Antagonistic effects of Bacillus natto and Streptococcus faecalis on growth of Candida albicans.

The growth-inhibitory effects of Bacillus natto and Streptococcus faecalis on Canida albicans were investigated. When inoculated into the filtrate of a long-term culture of B. natto strain BN (BN), a stock culture of C. albicans RIMD 0301020 lost its viability completely, whereas C. albicans RIMD 0301011, a fresh isolate from a clinical source, did not. In continuous flow (CF) culture the growth of both strains of C. albicans was suppressed by mixed cultivation with BN. On the other hand, in classical batch culture BN did not suppress the growth of C. albicans. S. faecalis BIO-4R, a multi-drug resistant strain, was also antagonistic to C. albicans RIMD 0301011 but symbiotic with BN in CF culture. These findings suggest that BN in concert with S. faecalis BIO-4R may inhibit the growth of C. albicans in the intestinal tract.     

Antimicrobial effects of plant extracts on Streptococcus mutans, Candida albicans, Trichophyton rubrum and other micro-organisms

Extracts of 54 plant species were tested for ability to inhibit bacteria and fungi, especially Candida albicans, Trichophyton rubrum and Streptococcus mutans. The latter three species cause common dermal, mucosal, or oral infections in humans that are difficult to control effectively. Fifteen plant extracts produced detectable antimicrobial activity. The most active included Celastrus scandens root bark, Juglans nigra fruit husks, Kalmia latifolia leaves, Pelargonium xhortorum leaves, and Rhus glabra root bark. Five plant species inhibited Strep. mutans , four inhibited T. rubrum , and two inhibited C. albicans. Lindera benzoin , a common temperate zone shrub, showed evidence of selective toxicity. Extract of L. benzoin bark strongly inhibited C. albicans and T. rubrum , but did not affect any of the other microorganisms tested.     

Isolation and identification of the products of Streptococcus faecalis inhibiting mycelial transformation of Candida albicans

An attempt was made to isolate and identify Streptococcus faecalis products responsible for the inhibition of mycelial transformation of Candida albicans. Five of streptococcal strains which 48 h broth culture supernatants run at 37 degrees C inhibited the most transformation of Candida albicans from yeast phase to mycelial phage. The strains were cultivated for 48 h in Tryptic Soy Broth at 37 degrees C, centrifuged and culture supernatants sterilised by means of filtration on millipore membranes of 0.4 micron diameter. After multistep purification of supernatants filtration on Diaflo PM 10 ultrafiltration membranes, Sephadex G 25, polyacrylamide gel electrophoresis) a homogenous, active fraction was obtained containing peptides of molecular weight around 6,000 Da. The peptides lost ability to induce mycelial transformation of C. albicans after heating at 100 degrees C for 10 min. Significant inhibition of morphological transformation of fungal cells was seen at the preparation concentration of 0.12 microgram/ml.     

Antimicrobial effects of microwave-induced plasma torch (MiniMIP) treatment on Candida albicans biofilms

The susceptibility of Candida albicans biofilms to a non-thermal plasma treatment has been investigated in terms of growth, survival and cell viability by a series of in vitro experiments. For different time periods, the C. albicans strain SC5314 was treated with a microwave-induced plasma torch (MiniMIP). The MiniMIP treatment had a strong effect (reduction factor (RF) = 2.97 after 50 s treatment) at a distance of 3 cm between the nozzle and the superior regions of the biofilms. In addition, a viability reduction of 77% after a 20 s plasma treatment and a metabolism reduction of 90% after a 40 s plasma treatment time were observed for C. albicans. After such a treatment, the biofilms revealed an altered morphology of their cells by atomic force microscopy (AFM). Additionally, fluorescence microscopy and confocal laser scanning microscopy (CLSM) analyses of plasma-treated biofilms showed that an inactivation of cells mainly appeared on the bottom side of the biofilms. Thus, the plasma inactivation of the overgrown surface reveals a new possibility to combat biofilms.     

