Identification and characterization of collagen-binding activity in Streptococcus mutans wall-associated protein: a possible implication in dental root caries and endocarditis

Streptococcus mutans is implicated in coronal and dental root decay, and in endocarditis. Comparative study of the amino acid sequence of S. mutans 47 kDa wall-associated protein A (WapA) revealed a collagen-binding domain (CBD) at the N-terminal region. Recombinant AgA (WapA truncated at the carboxyterminal end) was isolated, biotin-labeled, and analyzed by Solid Phase Binding Assay. The results showed that biotin-labeled AgA bound significantly and in a dose-dependent manner to immobilized collagen type I, and to a lesser extent to fibronectin, but not to collagen type IV or laminin. Binding of biotin-labeled S. mutans cells to collagen-coated surfaces was significantly inhibited by antibody to WapA or AgA (P<0.001). The results obtained confirmed the collagen-binding activity of CBD in AgA and WapA, and suggested that WapA may be used, not only as a vaccine against coronal and dental root caries, but also against S. mutans-mediated endocarditis.     

Plausible Drug Targets in the Streptococcus mutans Quorum Sensing Pathways to Combat Dental Biofilms and Associated Risks

Streptococcus mutans, a Gram positive facultative anaerobe, is one among the approximately seven hundred bacterial species to exist in human buccal cavity and cause dental caries. Quorum sensing (QS) is a cell-density dependent communication process that respond to the inter/intra-species signals and elicit responses to show behavioral changes in the bacteria to an aggressive forms. In accordance to this phenomenon, the S. mutans also harbors a Competing Stimulating Peptide (CSP)-mediated quorum sensing, ComCDE (Two-component regulatory system) to regulate several virulence-associated traits that includes the formation of the oral biofilm (dental plaque), genetic competence and acidogenicity. The QS-mediated response of S. mutans adherence on tooth surface (dental plaque) imparts antibiotic resistance to the bacterium and further progresses to lead a chronic state, known as periodontitis. In recent years, the oral streptococci, S. mutans are not only recognized for its cariogenic potential but also well known to worsen the infective endocarditis due to its inherent ability to colonize and form biofilm on heart valves. The review significantly appreciate the increasing complexity of the CSP-mediated quorum-sensing pathway with a special emphasis to identify the plausible drug targets within the system for the development of anti-quorum drugs to control biofilm formation and associated risks.     

Colonization and vertical transmission of Streptococcus mutans in Turkish children

The aim of the study was to establish the colonization of Streptococcus mutans and to determine the possibility of intra-familial transmission in a group of Turkish children and their parents. A total of 56 children participated in the study together with their parents (20 fathers and 49 mothers). Saliva samples were collected from the individuals and cultivated on S. mutans selective TYCSB agar. The typical isolates of S. mutans were identified by using classical microbiological methods, as well as molecular typing of S. mutans clones which was performed by using AP PCR with OPA5 primer for the detection of transmission. The vertical transmission of salivary S. mutans was detected among 14 mother-father-child, 35 mother-child (one twins) and 6 father-child combinations. The homologies of strain types were recorded as 24% and 16.6% for mother-child and father-child combinations, respectively. A significant positive correlation (p<0.001) was found between the infected children and their parents with high S. mutans counts.     

Effect of carbohydrates on fructosyltransferase expression and distribution in Streptococcus mutans GS-5 biofilms

Streptococcus mutans produces a fructosyltransferase (FTF) enzyme, which synthesizes fructan polymers from sucrose. Fructans contribute to the virulence of the biofilm by acting as binding sites for S. mutans adhesion and as extracellular nutrition reservoir for the oral bacteria. Antibodies raised against a recombinant S. mutans FTF were used to test the effect of glucose, fructose, and sucrose on FTF expression in S. mutans GS-5 biofilms. Biofilms formed in the presence of fructose and glucose showed a higher ratio of FTF compared to biofilms formed in the presence of sucrose. Confocal laser scanning microscopy images of S. mutans biofilms indicated a carbohydrate-dependent FTF distribution. The layer adjacent to the surface and those at the liquid interface displayed high amounts cell-free FTF with limited amount of bacteria while the in-between layers demonstrated both cell-free FTF and cells expressing cell-surface FTF. Biofilm of S. mutans grown on hydroxyapatite surfaces expressed several FTF bands with molecular masses of 160, 125, 120, 100, and 50 kDa, as detected by using FTF specific antibodies. The results show that FTF expression and distribution in S. mutans GS-5 biofilms is carbohydrate regulated.     

