Factors influencing the expression in vitro of Candida albicans stress mannoproteins reactive with salivary secretory IgA

We have examined the influence of subinhibitory concentrations of several antifungals, the different glucose and ammonium sulphate concentrations in the culture medium as well as the strain variability on the expression in vitro of stress mannoproteins reactive with salivary sIgA in C. albicans and other Candida spp isolates. Irrespective of the conditions used, no reactivity with salivary sIgA was observed in yeast cells grown at 25 °C. However, when grown at 37 °C, all of the 10 C. albicans strains, but only 9 out 28 non-C.albicans isolates studied showed reactivity with salivary sIgA. Cells grown at 37 °C in medium containing maximum concentrations of glucose and ammonium sulphate expressed the antigens reactive with sIgA during longer periods of time than the cells grown in medium with minimal concentrations of the same compounds. The regulatory role showed by the concentration of glucose and ammonium sulphate on the antigenic expression was subordinated, nevertheless, to the most important factor, the temperature of incubation. Only isolates showing low susceptibility expressed the antigens reactive with sIgA under the influence of subinhibitory concentration of antifungals. However, induced resistance to one of the antifungals tested (5 fluorocytosine) allowed the antigenic expression at elevated subinhibitory concentrations even in previous susceptible strains. In conclusion, in addition to the temperature, factors such as characteristics of the strain, the concentration of glucose and ammonium sulphate in the culture medium and the resistance to antifungals played a role on the expression of C. albicans antigens reactive with sIgA, which could be of clinical relevance in the course of infection.This revised version was published online in October 2005 with corrections to the Cover Date.     

„Room temperature“ incubation for chlamydospore production by Candida albicans

Summary Occasional failure ofCandida albicans to produce chlamydospores on potato-carrot chlamydospore agar could not be attributed to variations in the preparation of the medium including autoclaving and lyophilization. Chlamydospore production was, however, very sensitive to temperature. 104 strains ofC. albicans were grown for 3 days on potato-carrot agar at 16, 20, 25, 30, and 37° C. While at 25° C (the optimal temperature) 93 % of the strains sporulated, a variation of only 5° C either way caused a serious reduction in the performance and only 43 % of the strains sporulated. Sporulation at both extremes of temperature was negligible. A check of temperature variations in the laboratory over a 24 week period during winter months showed that for almost half that period, as expressed in total hours, the temperature remained below 21.1° C (70° F.). Thus room temperature incubation for chlamydospore production inC. albicans may not be sufficient in many cases. Production of chlamydospores on potato-carrot agar was also found to be much superior to that on corn meal agar.     

Phosphoglycerate kinase and fructose bisphosphate aldolase of Candida albicans as new antigens recognized by human salivary IgA

BackgroundCandida albicans is an opportunistic dimorphic fungus commonly present in the human oral cavity that causes infections in immunocompromised patients. The antigen variability, influenced by growth conditions, is a pathogenicity factor.AimsTo determine the effect of nutritional and heat stress on the antigen expression of C. albicans, and to identify major antigens recognized by human salivary secretory immunoglobulin A (sIgA).MethodsUnder various different nutritional conditions, heat shock was induced in C. albicans cells in stationary and exponential growth phases. The expression of protein determinants of C. albicans was assessed by Western blot analysis against human saliva. The antigens were purified and characterized by two-dimensional electrophoresis and identified by protein microsequencing.ResultsFive antigens recognized by salivary IgA were characterized as mannoproteins due to their reactivity with concanavalin A. They did not show reactivity with anti-heat shock protein monoclonal antibodies. Two of them (42 and 36 kDa) were found to be regulated by heat shock and by nutritional stress and they were identified as phosphoglycerate kinase and fructose bisphosphate aldolase, respectively.ConclusionsThese glycolytic enzymes are major antigens of C. albicans, and their differential expression and recognition by the mucosal immune response system could be involved in protection against oral infection.     