Interplay between Candida albicans and the Antimicrobial Peptide Armory

Antimicrobial peptides (AMPs) are key elements of innate immunity, which can directly kill multiple bacterial, viral, and fungal pathogens. The medically important fungus Candida albicans colonizes different host niches as part of the normal human microbiota. Proliferation of C. albicans is regulated through a complex balance of host immune defense mechanisms and fungal responses. Expression of AMPs against pathogenic fungi is differentially regulated and initiated by interactions of a variety of fungal pathogen-associated molecular patterns (PAMPs) with pattern recognition receptors (PRRs) on human cells. Inflammatory signaling and other environmental stimuli are also essential to control fungal proliferation and to prevent parasitism. To persist in the host, C. albicans has developed a three-phase AMP evasion strategy, including secretion of peptide effectors, AMP efflux pumps, and regulation of signaling pathways. These mechanisms prevent C. albicans from the antifungal activity of the major AMP classes, including cathelicidins, histatins, and defensins leading to a basal resistance. This minireview summarizes human AMP attack and C. albicans resistance mechanisms and current developments in the use of AMPs as antifungal agents.     

Novel amide alkaloids from the roots of Piper guineense

Two novel amide alkaloids, wisanine and wisanidine, have been isolated from the petroleum-extract of the roots of Piper guineense, and found to be N-piperidyl-5 (2-methoxy-4,5-methylenedioxyphenyl)-trans-2-trans-4-pentadienamide and N-pyrrolidyl-5-(2-methoxy-4, 5-methylenedioxyphenyl)-trans-2-trans-4-pentadienamide respectively. The structure of wisanidine has been confirmed by synthesis. N-Isobutyl)-trans-2-trans-4-eicosadienamide, recently reported to be present in the fruits of the plant as well as Piperine and Δ^α,β-dihydropiperine have also been found to be major constituents of the roots.     

纳米-TiO2对变异链球菌和白色假丝酵母菌抗菌机制的研究

目的 采用原子力显微镜对应用抗菌剂纳米Ag-Ti02作用后的口腔两种常见致病菌的分子形貌进行观测,为研究其抑菌机制提供有力的直观影像科学依据和可靠、直观的实验方法.方法 选择两种菌种:白色假丝酵母菌、变形链球菌,采用液体稀释法将纳米Ag-TiO2与两种菌相互作用,分别使用光学显微镜、原子力显微镜观察两种菌的细胞微观形态变化.结果 抗菌剂与两种菌作用后,细菌形态均有不同程度的改变,甚至是死亡.结论 原子力显微镜能直观地显示白色假丝酵母菌,变形链球菌的分子结构,通过本实验在研究纳米Ag-TiO2抗菌剂对白色假丝酵母菌,变形链球菌的抑菌机理形态学改变方面做了进一步的完善.     

Msb2 Shedding Protects Candida albicans against Antimicrobial Peptides

Msb2 is a sensor protein in the plasma membrane of fungi. In the human fungal pathogen C. albicans Msb2 signals via the Cek1 MAP kinase pathway to maintain cell wall integrity and allow filamentous growth. Msb2 doubly epitope-tagged in its large extracellular and small cytoplasmic domain was efficiently cleaved during liquid and surface growth and the extracellular domain was almost quantitatively released into the growth medium. Msb2 cleavage was independent of proteases Sap9, Sap10 and Kex2. Secreted Msb2 was highly O-glycosylated by protein mannosyltransferases including Pmt1 resulting in an apparent molecular mass of >400 kDa. Deletion analyses revealed that the transmembrane region is required for Msb2 function, while the large N-terminal and the small cytoplasmic region function to downregulate Msb2 signaling or, respectively, allow its induction by tunicamycin. Purified extracellular Msb2 domain protected fungal and bacterial cells effectively from antimicrobial peptides (AMPs) histatin-5 and LL-37. AMP inactivation was not due to degradation but depended on the quantity and length of the Msb2 glycofragment. C. albicans msb2 mutants were supersensitive to LL-37 but not histatin-5, suggesting that secreted rather than cell-associated Msb2 determines AMP protection. Thus, in addition to its sensor function Msb2 has a second activity because shedding of its glycofragment generates AMP quorum resistance.     

