On the Immunochemical and Biochemical Studies of Fungi

The nature of the cross reaction of the mycelial mannan of Trichophyton rubrum and galactomannan isolated from the culture medium of Aspergillus fumigatus with antisera of Saccharomyces cerevisiae and Candida albicans is described. Cross-reactivity of polysaccharides of both T. rubrum and A. fumigatus was weak with antisera of C. albicans and S. cerevisiae, but the galactomannan of A. fumigatus showed slightly stronger activity than the mannan of T. rubrum which possesses more closely related chemical structure of the mannans of S. cerevisiae and C. albicans.     

Cellular interactions of Candida albicans with human oral epithelial cells and enterocytes

The human pathogenic fungus Candida albicans can cause systemic infections by invading epithelial barriers to gain access to the bloodstream. One of the main reservoirs of C. albicans is the gastrointestinal tract and systemic infections predominantly originate from this niche. In this study, we used scanning electron and fluorescence microscopy, adhesion, invasion and damage assays, fungal mutants and a set of fungal and host cell inhibitors to investigate the interactions of C. albicans with oral epithelial cells and enterocytes. Our data demonstrate that adhesion, invasion and damage by C. albicans depend not only on fungal morphology and activity, but also on the epithelial cell type and the differentiation stage of the epithelial cells, indicating that epithelial cells differ in their susceptibility to the fungus. C. albicans can invade epithelial cells by induced endocytosis and/or active penetration. However, depending on the host cell faced by the fungus, these routes are exploited to a different extent. While invasion into oral cells occurs via both routes, invasion into intestinal cells occurs only via active penetration.     

The incidence of skin manifestations by dermatophytes in patients with psoriasis

Thirty-four psoriatic patients (23 males, 11 females) were found to have skin manifestations of dermatophyte infection. Tinea pedis was observed in 20 cases, tinea cruris in 6 and tinea mannum in 2. T. rubrum was the causative agent in all of these with the exception of 2 cases caused by E. floccosum. Lesions of tinea corporis were found intermingled with psoriatic plaques in various areas of the body skin in 6 patients (4 males, 2 females); T. rubrum was isolated from 5 of these and M. canis from one. Twenty-one of these psoriatic patients also had lesions caused by C. albicans in the toe-webs and interdigital aspects of the fingers, the latter being associated with paronychia in 9 cases. These findings indicate that we should remain aware of the possibility of fungus manifestations in patients with psoriasis, which would not appear to be an exceptional occurrence.     

Biofilm of Candida albicans: formation,regulation and resistance

Candida albicans is the most common human fungal pathogen, causing infections that range from mucous membranes to systemic infections. The present article provides an overview of C. albicans, with the production of biofilms produced by this fungus, as well as reporting the classes of antifungals used to fight such infections, together with the resistance mechanisms to these drugs. Candida albicans is highly adaptable, enabling the transition from commensal to pathogen due to a repertoire of virulence factors. Specifically, the ability to change morphology and form biofilms is central to the pathogenesis of C. albicans. Indeed, most infections by this pathogen are associated with the formation of biofilms on surfaces of hosts or medical devices, causing high morbidity and mortality. Significantly, biofilms formed by C. albicans are inherently tolerant to antimicrobial therapy, so the susceptibility of C. albicans biofilms to current therapeutic agents remains low. Therefore, it is difficult to predict which molecules will emerge as new clinical antifungals. The biofilm formation of C. albicans has been causing impacts on susceptibility to antifungals, leading to resistance, which demonstrates the importance of research aimed at the prevention and control of these clinical microbial communities.     

Determining the disinfection of textiles in compressed carbon dioxide using various indicator microbes