Genome-wide expression analysis of yeast response during exposure to 4°C

Adaptation to temperature fluctuation is essential for the survival of all living organisms. Although extensive research has been done on heat and cold shock responses, there have been no reports on global responses to cold shock below 10°C or near-freezing. We examined the genome-wide expression in Saccharomyces cerevisiae, following exposure to 4°C. Hierarchical cluster analysis showed that the gene expression profile following 4°C exposure from 6 to 48 h was different from that at continuous 4°C culture. Under 4°C exposure, the genes involved in trehalose and glycogen synthesis were induced, suggesting that biosynthesis and accumulation of those reserve carbohydrates might be necessary for cold tolerance and energy preservation. The observed increased expression of phospholipids, mannoproteins, and cold shock proteins (e.g., TIP1) is consistent with membrane maintenance and increased permeability of the cell wall at 4°C. The induction of heat shock proteins and glutathione at 4°C may be required for revitalization of enzyme activity, and for detoxification of active oxygen species, respectively. The genes with these functions may provide the ability of cold tolerance and adaptation to yeast cells.     

A method to obtain rapid zoosporogenesis of Pythium insidiosum

Nine strains of Pythium insidiosum the etiologic agent of pythiosis, were inoculated on 2% water agar plus grass blades and then incubated one day at 25°C, 35°C and 37°C. Sporangium and secondary biflagellate-type zoosporas from the parasitized grass blades were noticed in induction medium after one hour of incubation at 35 °C and 37 °C. The number of sporangia and zoospores were lower at 25 °C, than 35 °C and 37 °C. Increasing the days of incubation of the parasitized grass blades resulted in the increase in the time of incubation in the induction medium. Corn meal agar, Schmitthenner medium and Sabouraud dextrose agar were also tested but the sporangium and zoosporas were always observed after five hours of incubation in induction medium.     

Heat shock response during anther culture of broccoli (Brassica oleracea var italica)

Embryo formation from microspores of Brassica oleracea var Italica (Broccoli) and other Brassica species is greatly enhanced by an initial incubation at elevated temperatures (eg 35°C) followed by continued incubation of 25°C. In the present study we observed that a three hour high temperature treatment induced the formation of heat shock proteins in cultured anthers. These were identified in two dimensional gels by silver staining, and labelled heat shock proteins were synthesised in vitro from isolated anther RNA. The appearance of heat shock proteins in anthers followed a similar pattern and displayed similar characteristics to that from leaves. Comparison of the heat shock proteins induced in isolated cultured anthers of known highly embryogenic and less embryogenic plans did not reveal obvious qualitative differences.     

Lytic action of lysozyme on candida albicans

Yeast cells ofCandida albicans in lysozyme glucose solution were incubated in a 37° C water bath for 6 hours, spread on the surface of a Sabouraud's agar plate and incubated at 37° C for 18–24 hours. Scattered small colonies were seen on the agar surface compared with the thick full growth of the control culture incubated without lysozyme. Twenty-one strains of 6 standard Candida species of human isolation other thanCandida albicans; C. stellatoidea, C. tropicalis, C. pseudotropicalis, C. krusei, C. parapsillosis, C. guilliermondii, showed essentially the same results asCandida albicans. A constant quantity of lysozyme caused destruction of Candida cells to an equal degree, regardless of varied concentrations of glucose. Dilution of lysozyme greater than 100 times the original (5 mg/ml) showed the same degree of candicidal activity, however, was dependent on the presence of minute amounts of glucose. The presence of NaCl prevented the lysis of Candida by lysozyme in various solutions. Candida cells with lysozyme in glucose solution was incubated for 6 hours in a 37° C water bath. Microscopic observations revealed drastic changes in cell morphology. Most of the cells were swollen, degenerated and some completely destroyed. The gram-positive characteristics of Candida cells changed to gram-negative. The combined activity of lysozyme with complement and antibody may play an important role in the protection against Candidiasis in vivo.