Antiplasmodial effects of the aqueous extract of Phyllantus amarus Schumach and Thonn against Plasmodium berghei in Swiss albino mice.

Phyllantus amarus Schumach and Thonn is a medicinal plant used commonly for the treatment of malaria-related symptoms by the general public in southeastern Nigeria. The present study determines the possible antiplasmodial effects of the aqueous extract of the leaves and stem of the plant against Plasmodium berghei infection using Swiss albino mice as models. The blood schizonticidal activity of the aqueous extract in early infection and in established Plasmodium berghei infection was assessed and compared to the activities of chloroquine and sulfadoxine/pyrimethamine. The repository activity of the extract was also assessed and compared to the activity of pyrimethamine. The LD50 of the aqueous extract of the leaves and stem of the plant was also determined using albino Wistar rats. The results show that the LD50 of the aqueous extract of Phyllantus amarus Schumach and Thonn was 650 mg/kg. In early infection, the extract at doses of 108.33 mg/kg, 165 mg/kg and 325 mg/kg was found to cause a significant dose-dependent suppression of P berghei parasites [P < P0.05] sulfadoxine/pyrimethamine caused a similar significant suppression of P berghei parasites [P < 0.05] while chloroquine at a dose of 5 mg/kg did not cause a significant effect on P berghei parasites. Similarly, the extract was found at all doses to cause a statistically significant [P < 0.05] suppression of P berghei parasites via a repository action. This effect was comparable to the effects of pyrimethamine a standard repository agent. In established infection, the extract at all doses administered, was found to significantly suppress P berghei parasites at 24 and 72-hour periods [P < 0.05]. Comparatively, sulfadoxine/pyrimethamine caused a similar statistical [P < 0.05] suppression of the parasites of P. berghei. However, the effects of sulfadoxine/pyrimethamine were more sustained over the 72-hour period. The present study therefore validates the local use of the extracts of Phyllantus amarus Schumach and Thonn as an antimalarial agent. Further studies are however recommended to identify and possibly characterize the potential antiplasmodial agents in the aqueous extract of the plant.     

Ultrastructural effects of date extract on Candida albicans

The effect of Berhi date extract on the ultrastructure of Candida albicans was studied by scanning and transmission electron microscopy. Exposure of yeast to 5% (w/v) date extract showed evidence of weakening in the cell wall with indications of cell distortion and partial collapse in some cases as seen by scanning electron microscopy. Increasing the concentration of date extract (20%, w/v) led to more drastic damage to the yeast with cell lysis and concurrent leakage of cytoplasmic material with eventual cell death. Ultrastructural investigation showed irregular shapes of cells treated with date extract, with prominent effects on cell wall layers. Cell membranes lost their integrity, aggregation of the cytoplasmic contents and large detachment of plasmalemma from cell wall was observed in the treated cells. These results suggest that date extract may have multiple effects on Candida with an increasing potential of using it for prophylaxis purposes. This revised version was published online in June 2006 with corrections to the Cover Date.     

Streptococcus mutans Competence-Stimulating Peptide Inhibits Candida albicans Hypha Formation

