防龋的药理作用机制奠定基础.方法 建立变形链球菌生物膜体外模型,激光共聚焦显微镜观察不同药物浓度作用后效果,并进行红绿荧光定量分析;根据GenBank基因库查询ffh、gtfD、pdp等基因序列并设计引物,进行RT-PCR.结果 CLSM观察厚朴酚作用变形链球菌生物膜后可使膜内活菌比例明显下降;RT-PCR结果表明毒力因子ffh、gtfD、pdp的表达水平受到抑制.结论 厚朴酚对变形链球菌生物膜的致龋毒力因子ffh、gtfD、pdp的转录表达有明显的抑制作用.     

The anti-biofouling effect of Lactobacillus fermentum-derived biosurfactant against Streptococcus mutans

Biofouling in the oral cavity often causes serious problems. The ability of Streptococcus mutans to synthesize extracellular glucans from sucrose using glucosyltransferases (gtfs) is vital for the initiation and progression of dental caries. Recently, it was demonstrated that some biological compounds, such as secondary metabolites of probiotic bacteria, have an anti-biofouling effect. In this study, S. mutans was investigated for the anti-biofouling effect of Lactobacillus fermentum (L.f.)-derived biosurfactant. It was hypothesized that two enzymes produced by S. mutans, glucosyltransferases B and C, would be inhibited by the L.f.-biosurfactant. When these two enzymes were inhibited, fewer biofilms (or none) were formed. RNA was extracted from a 48-h biofilm of S. mutans formed in the presence or absence of L.f. biosurfactant, and the gene expression level of gtfB/C was quantified using the real-time polymerase chain reaction (RT-PCR). L.f. biosurfactant showed substantial anti-biofouling activity because it reduced the process of attachment and biofilm production and also showed a reduction in gtfB/C gene expression (P value?相似文献   

盐酸小檗碱对变形链球菌生物膜及其致龋毒力因子作用的研究

目的研究盐酸小檗碱对变形链球菌生物膜的抑菌效果,并初步研究其抑菌作用是否为通过影响或干扰某些毒力因子的表达而实现的,为进一步研究盐酸小檗碱防龋的药理作用机制奠定基础。方法建立变形链球菌生物膜体外模型,MTT法评价盐酸小檗碱对变形链球菌生物膜的影响;然后用RT—PCR方法检测变形链球菌毒力因子cdsa、gbpD和ptsI受盐酸小檗碱作用后的表达水平的变化。结果盐酸小檗碱对变形链球菌生物膜的抑制作用随药物浓度增加而增加;RT—PCR结果表明毒力因子cdsa、gbpD和ptsI的表达水平受到抑制。结论盐酸小檗碱对变形链球菌生物膜起到了抑制作用,对其致龋毒力因子cdsa、gbpD和ptsI的转录表达有明显的抑制作用。     

Synthesis of chitooligosaccharide derivative with quaternary ammonium group and its antimicrobial activity against Streptococcus mutans

A derivative of chitooligosaccharide (COS) with quaternary ammonium functionality was synthesized and characterized by means of FT-IR and NMR spectroscopy. Its amtimicrobial activity was evaluated against Streptococcus mutans, which is a principal etiological agent of dental caries in humans. Introduction of quaternary ammonium group to COS has been easily accomplished by coupling of glycidyl trimethylammonium chloride (GTMAC) to COS in aqueous solution without an additional catalyst. The degree of substitution (%), as determined by (1)H NMR, of GTMAC to the COS increased up to 116% at 70 degrees C for 24h. The resulting COS-GTMAC exhibited the growth inhibition of above 80% against S. mutans after 5h, whereas the COS showed the growth inhibition of about 10%. It was found that antimicrobial activity of the COS could be considerably enhanced by the introduction of quaternary ammonium functionality.     

Interaction of hydroxyapatite and protein-coated hydroxyapatite with Streptococcus mutans and Streptococcus sanguis

The present study showed that S. mutans and S. sanguis behaved like negatively-charged particles in their interaction with hydroxyapatite in vitro. Phosphate in the system inhibited bacterial uptake by apatite, whereas calcium increased the uptake. A layer of acidic protein inhibited the uptake of bacteria by hydroxyapatite. The opposite was true when a basic protein was first adsorbed to the apatite. A saliva film on the apatite decreased the uptake of bacteria, supporting the view that acidic proteins are selectively adsorbed by hydroxyapatite from saliva. The results indicate clearly that electrostatic forces may be involved in bacterial interaction with tooth surface.     