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Zusammenfassung Candida albicans-Zellen sind in Lysozyme-glukose-Lösung bei 37° C in Wasserbad für 6 Stunden bebrütet worden; sie sind dann an der Oberfläche von Sabouraud's Agarplatten ausgestrichen und bei 37° C für 18–24 Std. bebrütet worden. Zerstreute, kleine Kolonien sind an der Agarfläche erschienen, im Vergleich mit dem dicken, vollen Wachstum der Kontrolkultur, die ohne Lysozyme bebrütet worden ist. Einundzwanzig Stämme von sechs Standard-Candida Arten aus menschlichen Quellen außerC. albicans: d.h.C. stellatoidea, C. tropicalis, C. pseudotropicalis, C. krusei, C. parapsillosis, C. guilliermondii, zeigten im wesentlichen dasselbe Ergebnis wieC. albicans. Eine konstante Quantität von Lysozyme bewirkte die Zerstörung der Candida-Zellen zu gleichem Grade ohne Rücksicht auf die wechselnde Konzentration der Glukose. Eine großere Verdünnung von Lysozyme als die hundertfache des Originals (5mg/ml) zeigte denselben Grad der candicidalen Aktivität, jedoch war sie von der Gegenwart einer kleinsten Menge von Glukose abhängig. Die Gegenwart von NaCl hat die Lyse von Candida durch Lysozyme in verschiedenen Lösungen verhindert. Candida-Zellen waren mit Lysozyme in Glukoselösung für 6 Std. in Wasserbad bei 37° C bebrütet. Mikroskopische Beobachtung hat einen großen Wechsel in der Zellmorphologie enthüllt. Die meisten Zellen waren geschwollen, degeneriert, und manche völlig zerstört. Die grampositive Eigenart der Candida-Zellen wechselte in die gram-negative. Die vereinigte Aktivität von Lysozyme mit Komplement und Antikörper mag eine wichtige Schutzrolle gegen Candidiasis in vivo spielen.

     

Simple rapid identification of Candida albicans with emphasis on the differentiation between Candida albicans and Candida stellatoidea

Summary Subcultures ofC. albicans, made from Sabouraud agar, grown at room temperature for 48 hours, were inoculated into a 10 times saline dilution of Sabouraud liquid medium and left in the incubator for 45–60 minutes at 37° C, transferred to corn meal agar plates and incubated at 37° C for 18–24 hours.Small portions of the surface agar containing the yeasts from these plates were pressed under cover glasses and examined under the oil immersion lens.Under these conditions,C. albicans cultures were observed to produce only yeast-like cells, whereasC. stellatoidea cultures contained predominantly abundant, long, thin mycelia.     

Relative susceptibilities of caffeine-sensitive and caffeine-resistant strains of Candida albicans to inactivation and mutation by ultraviolet radiation

Summary Stable variants having increased resistance to growth inhibition by caffeine were obtained from four different absolute, amino acid auxotrophs of Candida albicans. Differences in growth rates and expression of auxotrophy between the resistant (Caf^R) variants and their sensitive (Caf^S) progenitors suggest that caffeine resistance arises through suppressor mutations which affect the fidelity of messenger RNA translation.Both Caf^S and Caf^R strains of C. albicans are more susceptible to inactivation by ultraviolet radiation (uv) when grown at 37°C rather than 25°C following exposure. Post irradiation growth on caffeine potentiates ultraviolet inactivation of all Caf^S strains at both temperatures. Depending on its origin, a Caf^R strain (i) may show greater, lesser or the same intrinsic susceptibility to uv inactivation as its Caf^S parent at 25°C or at 37°C and (ii) may or may not be refractory to post-irradiation contact with caffeine. Caf^R variants independently isolated from a given auxotroph are alike in inactivational responses whereas those obtained from different auxotrophs are dissimilar. This implies that different suppressor mutations are unique in the way they affect expression of potentially lethal uv damage and that only one kind of suppressor is obtained by selection for caffeine resistance in a particular auxotroph.The histidine requiring Caf^R strain WB-2CR is much more resistant to uv inactivation that its Caf^S parent WB-2. Moreover, post-irradiation survival of WB-2CR is unaffected by caffeine. However, WB-2CR and WB-2 are equally susceptible to uv-induced reversion to prototrophy. In both strains, caffeine does not enhance uv-induced reversion at 25°C or 37°C and exhibits an antimutagenic activity at high uv dosage at 37°C.The findings reinforce previously reported indications that, in C. albicans, (i) caffeine-sensitive excision-repair of uv damaged DNA does not occur and (ii) caffeine potentiates uv cellular inactivation by disturbing post-irradiation synthesis of protein essential for recovery from non-genetic damage.     

