Expression of the complement-binding protein (MP60) of Candida albicans in experimental vaginitis

The expression of the Candida albicans complement-binding C3d protein (MP60) was investigated both in vitro and in vivo by immunogold labelling and electron microscopy. In vivo expression was determined in a rat vaginitis model. Reactivity of in vitro-grown cells to an anti-MP60 rabbit serum was associated with both cytoplasmic and cell wall sites. Immunostaining in the cell wall of both yeast and hyphae was most concentrated in the inner, electron-lucid layer. Immunogold stained preparations of C. albicans from vaginal smears of infected animals also showed intense localization of the MP60 in the inner cell wall, plasma membrane. However, immunogold label was also intense at the cell surface in these samples, mostly in the area of close adherence with the keratinocytes of the vaginal epithelia. These observations indicate that MP60 is expressed both in vitro and in vivo, but to a different degree in the different cell wall layers. This revised version was published online in August 2006 with corrections to the Cover Date.     

Scanning electron microscope study of Candida albicans invasion of cultured human cervical epithelial cells

The invasion of monolayer cultures of epithelial cells from the human uterine cervix by clinical isolates of Candida albicans was observed. Blastospores settle on the epithelial cells and produce germ tubes within 2 h. Hyphae penetrate the epithelial cell walls and destroy the cells, weaving in and out of the cytoplasm. No phagocytosis of yeast cells by epithelial cells was seen.     

Adherence of Candida albicans and Candida dubliniensis to buccal and vaginal cells

Twenty-seven Candida albicans strains and 26 Candida dubliniensis strains, isolated from HIV patients, were tested for their adherence to buccal and vaginal epithelial cells. Both species showed important levels of adhesion to buccal and vaginal epithelial cells, although C. albicans showed the highest levels of adhesion. These results suggest that both Candida species are well adapted, in terms of adhesion capability, to the oral and vaginal environment.     

Cell surface hydrophobicity-associated adherence of Candida dubliniensis to human buccal epithelial cells

Microbial adherence to mucosal surfaces is an important first step in the initiation of the pathogenic process in the oral cavity. Candida albicans, the most adherent and pathogenic Candida species, utilizes a variety of mechanisms to adhere to human tissues. Although the strongest mechanism of adherence involves mannoprotein adhesins on C. albicans, cell surface hydrophobicity (CSH) plays an important role in the adherence process by providing hydrophobic interactions that turn the initial attachment between the yeast and a surface into a strong bond. Recent cell wall analytical and comparative studies showed that, Candida dubliniensis, unlike C. albicans, possesses cell surface variations that allow it to be constantly hydrophobic, regardless of growth temperature. Based on these observations, the present study was designed to compare the adherence abilities of C. dubliniensis and C. albicans to pooled human buccal epithelial cells (BEC), in regards to their cell surface hydrophobicity. Ten C. albicans and nine C. dubliniensis isolates, as well as the C. albicans hydrophobic variant A9V10 were evaluated for adherence with BEC using visual aggregation in the wells of a microtiter plate and microscopic examination. All 11 C. albicans isolates failed to show adherence to BEC, visually or microscopically, when grown at 37 degrees C. The same isolates, however, showed significant increase in aggregation and microscopic adherence to BEC when grown at 25 degrees C. All C. dubliniensis isolates tested and the A9V10 C. albicans hydrophobic variant resulted in visual aggregation and adhered to BEC when grown at either temperature. The findings from this study show that, based on comparative adherence results and growth temperature changes, C. dubliniensis seems to have greater adherence to BEC than do typical C. albicans strains and that hydrophobic interactions seem to be the mechanism of adherence involved. Although many questions remain to be answered regarding the clinical implications of this observed in vitro enhanced adherence of C. dubliniensis to human BEC, these findings support the establishment of this novel species as a clinically significant yeast.     