Aims: This paper presents a research on the disinfection efficiency of inoculated textile swatches by compressed carbon dioxide, an environmental friendly way to disinfect textiles as opposed to the conventional laundering procedures using water. The disinfection efficiency was determined by using the following microbes inoculated on cotton test fabrics: Enterococcus faecium, Enterobacter aerogenes and Candida albicans. Methods and Results: The experiments were performed using the high pressure extraction device with a maximum pressure of 50 MPa and a small extraction vessel of 500 ml. Pure CO₂ and CO₂ with added disinfection agent or commercial detergent were used. The chosen disinfecting agent was hydrogen peroxide, a widespread disinfecting chemical. It was found that treatment with CO₂ for 25 min at 5 MPa and 40°C (313K) and the addition of 4 ml of specific detergent per litre of CO₂ assures at least a five log step reduction of Enterobacter aerogenes and C. albicans, whilst treatment at 50°C (323K) with CO₂ for 25 min at 5 MPa is sufficient for at least a five log step reduction for Enterococcus faecium. It was also found that a 15‐min CO₂ treatment at 7 MPa and 20°C (293K) was sufficient for the inactivation of the yeast C. albicans, whilst these conditions were not rigorous enough for the challenge bacteria. On the other hand, the labscale treatment with CO₂ for 25 min at pressure 4 and 6 MPa with the addition of detergent or hydrogen peroxide only yields a log step reduction of up to 4 log steps, thus proving the slightly disinfective properties of the CO₂ treatment with added agents, but not reaching efficient results as a 5 log step reduction was not reached. Conclusions: Addition of heat to the compressed CO₂ treatment of textiles inoculated with microorganisms proved more effective than the addition of detergent or disinfectant with compressed CO₂ treatment at temperature of 20°C. Significance and Impact of the Study: CO₂ treatment of textiles is a promising ecological alternative dry‐cleaning method for the disinfection of medical textiles.     

Enemies and brothers in arms: Candida albicans and gram‐positive bacteria

Candida albicans is an important human opportunistic fungal pathogen which is frequently found as part of the normal human microbiota. It is well accepted that the fungus interacts with other components of the resident microbiota and that this impacts the commensal or pathogenic outcome of C. albicans colonization. Different types of interactions, including synergism or antagonism, contribute to a complex balance between the multitude of different species. Mixed biofilms of C. albicans and streptococci are a well‐studied example of a mutualistic interaction often potentiating the virulence of the individual members. In contrast, other bacteria like lactobacilli are known to antagonize C. albicans, and research has just started elucidating the mechanisms behind these interactions. This scenario is even more complicated by a third player, the host. This review focuses on interactions between C. albicans and gram‐positive bacteria whose investigation will without doubt ultimately help understanding C. albicans infections.     

Candida albicans is able to use M cells as a portal of entry across the intestinal barrier in vitro

Candida albicans is the most frequent yeast responsible for systemic infections in humans. These infections mainly originate from the gastrointestinal tract where C. albicans can invade the gut epithelial barrier to gain access to the bloodstream. Along the gut, pathogens can use Microfold (M) cells as a portal of entry to cross the epithelial barrier. M cells are specialized cells mainly located in the follicule‐associated epithelium of Peyer patches. In this study, we used scanning electron and fluorescence microscopy, adhesion and invasion assays and fungal mutants to investigate the interactions of C. albicans with M cells obtained in an established in vitro model whereby enterocyte‐like Caco‐2 cells co‐cultured with the Raji B cell line undergo a phenotypic switch to morphologically and functionally resembling M cells. Our data demonstrate that C. albicans co‐localizes with and invades preferentially M cells, providing evidence that the fungus can use M cells as a portal of entry into the intestinal barrier. In addition to active penetration, F‐actin dependent endocytosis contributes to internalization of the fungus into M cells through a mechanism involving hypha‐associated invasins including Ssa1 and Als3.     

A new improved strategy for the selection of cold-adapted antagonist yeasts to control postharvest pear diseases

Postharvest diseases cause considerable losses of harvested fruits during transportation and storage. Many yeast species have been reported as good antagonists against postharvest pear pathogens. In this work, we used a novel selection strategy that involves the isolation of yeasts from washing fluids, showing biocontrol activity against a regional Penicillium expansum strain (primary screening), originally obtained from fruit wounds after long time storage at ?1/0°C. About 26 isolates representative of the 11 yeast species identified in the 27 selected washing waters were chosen to be evaluated in a secondary screening against a regional Botrytis cinerea strain on pear wounds. Among yeasts tested, 38% showed complete control of P. expansum, but only 15% reduced the decay incidence of B. cinerea to 60–80% at ?1/0°C. These results reveal that some of the yeasts found can be biological alternatives to fungicides in the control of P. expansum and B. cinerea infections. Based on the data obtained, our strategy seems to be much more effective than the previously reported methods in obtaining successful biocontrol agents.     

Control and possible applications of a novel carrot-spoilage basidiomycete, Fibulorhizoctonia psychrophila

A novel cold-tolerant fungus, Fibulorhizoctonia psychrophila, was isolated from a refrigerated carrot storage facility and identified as an anamorph of Athelia, often classified in Rhizoctonia s.l. Growth of this fungus was observed between 0 and 20°C with an optimum at 9–12°C, while incubation of mycelium grown at 15–32°C resulted in absence of growth even after the fungus was transferred back to 15°C. Growth was inhibited in the presence of the antifungals sorbic acid or natamycin, in particular when the fungus was incubated at 18°C. F. psychrophila produces polysaccharide degrading enzymes that, when compared to enzymes from the ascomycete fungus Aspergillus niger, retain a larger proportion of their activity at lower temperatures. This indicates that F. psychrophila could be used as a source for novel industrial enzymes that are active at 4–15°C.     