Human dermatophytosis caused by Trichophyton equinum

A case of dermatophytosis caused by Trichophyton equinum is reported. A 25-year-old man employed at a breeding center of a horse racing course was infected on the left arm in August, 1981. The lesion had a vesicle or a small pustule accompanied by severe itching. The fungal elements of the scale were identified by microscopic observation. Griseofulvin administration was found to be very effective for treating this infection. In a mycological examination, T. equinum was isolated mainly on cycloheximide-chloramphenicol Sabouraud's dextrose agar and chloramphenicol potato dextrose agar. Equine dermatophytosis was quite prevalent at this race course, so that this area as well as equipment used for the maintenance and care of the horse was very likely to be the source of the patient's infection.     

A comparative study on cell wall antigens and cell surface hydrophobicity in clinical isolates ofCandida albicans

Characterization of common cell surface-bound antigens inCandida albicans strains, particularly those expressed in the walls of mycelial cells might be useful in the diagnosis of systemic candidiasis. Hence, antigenic similarities among wall proteins and mannoproteins fromC. albicans clinical serotype A and B isolates, were studied using polyclonal (mPAbs) and monoclonal (MAb 4C12) antibodies raised against wall antigens from the mycelial form of a commonC. albicans serotype A laboratory strain (ATCC 26555). Zymolyase digestion of walls isolated from cells of the different strains studied grown at 37°C (germination conditions), released, in all cases, numerous protein and mannoprotein components larger than 100 kDa, along with a 33–34 kDa species. The pattern of major antigens exhibiting reactivity towards the mPAbs preparation was basically similar for all the serotype A and B isolates, though minor strain-specific bands were also observed. The immunodeterminant recognized by MAb 4C12 was found to be absent or present in very low amounts inC. albicans isolates other than the ATCC 26555 strain, yet high molecular weight species similar in size (e.g., 260 kDa) to the wall antigen against which MAb 4C12 was raised, were observed, particularly in wall digests from serotype A strains. Cell surface hydrophobicity, an apparently important virulence factor inC. albicans, of the cell population of each serotype B strain was lower than that of the corresponding serotype A counterparts, which is possibly due to the fact that the former strains exhibited a reduced ability to form mycelial filaments under the experimental conditions used.Abbreviations CSH cell surface hydrophobicity - IIF indirect immunofluorescence     

The heat shock response and acquired thermotolerance in three strains of cyanobacteria

The heat shock response of three cyanobacterial strains,Anabaena sp. Strain PCC (paris Culture Collection) 7120,Plectonema boryanum Strain PCC 6306, andSynechococcus sp. Strain PCC 7942, was characterized by polyacrylamide gel electrophoresis.Anabaena produced 33 heat shock proteins,P. boryanum 35 proteins, andSynechoccus 19 proteins. The rapid response to heat shock was consistent for all three strains, although the number of time-dependent proteins varied. All strains developed thermotolerance when first pretreated with a sublethal heat shock and then challenged with a previously lethal temperature. A 30-min 30°C incubation was required between the heat shock and challenge forSynechococcus, but not forAnabaena andP. boryanum. Synechococcus cells required a higher challenge temperature (51° vs. 49°C) than the other two strains to destroy control cells that were not pretreated with a heat shock.     

Transfer of a benomyl resistance marker by heat-inactivated Trichoderma reesei protoplasts

Summary Protoplasts from a benomyl resistant Trichoderma reesei mutant were heat inactivated at 60°C for 8 min and fused with viable protoplasts from an osmosensitive, non-sporulating T. reesei strain. Fusants recovered on 50 g/ml benomyl containing potato dextrose agar plates grew and sporulated well. Cellulolytic enzyme activities produced in liquid culture by selected fusants were higher than those produced by parental strains.     