龋齿致病菌变形链球菌蛋白 Smu.260 的 制备、结晶及初级晶体学分析

变形链球菌 (Streptococcus mutans) 是最主要的龋齿致病菌,其基因 Smu.260 编码一个约 23 ku (200 个氨基酸 ) 的蛋白质. Smu.260的 DNA 片段被克隆到表达载体 pET28a 后在大肠杆菌 BL21(DE3) 菌株中表达得到很好的产量. 产物 Smu.260 蛋白通过 Ni²⁺亲和柱和分子筛两步法纯化,并发现纯化后的蛋白以两种形式存在,二聚体 (约46 ku) 和四聚体,前者呈亮黄色,后者无色. 采用悬滴气象扩散法得到了二聚体形式的晶体. 晶体的 X 射线衍射分辨率达到 2.3埃,晶体属正交空间群 P2₁2₁2₁,晶格参数为a=89.88埃, b=90.91埃, c=105.17埃. 晶胞不对称单元内估计含有一个二聚体,溶剂含量为 53％ .     

Binding of Streptococcus mutans to extracellular matrix molecules and fibrinogen

We have determined the ability of Streptococcus mutans cells to bind to extracellular matrix (ECM) molecules and fibrinogen. S. mutans cells were found to bind fibronectin, laminin, collagen type I, and fibrinogen. An isogenic S. mutans strain with a defect in the expression of the major surface protein of S. mutans, antigen I/II, possessed a reduced ability to bind fibronectin, collagen, and fibrinogen but not laminin, suggesting that antigen I/II contributes during pathological processes to the interaction of S. mutans cells with fibronectin, collagen type I, and fibrinogen.     

Inhibition of Streptococcus mutans biofilm accumulation and development of dental caries in vivo by 7-epiclusianone and fluoride

7-Epiclusianone (7-epi), a novel naturally occurring compound isolated from Rheedia brasiliensis, effectively inhibits the synthesis of exopolymers and biofilm formation by Streptococcus mutans. In the present study, the ability of 7-epi, alone or in combination with fluoride (F), to disrupt biofilm development and pathogenicity of S. mutans in vivo was examined using a rodent model of dental caries. Treatment (twice-daily, 60s exposure) with 7-epi, alone or in combination with 125 ppm F, resulted in biofilms with less biomass and fewer insoluble glucans than did those treated with vehicle-control, and they also displayed significant cariostatic effects in vivo (p < 0.05). The combination 7-epi + 125 ppm F was as effective as 250 ppm F (positive-control) in reducing the development of both smooth- and sulcal-caries. No histopathological alterations were observed in the animals after the experimental period. The data show that 7-epiclusianone is a novel and effective antibiofilm/anticaries agent, which may enhance the cariostatic properties of fluoride.     

Electrophoretic studies of extracellular glucosyltransferases and fructosyltransferases from seventeen strains of Streptococcus mutans

Streptococcus mutans was classified by the electrophoretic properties of glucosyltransferases (GTases) and fructosyltransferases (FTases). The cells of serotypes a, d and g did not release extracellular FTases, although those from other serotypes did. The enzymes from cells of serotypes d and g synthesized a good deal of insoluble polysaccharide compared with other serotypes. The enzymes were applied to sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and polyacrylamide gel-isoelectric focussing (PAG-IEF). Gels were stained for their activity and protein content. Enzymes belonging to the same serotype gave the same specific pattern on both gels. The seven serotypes could be classified into the following four groups: serotypes d and g, serotype a, serotypes c, e and f, and serotype b. The results agree well with some previous reports based on other methods. The molecular weights of three GTase bands were 156K, 146K and 135K, and of four kinds of FTase bands were 108K, 95K, 80K and 76K. The isoelectric points of main enzymes were 4.25, 4.60, 5.00, 5.55 and 5.70. Those of FTases were 4.25 and 4.60.Abbreviations GTase glucosyltransferase - FTase fructosyltransferase - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - PAG-IEF polyacrylamide gel-isoelectric focussing - PAS periodic acid-Schiff     

Effect of a novel antimicrobial peptide chrysophsin-1 on oral pathogens and Streptococcus mutans biofilms