Dispersible chitosan particles showing bacteriostatic effect against Streptococcus mutans and their dental polishing effect

ABSTRACT

Nontoxic and biodegradable chitosan is potentially useful in various applications. We prepared submicron chitosan particles with high dispersibility in aqueous solution utilizing the electrostatic interaction phase separation method described in a previous report, but using citric acid as the polyvalent anionic compound instead of sodium sulfate. The submicron chitosan particles showed significant antibacterial activity and anti-adhesive action against Streptococcus mutans, even at around neutral pH. However, chitosan granules showed no antibacterial activity under the same conditions. The addition of the chitosan particles to dental polishing paste provided stainless steel discs (the same hardness as dental enamel) with a smoother surface than polishing paste without additives. In view of their submicron size and antibacterial activity, chitosan particles could potentially be multifunctional components of oral and dental cleaning materials.     

The contribution of skin antimicrobial peptides to the system of innate immunity in anurans

Cationic peptides with the propensity to adopt an amphipathic ??-helical conformation in a membrane-mimetic environment are synthesized in the skins of many species of anurans (frogs and toads). These peptides frequently display cytolytic activities against a range of pathogenic bacteria and fungi consistent with the idea that they play a role in the host's system of innate immunity. However, the importance of the peptides in the survival strategy of the animal is not clearly understood. It is a common misconception that antimicrobial peptides are synthesized in the skins of all anurans. In fact, the species distribution is sporadic suggesting that their production may confer some evolutionary advantage to the organism but is not necessary for survival. Although growth inhibitory activity against the chytrid fungus Batrachochytrium dendrobatidis, responsible for anuran population declines worldwide, has been demonstrated in vitro, the ability of frog skin antimicrobial peptides to protect the animal in the wild appears to be limited and there is no clear correlation between their production by a species and its resistance to fatal chytridiomycosis. The low potency of many frog skin antimicrobial peptides is consistent with the hypothesis that cutaneous symbiotic bacteria may provide the major system of defense against pathogenic microorganisms in the environment with antimicrobial peptides assuming a supplementary role in some species.     

Engineered dextranase from Streptococcus mutans enhances the production of longer isomaltooligosaccharides

Herein, we investigated enzymatic properties and reaction specificities of Streptococcus mutans dextranase, which hydrolyzes α-(1→6)-glucosidic linkages in dextran to produce isomaltooligosaccharides. Reaction specificities of wild-type dextranase and its mutant derivatives were examined using dextran and a series of enzymatically prepared p-nitrophenyl α-isomaltooligosaccharides. In experiments with 4-mg·mL^?1 dextran, isomaltooligosaccharides with degrees of polymerization (DP) of 3 and 4 were present at the beginning of the reaction, and glucose and isomaltose were produced by the end of the reaction. Increased concentrations of the substrate dextran (40 mg·mL^?1) yielded isomaltooligosaccharides with higher DP, and the mutations T558H, W279A/T563N, and W279F/T563N at the ?3 and ?4 subsites affected hydrolytic activities of the enzyme, likely reflecting decreases in substrate affinity at the ?4 subsite. In particular, T558H increased the proportion of isomaltooligosaccharide with DP of 5 in hydrolysates following reactions with 4-mg·mL^?1 dextran.Abbreviations CI: cycloisomaltooligosaccharide; CITase: CI glucanotransferase; CITase-Bc: CITase from Bacillus circulans T-3040; DP: degree of polymerization of glucose unit; GH: glycoside hydrolase family; GTF: glucansucrase; HPAEC-PAD: high performance anion-exchange chromatography-pulsed amperometric detection; IG: isomaltooligosaccharide; IGn: IG with DP of n (n, 2?5); PNP: p-nitrophenol; PNP-Glc: p-nitrophenyl α-glucoside; PNP-IG: p-nitrophenyl isomaltooligosaccharide; PNP-IGn: PNP-IG with DP of n (n, 2?6); SmDex: dextranase from Streptococcus mutans; SmDexTM: S. mutans ATCC25175 SmDex bearing Gln100?Ile732     