Causative Agents of Superficial Mycoses in Istanbul,Turkey: Retrospective Study

The aim of the present study was to determine the percentage of agents, which can give rise to superficial fungal infections in Istanbul, Turkey. Between 2000 and 2007, the clinical samples collected from 8,200 patients attending the outpatient Dermatology Clinic at Mihrimahsultan Medical Center were examined by direct microscopy and culture. Pathogen fungi were detected in 5,722 of the patients. Of the isolates were 4,218 (74%) dermatophytes, 1,196 (21%) Candida sp., 170 (3%) Malassezia furfur, and 138 (2%) Trichosporon sp. Among the dermatophytes, Trichophyton sp. was the most common isolate followed by Epidermophyton floccosum (243) and Microsporum sp. Among the Candida species, C. albicans (549) was also frequently found. Onychomycosis was the most prevalent type of infection, followed by tinea pedis, tinea cruris, tinea corporis, and tinea capitis. In conclusion, our study showed that the most common isolated agents from superficial infections were T. rubrum being Candida sp. the second most prevalent.     

Fecal microbiota transplantation prevents Candida albicans from colonizing the gastrointestinal tract

Gut microbes symbiotically colonize the gastrointestinal (GI) tract, interacting with each other and their host to maintain GI tract homeostasis. Recent reports have shown that gut microbes help protect the gut from colonization by pathogenic microbes. Here, we report that commensal microbes prevent colonization of the GI tract by the pathogenic fungus, Candida albicans. Wild‐type specific pathogen‐free (SPF) mice are resistant to C. albicans colonization of the GI tract. However, administering certain antibiotics to SPF mice enables C. albicans colonization. Quantitative kinetics of commensal bacteria are inversely correlated with the number of C. albicans in the gut. Here, we provide further evidence that transplantation of fecal microbiota is effective in preventing Candida colonization of the GI tract. These data demonstrate the importance of commensal bacteria as a barrier for the GI tract surface and highlight the potential clinical applications of commensal bacteria in preventing pathogenic fungal infections.     

An in vitro study of the photodynamic effect of rose bengal on trichophyton rubrum

Onychomycosis, a fungal infection of the finger or toenails, is predominantly caused by Trichophyton rubrum. Treatment is difficult due to high recurrence rates and problems with treatment compliance. For these reasons, alternative therapies are needed. Here we describe the photoactivation of Rose Bengal (RB) using a green laser (λ = 532 nm) at fluences of 68, 133 and 228 J/cm², and assess its fungicidal activity on T. rubrum spore suspensions. A 140 µM RB solution was able to induce a fungicidal effect on T. rubrum when photosensitized with the fluence of 228 J/cm². RB photosensitization using a green laser provides a potential novel treatment for T. rubrum infections. (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Increase in Resistance to Fluconazole and Itraconazole in Trichophyton rubrum Clinical Isolates by Sequential Passages In Vitro under Drug Pressure

Trichophyton rubrum, an anthropophilic dermatophyte fungus, is the predominant causative agent of superficial skin infections in human population. There are only scanty reports on drug susceptibility profiling of T. rubrum. Neither mechanisms for drug resistance development nor correlation between in vitro drug susceptibility and in vivo response to treatment is known for that species. In this study, changes in the in vitro susceptibilities to fluconazole (FLZ) and itraconazole (ITZ) among thirty T. rubrum clinical strains subjected to sequential passages in the presence or absence of the azoles were investigated. Each strain was passaged 12 times at 4-week intervals as three parallel cultures, maintained on a drug-free medium (1), and a medium containing FLZ (2) or ITZ (3) at subinhibitory concentrations. Susceptibility to FLZ and ITZ of the original strain and its 3 subcultures was determined by microdilution method. The MIC values of the two azoles remained unaltered for all T. rubrum strains tested, after 12 passages on a drug-free medium. Among the strains grown with FLZ, an increase in the MICs of FLZ and ITZ was noted in 17 (56.7 %) and 19 (63.3 %) strains, respectively. Increased MICs of ITZ and FLZ were demonstrated for 24 (80 %) and 20 (66.7 %) strains that were propagated with ITZ. The results indicate the capacity of T. rubrum to develop resistance toward the azoles after prolonged exposure to these drugs. Resistance of T. rubrum to azoles plays an important role in therapy failures and consequently contributes to persistence and chronicity of the infections.     