The oral cavity is colonized by microorganisms growing in biofilms in which interspecies interactions take place. Streptococcus mutans grows in biofilms on enamel surfaces and is considered one of the main etiological agents of human dental caries. Candida albicans is also commonly found in the human oral cavity, where it interacts with S. mutans. C. albicans is a polymorphic fungus, and the yeast-to-hypha transition is involved in virulence and biofilm formation. The aim of this study was to investigate interkingdom communication between C. albicans and S. mutans based on the production of secreted molecules. S. mutans UA159 inhibited C. albicans germ tube (GT) formation in cocultures even when physically separated from C. albicans. Only S. mutans spent medium collected in the early exponential phase (4-h-old cultures) inhibited the GT formation of C. albicans. During this phase, S. mutans UA159 produces a quorum-sensing molecule, competence-stimulating peptide (CSP). The role of CSP in inhibiting GT formation was confirmed by using synthetic CSP and a comC deletion strain of S. mutans UA159, which lacks the ability to produce CSP. Other S. mutans strains and other Streptococcus spp. also inhibited GT formation but to different extents, possibly reflecting differences in CSP amino acid sequences among Streptococcus spp. or differences in CSP accumulation in the media. In conclusion, CSP, an S. mutans quorum-sensing molecule secreted during the early stages of growth, inhibits the C. albicans morphological switch.The oral cavity is colonized by many different microbial species, where most reside in biofilms. Because of its multispecies nature, the oral microbial community is one of the best biofilm models for studying interspecies interactions (17). The gram-positive bacterium Streptococcus mutans shows a high prevalence in dental biofilms, and it is considered to be the major etiological agent involved in human dental caries (21). The fungal species Candida albicans constitutes a minor part of the total microbial flora (19) and can be isolated as a commensal from the oral cavity of 50% to 60% of healthy adults (33). However, in immunocompromised individuals (for example, due to human immunodeficiency virus infection or as a result of chemotherapy) and elderly patients, this fungus often leads to candidiasis (24). C. albicans is a polymorphic fungus that can exist in three morphotypes: budding yeast, pseudohypha, and true hypha (5). The morphological switch from yeast to hyphal cells is important in many processes, such as virulence (22) and biofilm formation (10, 18), and is therefore the subject of many studies.Bacteria and yeasts are often found together in vivo, and there is growing evidence that interspecies, and even interkingdom, interactions occur within these populations (7). These interactions can be mediated through signaling molecules (40), as recently described for the interaction between C. albicans and Pseudomonas aeruginosa, an opportunistic bacterial pathogen (15). N-3-oxo-C₁₂ homoserine lactone (HSL), a signaling molecule involved in bacterial quorum sensing, completely represses C. albicans hypha formation without altering the growth rate. Although many gram-negative bacteria produce HSLs with shorter acyl chains (e.g., C₄-HSL), the inhibition of C. albicans hypha formation is caused specifically by long-chained HSL molecules. In addition, related, non-HSL molecules with long acyl chains, such as dodecanol and farnesol, also inhibit the hypha formation of C. albicans (8).A recent report described the coculturing of C. albicans and S. mutans in model oral biofilms on hydroxyapatite (26). It was shown that S. mutans increased the growth of C. albicans by stimulating coadhesion while simultaneously suppressing the formation of hyphae. S. mutans is a gram-positive bacterium and does not produce HSL-type molecules, and the nature of the interaction with C. albicans is presently unknown. In this study, the interaction between S. mutans and C. albicans was investigated by studying the effect of secreted molecules of S. mutans on C. albicans hypha formation.     

Growth and virulence of Candida albicans after oral inoculation in the chick with a monoflora of either Escherichia coli or Streptococcus faecalis