Decrease in adherence of bacteria and yeasts to human mucosal epithelial cells by noxythiolin in vitro

Adherence of buccal and vaginal isolates of Candida albicans to buccal epithelial cells and the adherence of urine isolates of Escherichia coli and Staphylococcus saprophyticus to uroepithelial cells was quantified by light microscopy. The antimicrobial agent noxythiolin reduced the adherence of these micro-organisms in both exponential and stationary growth phases. Adherence of both the blastospore and pseudohyphal forms of C. albicans was reduced. Treatment of epithelial cells and/or micro-organisms with noxythiolin resulted in decreased adherence. No anti-adherence effect was observed with formaldehyde and N-methylthiourea, the degradative products of noxythiolin.     

Correlative relationship between adherence of Candida albicans to human vaginal epithelial cells in vitro and candidal vaginitis

This study investigated whether a correlation exists between predisposition to candidal vaginitis and adherence of Candida albicans to vaginal epithelial cells in vitro. Vaginal epithelial cells from 120 fecund women who were pregnant and/or diabetic had a greater propensity to bind C. albicans than did 71 oral contraceptive users and 75 non-pregnant, non-diabetic controls. The highest level of adherence occurred in pregnant diabetic women. Among 48 non-diabetic postmenopausal females, C. albicans adherence was lower than for fecund controls, but it was higher for cells from 33 postmenopausal diabetic women. The hormonal status of the fecund and postmenopausal women was assayed cytologically by the Karyopyknotic and Maturation Indices, which determine the ratios of superficial, intermediate and parabasal vaginal epithelial cells. Our findings point to increased C. albicans adherence in situations where there is an increase in the number of intermediate epithelial cells: pregnancy, the first or fourth weeks of the menstrual cycle, or diabetes. The adherence of 41 C. albicans isolates from patients with vaginitis was significantly higher than that of 36 isolates from asymptomatic carriers.     

The ultrastructure of Candida albicans infections

Scrapings of Candida albicans plaques from the tongue and buccal mucosa of patients with oral candidiasis were examined by electron microscopy. In addition, urine sediment from patients with infection of their catheterized urinary tracts was similarly examined. Three types of C. albicans-oral epithelial cell interactions were noted: a loose adherence apparently mediated by a ruthenium red positive matrix, a "tight" adherence where no space could be seen between the host and yeast cell. and invasion of host cells by yeast hyphal elements. Adhesion of Candida blastospores to hyphal elements and adhesion of bacteria to Candida cells was also frequently observed. Urine sediments from patients with mixed bacteria-yeast infections demonstrated adhesion of the bacteria to the yeast cells. This phenomenon was also demonstrated in in vitro experiments and fibrous ruthenium red material invariably occupied the zone of adhesion. Phagocytosis of yeast by polymorphonuclear leukocytes was found in urinary, but not in oral. candidiasis. Our in vivo and in vitro observations indicate that a ruthenium red positive matrix covers the surfaces involved in the yeast to yeast, yeast to host, and yeast to bacteria adhesion.     

The adherence of Candida yeasts to human and bovine vascular endothelium and subendothelial extracellular matrix

Abstract The adherence of Candida albicans yeasts and other Candida species to human umbilical vein endothelial cells (HUVEC), bovine aortic endothelial cells (BAEC) and their respective subendothelial extracellular matrices (ECM) was studied. Yeast adherence to confluent HUVEC and BAEC appeared to occur at intercellular junctions and edges of endothelial cells in preference to the contoured surface of the endothelial cell. Both endothelial cell lines characteristically resisted yeast adherence. The resistance of endothelium to yeast adherence was especially pronounced in the presence of serum. On the other hand, there was avid yeast binding to the subendothelial ECMs, on the order of 200–500% greater than to monolayers of syngeneic endothelial cells.     