Pathogenic factors in Candida biofilm‐related infectious diseases

Candida albicans is a commonly found member of the human microflora and is a major human opportunistic fungal pathogen. A perturbation of the microbiome can lead to infectious diseases caused by various micro‐organisms, including C. albicans. Moreover, the interactions between C. albicans and bacteria are considered to play critical roles in human health. The major biological feature of C. albicans, which impacts human health, resides in its ability to form biofilms. In particular, the extracellular matrix (ECM) of Candida biofilm plays a multifaceted role and therefore may be considered as a highly attractive target to combat biofilm‐related infectious diseases. In addition, extracellular DNA (eDNA) also plays a crucial role in Candida biofilm formation and its structural integrity and induces the morphological transition from yeast to the hyphal growth form during C. albicans biofilm development. This review focuses on pathogenic factors such as eDNA in Candida biofilm formation and its ECM production and provides meaningful information for future studies to develop a novel strategy to battle infectious diseases elicited by Candida‐formed biofilm.     

Long-term storage of sexual and asexual Trichogramma brassicae (Hymenoptera: Trichogrammatidae)

The effect of exposure duration to pre-storage (representing fall conditions) and storage (representing winter conditions) temperatures on the emergence rate in sexual and asexual Trichogramma brassicae Bezdenko (Hymenoptera: Trichogrammatidae) was studied under controlled laboratory conditions. Asexual T. brassicae was infected by Wolbachia, an endosymbiont bacterium. We considered 0, 30, 40, 50 and 60 days as exposure duration at 10°C and 0, 30, 60, 90 followed by 180 days as exposure duration at 4°C for both T. brassicae strains. Emergence rate was significantly affected by the presence of Wolbachia, the duration of exposure to 10°C, the duration of storage at 4°C and their interactions, but not by the interaction between strain × storage duration at 4°C. Emergence rate of adults was positively correlated with exposure duration at 10°C, but it gradually decreased as the cold storage duration (4°C) increased in both strains. In conclusion, we are able to store both asexual and sexual strains for longer periods of time at 4°C, but the emergence rate of sexual T. brassicae was greater than asexual in all the treatments. The presence of Wolbachia could have a negative effect on fitness of T. brassicae and reduces its emergence rate after long-term storage.     

Anaerobic Growth of Candida albicans Does Not Support Biofilm Formation Under Similar Conditions Used for Aerobic Biofilm

C. albicans is an opportunistic fungus causing life-threatening systemic infections particularly in immunocompromised individuals. The organism is a commensal in humans and grows either aerobically, e.g., the oral cavity, or anaerobically, e.g., the gut. We studied anaerobic growth of C. albicans in a defined yeast nitrogen base dextrose medium after adaptation and subculturing in an anaerobic chamber. At 37°C in suspension culture, much slower growth was observed anaerobically with a generation time of 248 min compared to 98 min for aerobic growth. Although the organism grew well on solid medium, shaking increased the growth rate in suspension culture at 37°C. Growth was enhanced at acidic pH compared to neutral or alkaline pH. Cells grown anaerobically produced hyphae, but did not produce biofilm on plastic surface or denture acrylic under either static conditions or with mild shaking, conditions that support aerobic biofilm formation.     

Biological fitness of Trichoderma atroviride during long-term storage,after production in different culture conditions

Identification of the production and storage factors that affect conidium germination and bioactivity (fitness) will assist the success of biological control agents. Effects of culturing conditions on conidium fitness of Trichoderma atroviride LU132 were examined in different storage conditions over time. Abiotic factors (temperature, nutrients, water activity and pH) during production were studied. Conidia from the culturing regimes which resulted in greatest and least bioactivity against Rhizoctonia solani in dual culture were selected to assess effects of storage conditions on conidium fitness. Fitness of the test conidia was examined after storage at 30°C and at 0% or 50% relative humidity (RH) over 6 months. Fitness declined over time, and the decline was greater for 50% RH than 0% RH, probably through reduced metabolic activity of conidia during long-term storage. Stored conidia were probably affected by dehydration, temperature and other factors such as oxidation, before and during storage, and also by rehydration after storage. The greatest number of conidia and germination percentage resulted from production at 25°C, but greatest bioactivity resulted from those produced at 30°C. No significant effects on bioactivity were detected between the conidium production treatments C?:?N 5?:?1 and C?:?N 160?:?1, indicating that C?:?N ratio in culture medium is not important for conidium survival of T. atroviride.