Balish, Edward (Syracuse University, Syracuse, N.Y.), and A. W. Phillips. Growth and virulence of Candida albicans after oral inoculation in the chick with a monoflora of either Escherichia coli or Streptococcus faecalis. J. Bacteriol. 91:1744-1749. 1966.-Bacterial protection against intestinal infection by Candida albicans was investigated in chicks with a monoflora of either Escherichia coli or Streptococcus faecalis. These animals were obtained by orally inoculating germ-free chicks (3 days old) with pure cultures of bacteria. Each bacterial species was established in large numbers in the gut of separate groups of animals within 24 hr of inoculation; these numbers were similar in chicks examined 34 days later, at which time all animals were killed. The numbers of bacteria from contents of the crop, small intestine, and ceca were similar in chicks with the E. coli monoflora. Comparable results were obtained in chicks with the S. faecalis monoflora, except for decreased numbers in the duodenum and jejunum. Some of the monoflora chicks (7 days old) were transferred into separate isolators, orally inoculated with C. albicans, and observed for 34 days. All chicks grew well and appeared healthy. However, examinations at autopsy revealed severe crop infections in chicks with a diflora containing S. faecalis. Preferential growth of hyphae (C. albicans) occurred in the lesions and throughout the gut. The numbers of S. faecalis in the gut were comparable to those found in unchallenged animals. Agglutinins against C. albicans were not detected in our test or control chicks. Chicks with a diflora containing E. coli and C. albicans had a few microscopic crop lesions containing small numbers of hyphae. C. albicans was well established in the gut of these animals, largely as the yeast form. The numbers of E. coli in the gut were similar to those in control chicks. Thus, it was concluded that E. coli provided protection against crop infection by C. albicans. In crop contents from unchallenged animals, chicks with S. faecalis monoflora were about pH 5, whereas birds with E. coli monoflora were about pH 7. The challenge did not greatly change the former value, and the latter was slightly decreased. In the crop of unchallenged birds, negative E(h) values were found in chicks with S. faecalis and positive E(h) values in those with E. coli. Challenge did not greatly change these values. These data on pH and E(h) were related to conditions for morphogenesis of C. albicans and virulence. No major difference in the concentrations of serum proteins was seen in chicks with E. coli or S. faecalis after challenge with C. albicans. Possible mechanisms of the protective effect of E. coli are discussed.     

纳豆杆菌对白假丝酵母菌的拮抗作用

目的探讨纳豆杆菌对白假丝酵母菌的拮抗作用。方法将纳豆杆菌和白假丝酵母菌混合培养24 h后,应用沙保弱平板培养基分离白假丝酵母菌,计数菌落,计算纳豆杆菌对白假丝酵母菌的拮抗率。结果纳豆杆菌对白假丝酵母菌的拮抗作用明显,拮抗率高达91.91%;纳豆杆菌肉汤培养物的除菌滤液对白假丝酵母菌也有明显的拮抗作用,拮抗率为79.05%。结论纳豆杆菌对白假丝酵母菌具有明显拮抗作用,是白假丝酵母菌的理想拮抗菌株。     

载银纳米二氧化钛树脂基托对口腔变形链球菌、白色念珠菌和血链球菌的影响

目的研究载银纳米二氧化钛(Ag-TiO2)树脂基托对变形链球菌和白色念珠菌的体外抗菌效果,同时研究其对口腔有益菌血链球菌的影响。方法将不同质量分数的载银纳米二氧化钛抗菌粉剂添加到树脂基托材料中,制成抗菌树脂基托。采用薄膜密贴法分别检测该抗菌树脂基托对变形链球菌、白色念珠菌和血链球菌的抗菌率。结果与空白对照相比,Ag-TiO2质量分数为2.0%时,抗菌树脂基托对变形链球菌的抗菌率达95.0%,当质量分数达到3.0%时,抗菌率达到99.0%;Ag-TiO2质量分数为3.0%时,抗菌树脂基对白色念珠菌抗菌率达90.0%以上,但当Ag-TiO2质量分数达到5.0%时,仍未达到强抗菌作用;含Ag-TiO2的抗菌树脂基托对口腔有益菌血链球菌也存在一定的抑制作用,当Ag-TiO2质量分数达到5.0%,时抗菌树脂基托对变形链球菌的抗菌率达到51.6%。结论质量分数为3.0%的载银纳米二氧化钛树脂基托对变形链球菌、白色念珠菌均有抑制作用,对口腔血链球菌的杀灭作用不强,3.0%的浓度在既能杀死致病菌的同时又能最大程度保护口腔有益菌,可以很大程度上保证口腔微生态的平衡。