Dental caries and pulpal diseases are common oral bacterial infectious diseases. Controlling and reducing the causative pathogens, such as Streptococcus mutans and Enterococcus faecalis, is a key step toward prevention and treatment of the two diseases. Chrysophsin-1 is a cationic antimicrobial peptide having broad-spectrum bactericidal activity against both Gram-positive and Gram-negative bacteria. In this study, we investigated the antibacterial activity of chrysophsin-1 against several oral pathogens and S. mutans biofilms and performed a preliminary study of the antimicrobial mechanism. Cytotoxic activity of chrysophsin-1 against human gingival fibroblasts (HGFs) was investigated. Minimal inhibitory concentration (MIC), minimal bactericidal concentration (MBC) and time-kill assay were used to evaluate the killing effect of chrysophsin-1. Scanning electron microscopy (SEM) was used to analyze morphological and membrane change in oral pathogens. Live/Dead staining, in conjunction with confocal scanning laser microscopy (CSLM), was used to observe and analyze S. mutans biofilms. MIC and MBC results demonstrated that chrysophsin-1 had different antimicrobial activities against the tested oral microbes. Lysis and pore formation of the cytomembrane were observed following treatment of the bacteria with chrysophsin-1 for 4h or 24h by SEM. Furthermore, CLSM images showed that chrysophsin-1 remarkably reduced the viability of cells within biofilms and had a significantly lethal effect against S. mutans biofilms. Toxicity studies showed that chrysophsin-1 at concentration between 8 μg/ml and 32 μg/ml had little effect on viability of HGFs in 5 min. Our findings suggest that chrysophsin-1 may have potential clinical applications in the prevention and treatment of dental caries and pulpal diseases.     

An in vitro synergetic evaluation of the use of nisin and sodium fluoride or chlorhexidine against Streptococcus mutans

The objective of this study is to investigate the synergetic action between nisin and sodium fluoride or chlorhexidine against Streptococcus mutans, a primary cariogenic pathogen. In the antibacterial assay, a synergetic effect on S. mutans was found between nisin and sodium fluoride, but there was no interaction between nisin and chlorhexidine by the checkerboard, the fractional inhibitory concentration (FIC) and the fractional bactericidal concentration (FBC) tests. S. mutans survival rates showed a significant decline after treatment with a combination of nisin and sodium fluoride in a time-kill study. Scanning electron microscopy showed that the damage to S. mutans with the combined nisin and sodium fluoride treatment was the most severe among all of the different single and combined antimicrobial treatments. Furthermore, in the antibiofilm test, nisin in combination with sodium fluoride produced a stronger bactericidal effect on a S. mutans biofilm for 4 h and 16 h compared with sodium fluoride alone by confocal laser scanning microscopy. Nisin in combination with sodium fluoride exerted a high bactericidal effect on S. mutans and thereby has the potential to be used as an effective drug combination to prevent dental caries.     

Effects of quorum sensing on cell viability in Streptococcus mutans biofilm formation

Streptococcus mutans (S. mutans) uses a quorum sensing (QS) signaling system, which is dependent on competence stimulating peptide (CSP), to regulate diverse physiological activities including bacteriocin production, genetic transformation, and biofilm formation. However, the mechanism of the QS system-induced biofilm formation remains unclear. Here, we demonstrated that the late-stage biofilm formation was increased by the addition of exogenous CSP in S. mutans. The numbers of dead cells in biofilms formed in presence of CSP was 64.5% higher than that without CSP after 12 h (p < 0.05) and 76.3% higher after 24 h (p < 0.05), the numbers of live cells in biofilms formed in presence of CSP were 89.3% higher than that without CSP after 24 h (p < 0.01). The expression of QS-associated genes was increased 3.4-5.3-fold by CSP in biofilms. Our results revealed that cell viability of S. mutans grown in biofilms is affected by the CSP-dependent QS system.     

The oral metagenome in health and disease

The oral cavity of humans is inhabited by hundreds of bacterial species and some of them have a key role in the development of oral diseases, mainly dental caries and periodontitis. We describe for the first time the metagenome of the human oral cavity under health and diseased conditions, with a focus on supragingival dental plaque and cavities. Direct pyrosequencing of eight samples with different oral-health status produced 1 Gbp of sequence without the biases imposed by PCR or cloning. These data show that cavities are not dominated by Streptococcus mutans (the species originally identified as the ethiological agent of dental caries) but are in fact a complex community formed by tens of bacterial species, in agreement with the view that caries is a polymicrobial disease. The analysis of the reads indicated that the oral cavity is functionally a different environment from the gut, with many functional categories enriched in one of the two environments and depleted in the other. Individuals who had never suffered from dental caries showed an over-representation of several functional categories, like genes for antimicrobial peptides and quorum sensing. In addition, they did not have mutans streptococci but displayed high recruitment of other species. Several isolates belonging to these dominant bacteria in healthy individuals were cultured and shown to inhibit the growth of cariogenic bacteria, suggesting the use of these commensal bacterial strains as probiotics to promote oral health and prevent dental caries.     