白色念珠菌粘附口腔粘膜上皮细胞配体的初步研究

目的：研究白色念珠菌对口腔粘膜上皮细胞的粘附配体,方法：采用体外法测定白色念珠菌对口腔上皮细胞的粘附数量,结果：D－甘露糖预作用于上皮细胞之后,可以使白色念珠菌粘附下降,刀豆素A及绿慕安预作用于白色念珠菌,可以减少白色念珠菌对上皮细胞的粘附,结论：白鬼念珠菌粘附感染与其表面甘露糖结构有关。     

Factors influencing adherence of Candida spp. to host tissues and plastic surfaces

Attachment of Candida spp. to host tissues and plastic surfaces is the first and a crucial step that initiates colonization by yeast cells and subsequent development of disseminated fungal infection. These infections are associated with high degree of morbidity, mortality and extra cost. Modern trends have focused not only on how best to treat but also on how to prevent Candida infections. To achieve this goal, the factors that influence the adherence of Candida spp. to biological and non biological surfaces have been studied. C. albicans adheres at a degree higher than that of the other Candida spp. and C. tropicalis adheres to a lesser extent. This may reflect the higher pathogenicity of C. albicans compared to the other Candida spp. Germinated C. albicans cells adhere to host tissue more readily than do yeast-phase. Sugars play an important role in the adherence of Candida spp. Overall, galactose was found to promote the adherence of Candida spp. to host tissues and plastic surfaces more than any other mono or disaccharide. Amino sugars on the other hand inhibit the adherence of the yeast cells. Divalent ions such as Ca2+ and Mg2+ promote the adherence of Candida spp. more than monovalent ions. Candida spp. express on their surface receptors, which interact with a wide variety of host proteins including fibrinogen, fibronectin, lamanin, and type I and IV collagen thus binding Candida spp. To glycoproteinaceous conditioning film at the blood-polymer interface. Coaggregation of Candida spp. with other bacteria promotes colonization of yeast cells to oral biofilm, host tissues, and to surfaces of the indwelling vascular catheters. These factors form the basis for the interference with the adherence of Candida spp.     

Experimental study of the effect of corticosteroid preparations on the adhesion of Candida genus fungi to the epitheliocytes of mucous membranes

The effect of corticosteroids on the adherence of Candida cells to epithelial cells was studied with the use of the original modification of the in vitro adherence assay. The administration of hydrocortisone acetate to mice resulted in the increased adherence of the pathogenic fungi to epithelial cells: after 10-day hormone treatment the adherence number and the adherence index increased, respectively, to 230% and 360% of control values. After 20-day treatment these characteristics increased, respectively, to 260% and 700%. The adherence of C. albicans to vaginal epithelial cells in female mice receiving corticosteroids increased in comparison with that in the control animals at estrus: the adherence number increased to 220% and the adherence index, to 470% of the level observed in the controls.     

Inhibition of Candida adhesion to buccal epithelial cells by an aqueous extract of Allium sativum (garlic)

The effect of pre-incubation of either Candida or buccal epithelial cells (BEC) with different concentrations of aqueous garlic extract (AGE) was investigated, as well as the effect of mouth rinse with AGE on the adhesion of yeast to BEC. Adhesion of Candida spp. to BEC was significantly reduced after both short and long time exposure of yeast to AGE. A similar inhibition of adherence was observed upon preincubation of BEC with AGE. The adherence-inhibition activity of AGE treatment was antagonized by thiols such as L-cysteine, glutathione and 2-mercaptoethanol. In addition, germ-tube formation was suppressed when C. albicans cells were pretreated with AGE. There was a significant reduction in the adherence of yeasts to BEC collected immediately or 15 min after an oral rinse with AGE. No statistical significance in the adhesion of BEC collected 30 min after oral rinse with AGE and control BEC was observed. The diminished adherence of C. albicans to BEC after exposure to various concentrations of garlic may have clinical relevance.     