Prophylactic effect of human lactoferrin against Streptococcus mutans bacteremia in lactoferrin knockout mice

Streptococcus mutans is the primary agent of dental caries, which is often detected in transient bacteremia. Lactoferrin is a multifunctional glycoprotein showing antibacterial activities against several Streptococcus species. We reported here the prophylactic effect of human lactoferrin (hLF) in a lactoferrin knockout mouse (LFKO^−/−) bacteremic model. The hLF treatment significantly cleared S. mutans from the blood and organs of bacteremic mice when compared to the non-hLF treated mice. Further, analysis of serum cytokines, spleen and liver cytokine mRNA levels revealed that hLF prophylaxis modulates their release differently when compared to the non-hLF treated group. C-reactive protein level (P = 0.003) also decreased following hLF prophylaxis in S. mutans induced bacteremic mice. Additional quantitative RT-PCR analysis revealed that hLF prophylaxis significantly decreased the expression level of IFN-γ, TNF-α, IL-1β, IL-6, MPO and iNOS in spleen and liver. These results suggested that the hLF protects the host against S. mutans-induced experimental bacteremia.     

不同因素下双歧杆菌BB-12对变形链球菌拮抗作用的体外研究

目的探讨不同因素下双歧杆菌BB-12对变形链球菌的抑制作用。方法采用液体培养法分别培养双歧杆菌BB-12与变形链球菌,利用紫外分光光度计调节具有相同吸光度值的菌液,观察不同因素下双歧杆菌BB-12对变形链球菌的拮抗作用,使用扫描电镜观察早期变形链球菌生物膜的变化。结果双歧杆菌BB-12在不同因素作用下对变形链球菌均具有拮抗作用,双歧杆菌BB-12能够抑制早期变形链球菌生物膜的形成。结论双歧杆菌BB-12对变形链球菌有拮抗作用。     

Review of innate and specific immunity in plants and animals

Innate immunity represents a trait common to plants and animals, based on the recognition of pathogen associated molecular patterns (PAMPs) by the host pattern recognition receptors (PRRs). It is generally assumed that a pathogen strain, or race, may have elaborated mechanisms to suppress, or evade, the PAMP-triggered immunity. Once this plan was successful, the colonization would have been counteracted by an adaptive strategy that a plant cultivar must have evolved as a second line of defence. In this co-evolutionary context, adaptive immunity and host resistance (cultivar-pathogen race/strain-specific) has been differently selected, in animals and plants respectively, to face specialized pathogens. Notwithstanding, plant host resistance, based on matching between resistance (R) and avirulence (avr) genes, represents a form of innate immunity, being R proteins similar to PRRs, although able to recognize specific virulence factors (avr proteins) rather than PAMPs. Besides, despite the lack of adaptive immunity preserved plants from autoimmune disorders, inappropriate plant immune responses may occur, producing some side-effects, in terms of fitness costs of induced resistance and autotoxicity. A set of similar defence responses shared from plants and animals, such as defensins, reactive oxygen species (ROS), oxylipins and programmed cell death (PCD) are briefly described.     

Therapeutic effect of llama derived VHH fragments against Streptococcus mutans on the development of dental caries

Streptococcus mutans is the main cause of dental caries. We evaluated the therapeutic effect of variable regions of a llama heavy chain antibody fragments directed against S. mutans named S36-VHH (S for Streptococcus) alone or fused with glucose oxidase (GOx) from Aspergillus niger. Western blot analysis and ELISA revealed binding of the S36-VHH to the streptococcal antigen I/II adhesin molecule of S. mutans serotype C. In a rat-desalivated caries model, daily administration of S36-VHH significantly reduced the development of smooth surface caries. No additional therapeutic effect of GOx was observed. Our results suggest that llama VHH antibodies may be a potential benefit as prophylaxis against dental caries.     

Trypanosome lytic factors: novel mediators of human innate immunity

A novel trypanosome lytic factor (TLF) has been characterized that protects humans from infection by Trypanosoma brucei brucei. The mechanism of trypanolysis is unknown; contrary to one hypothesis, TLF does not kill trypanosomes by generating oxygen radicals. However, these trypanosomes become human-infective when they express a serum-resistance-associated gene.