Peptide Inhibitors of Streptococcus mutans in the Control of Dental Caries

Peptides have been investigated as potential inhibitors of Streptococcus mutans, the main cause of dental caries, and have demonstrated considerable promise. In a human trial, topical application to tooth surfaces of a synthetic peptide inhibitor (p1025) of S. mutans adhesion prevented recolonisation with the oral pathogen following treatment with chlorhexidine gluconate (a broad spectrum antiseptic compound). An important feature of this treatment is that the duration of protection extends well beyond the period in which p1025 is applied. The specific targeting of S. mutans which allows other members of the oral flora associated with health to recolonise the oral cavity and competitively exclude S. mutans may explain the extended protection. Further in vitro studies have identified several other peptides which may have potential as inhibitors of S. mutans. Of particular interest are studies that demonstrate that competence stimulating peptides of S. mutans act as inhibitors of S. mutans growth and that peptides derived from the competence stimulating peptides can be used as a means of specifically targeting broad spectrum antimicrobial peptides.     

Inhibitory effect of ginger (Zingiber officinale) on rat ileal motility in vitro

Ginger (Zingiber officinale rhizome) is a widespread herbal medicine mainly used for the treatment of gastrointestinal diseases, including dyspepsia, nausea and diarrhoea. In the present study we evaluated the effect of this herbal remedy on the contractions induced by electrical stimulation (EFS) or acetylcholine in the isolated rat ileum. Ginger (0.01-1000 microg/ml) inhibited both EFS- and acetylcholine-evoked contractions, being more potent in inhibiting the contractions induced by EFS. The depressant effect of ginger on EFS-induced contractions was reduced by the vanilloid receptor antagonist capsazepine (10(-5) M), but unaffected by the alpha(2)-adrenergic antagonist yohimbine (10(-7) M), the CB(1) receptor antagonist SR141716A (10(-6) M), the opioid antagonist naloxone (10(-6) M) or by the NO synthase inhibitor L-NAME (3 x 10(-4) M). Zingerone (up to 3 x 10(-4) M), one of the active ingredients of ginger, did not possess inhibitory effects. It is concluded that ginger possesses both prejunctional and postjunctional inhibitory effects on ileal contractility; the prejunctional inhibitory effect of ginger on enteric excitatory transmission could involve a capsazepine-sensible site (possibly vanilloid receptors).     

Role of serine/threonine phosphatase (SP-STP) in Streptococcus pyogenes physiology and virulence

Reversible phosphorylation is the key mechanism regulating several cellular events in prokaryotes and eukaryotes. In prokaryotes, signal transduction is perceived to occur primarily via the two-component signaling system involving histidine kinases and cognate response regulators. Although an alternative regulatory pathway controlled by the eukaryote-type serine/threonine kinase (Streptococcus pyogenes serine/threonine kinase; SP-STK) has been shown to modulate bacterial growth, division, adherence, invasion, and virulence in group A Streptococcus (GAS; S. pyogenes), the precise role of the co-transcribing serine/threonine phosphatase (SP-STP) has remained enigmatic. In this context, this is the first report describing the construction and characterization of non-polar SP-STP mutants in two different strains of Type M1 GAS. The STP knock-out mutants displayed increased bacterial chain lengths in conjunction with thickened cell walls, significantly reduced capsule and hemolysin production, and restoration of the phenotypes postcomplementation. The present study also reveals important contribution of cognately regulated-reversible phosphorylation by SP-STK/SP-STP on two major response regulators of two-component systems, WalRK and CovRS. We also demonstrate a distinct role of SP-STP in terms of expression of surface proteins and SpeB in a strain-specific manner. Further, the attenuation of virulence in the absence of STP and its restoration only in the complemented strains that were generated by the use of a low copy plasmid and not by a high copy one emphasize not only the essential role of STP in virulence but also highlight the tightly regulated SP-STP/SP-STK-mediated cognate functions. SP-STP thus is an important regulator of GAS virulence and plays a critical role in GAS pathogenesis.