Inhibition of Candida adhesion to buccal epithelial cells by an aqueous extract of Allium sativum (garlic)

The effect of pre-incubation of either Candida or buccal epithelial cells (BEC) with different concentrations of aqueous garlic extract (AGE) was investigated, as well as the effect of mouth rinse with AGE on the adhesion of yeast to BEC. Adhesion of Candida spp. to BEC was significantly reduced after both short and long time exposure of yeast to AGE. A similar inhibition of adherence was observed upon pre-incubation of BEC with AGE. The adherence-inhibition activity of AGE treatment was antagonized by thiols such as l-cysteine, glutathione and 2-mercaptoethanol. In addition, germ-tube formation was suppressed when C. albicans cells were pretreated with AGE. There was a significant reduction in the adherence of yeasts to BEC collected immmediately or 15 min after an oral rinse with AGE. No statistical significance in the adhesion of BEC collected 30 min after oral rinse with AGE and control BEC was observed. The diminished adherence of C. albicans to BEC after exposure to various concentrations of garlic may have clinical relevance.     

Reduced adherence of micro-organisms to human mucosal epithelial cells following treatment with Taurolin, a novel antimicrobial agent

Taurolin, a non-antibiotic antimicrobial agent, significantly reduced the adherence of buccal and vaginal strains of Candida albicans blastospores and urine isolates of Escherichia coli and Staphylococcus saprophyticus to epithelial cells. Light microscopy and radio-isotopic counting methods were used to quantify the adherence of the micro-organisms to either uroepithelial or buccal epithelial cells. A maximum reduction in adherence of approximately 65% was obtained. The anti-adherence capacity was time-dependent, requiring a contact time of 30 min to achieve maximum effect. Taurolin at sub-minimum inhibitory concentrations (MIC) significantly reduced the adherence of Candida and E. coli. A concentration slightly higher than the MIC was required for Staph. saprophyticus. Treatment of either epithelial cells or micro-organisms with Taurolin resulted in reduced adherence of microorganisms.     

Reduced adherence of micro-organisms to human mucosal epithelial cells following treatment with Taurolin, a novel antimicrobial agent

Taurolin, a non-antibiotic antimicrobial agent, significantly reduced the adherence of buccal and vaginal strains of Candida albicans blastospores and urine isolates of Escherichia coli and Staphylococcus saprophyticus to epithelial cells. Light microscopy and radio-isotopic counting methods were used to quantify the adherence of the micro-organisms to either uroepithelial or buccal epithelial cells. A maximum reduction in adherence of approximately 65% was obtained. The anti-adherence capacity was time-dependent, requiring a contact time of 30 min to achieve maximum effect. Taurolin at sub-minimum inhibitory concentrations (MIC) significantly reduced the adherence of Candida and E. coli. A concentration slightly higher than the MIC was required for Staph. saprophyticus. Treatment of either epithelial cells or micro-organisms with Taurolin resulted in reduced adherence of microorganisms.     

白色念珠菌胃癌株对细胞粘附作用的研究

研究白色念珠菌 (candidaalbicans)正常人口腔株与胃癌株对口腔粘膜细胞及肺上皮细胞的粘附性能。将白色念珠菌与正常人口腔颊粘膜细胞或培养的人肺上皮细胞于 37℃温育一定时间后 ,计算每个细胞粘附白色念珠菌数。白色念珠菌胃癌株对两类细胞粘附能力均较正常人口腔株强 ,其差异有显著性 (p <0 .0 1)。粘附性是致病菌侵袭力的重要机制 ,粘附性增强是白色念珠菌由正常微生物群成员转变为条件致病菌的重要条件。     

Extracellular polymer of Candida albicans: isolation, analysis and role in adhesion

Extracellular polymeric material (EP) was isolated from culture supernatants of Candida albicans grown on carbon sources (50 mM-glucose, 500 mM-sucrose or 500 mM-galactose) known to promote yeast adhesion to different extents. Galactose-grown yeasts, which are the most adherent, produced more EP than sucrose-grown organisms, particularly after incubation for 5 d, while glucose-grown yeasts (the least adherent) gave the lowest yield. EP produced on all three carbon sources was of similar composition and contained carbohydrate (65 to 82%; mannose with some glucose), protein (7%), phosphorus (0.5%) and glucosamine (1.5%). Serological studies indicated that these EP preparations were immunologically identical but that galactose-grown yeasts had more antigenic determinants than sucrose-grown organisms while glucose-grown yeasts had the fewest determinants. Antigenic differences were apparent between EP preparations of some strains of C. albicans. Pretreatment of acrylic strips with EP to form a polymeric coating promoted yeast adhesion to the acrylic surface, but similar pretreatment of buccal epithelial cells with EP inhibited subsequent yeast adhesion. These results indicate that EP originates from the cell surface of C. albicans and that it contains the surface component(s), probably mannoprotein in nature, responsible for yeast adhesion.     

Influence of mucosal cell origin on the in vitro adherence of Candida albicans: Are mucosal cells from different sources equivalent?

The influence of collecting mucosal cells from various anatomical sites, and varying the date of collection and cell donor on adhesion of Candida albicans to human epithelial cells was examined by using an in vitro adherence assay. Examination of buccal mucosal cells from twenty-four donors showed statistically significant differences in the number of attached yeasts between individuals. Sex did not exert a significant influence on adhesion. Examination of buccal mucosal cells from ten donors collected on five different dates revealed that yeast attachment to mucosal epithelial cells varied significantly within subjects across time. Epithelial cells from some donors manifested greater date-to-date variations in yeast adhesion than others. Adherence of Candida to mucosal cells from three anatomical sites (mouth, vagina and urinary tract) collected from ten different donors was also tested. Yeast adherence to buccal cells was highest, lowest using urinary tract cells, while vaginal epithelium was intermediate. Adherence to mucosal cells from three sites was significantly different both within and between individuals although some subjects manifested larger variations than others. These data suggest that the in vitro adherence of Candida albicans is influenced by mucosal cell donor, date of collection and body site of origin. Mucosal cells from different sources do not appear to be equivalent in receptiveness to C. albicans and this might explain some of the discrepancies observed when adhesion studies performed by different investigators are compared. The existing need for a more uniform methodology with which to pursue studies on fungal attachment to mucosal surfaces is emphasized.     

Concanavalin-A induces IL-17 production during the course of Candida albicans infection

In a previous study, our group verified that 100% of mice survived to a lethal dose of Candida albicans following pretreatment with concanavalin-A (Con-A) for 3 days. This work proposed to investigate whether treatment could mediate an adaptative immune response involving T(H) 17 cells. A significant increase in IL-17 levels at 6 h postinfection was observed and was maintained up to 18 h in the Con-A group, whereas in control mice, a reduction in this cytokine was verified. In addition, T(H) 17 cells develop in the presence of TGF-β, IL-1 β, and IL-6 that were increased significantly 2 h postinfection in Con-A-treated mice. Macrophages were involved in the process, engulfing greater numbers of yeast cells, and were activated through TNF-α and interferon-γ produced at significant levels at 2 h postinfection. A significant increase in IL-12 levels was also observed at 2 h postinfection. Thus, activated macrophages were probably more capable of killing and processing Candida antigens, signalizing an adaptative immune response. Macrophages from controls did not prevent yeast-to-hyphae transition and were partially destroyed, as shown in scanning microscopy. These results suggest that treatment with Con-A facilitated the triggering of T(H) 17 and T(H) 1 responses via IL-17 and IFN-γ production, leading to the resolution of C. albicans infection.     

Characterization of Weissella kimchii PL9023 as a potential probiotic for women

From more than 100 lactic acid bacteria, Weissella kimchii PL9023 was selected as producing the most hydrogen peroxide and was characterized as a probiotic for women. W. kimchii PL9023 inhibited the growth and adherence of vaginal isolates of Candida albicans, Escherichia coli, Staphylococcus aureus and Streptococcus agalactiae. The surface components involved in adherence of W. kimchii PL9023 to vaginal epithelial cells appeared to be glycoproteins, as determined by susceptibility to proteinase K, heat, or periodate. W. kimchii PL9023 did not produce harmful metabolites or enzymes. The results of this study suggest that W. kimchii PL9023 is a potential probiotic for vaginal health.