Heat and cold shock responses in different strains of Thiobacillus ferrooxidans

Different strains of Thiobacillus ferrooxidans were examined for their ability to produce a heat shock and a cold shock response. Strain A1, heat shocked from 20° to 35°C, acquired thermotolerance, as it showed a 1000-fold reduction in cell mortality when exposed to the supermaximum temperature of 42°C, as compared to a non-heat-shocked control. A heat shock from 25° to 35°C yielded similar results, although a higher degree of thermotolerance was achieved for the shorter exposure times. Cultures heat shocked for 5 h showed a five-log reduction in viable counts after 41 h at 42°C, whereas non-heat-shocked cultures showed a similar reduction in viability in 28 h. Conferred thermotolerance was immediate and sustained for the duration of the exposure to 42°C. Heat-shocked cultures were not significantly protected against loss of viability due to freezing (-15°C for 24 h). Strain S2, cold shocked from 25° to 10°C, and strain D6, cold shocked from 25° to 5°C, were not protected against freezing at-15°C. An analysis of proteins extracted from heat-shocked cells of strain A1 showed the presence of at least one newly induced protein and eight hyper-induced proteins. The molecular weights of the heat shock proteins were in the range of 15–80.3 kDa.     

Heat shock induces chromosome loss in the yeast Candida albicans

Summary The heat shock protocol described in this paper causes mitotic instability in log phase Candida albicans cells. Such instability is induced in diploid, aneuploid and tetraploid strains. The strains analysed are multiple heterozygotes which facilitates the detection of mitotic instability as manifested by the formation of homozygotes. Strains previously shows to be carrying cis linked mutant alleles show coincident segregation of the linked alleles. Conversely, strains which carry unlinked mutant alleles display no such coincident segregation. This segregation of complete linkage groups suggests that heat shock is inducing chromosome some loss in C. albicans. The application of this protocol to the genetics of the imperfect fungus C. albicans has produced evidence of at least three chromosomes.     

First Isolation of Cryptococcus magnus from a Cat

A 6-month-old male Japanese domestic cat with otitis externa due to Aspergillus fumigatus was treated with antifungal agents for 25 days and appeared to be cured. Many yeast colonies however developed from the ear canal samples on Sabouraud's dextrose agar at 27 degrees C for 5 days, instead of A. fumigatus. This yeast colony was cream-colored and slim in texture with smooth and highly glossy surface after 5-day incubation on Sabouraud's dextrose agar at 27 degrees C. The isolate was identified as Cryptococcus magnus by mycological analysis and 28S ribosomal analysis.     

The activity of two heat shock loci of Drosophila hydei in tissue culture cells and salivary gland cells as analyzed by in situ hybridization of complementary DNA

Complementary DNA was made to poly A⁺ nuclear or polysomal RNA isolated from heat shock tissue culture cells of Drosophila hydei. A number of loci other than the four major heat shock loci are labelled after in situ hybridization of these cDNA preparations, while solution hybridization indicated that only about 10% of the cDNA was specific for heat shocked cells. Removal of the fraction of cDNA which could react with 25° C RNA and subsequent in situ hybridization of heat shock specific cDNA indicated that locus 4–81 B, a major salivary gland heat shock locus, is also active at 25° C in tissue culture cells, while locus 4–85 B is specifically activated by heat shock in tissue culture cells. This latter locus is not seen to be clearly puffed in salivary glands, but was shown to be active in that tissue both by direct autoradiography of salivary gland chromosomes after 3H-uridine labeling and by hybridization of cDNA to chromosomal RNA.     

Differential effects of growth temperatures on inactivation and mutation of Candida albicans by ultraviolet radiation

Summary Candida albicans exhibits greater susceptibility to inactivation by ultraviolet (uv) radiation if grown before or after irradiation at 37° C rather than 25° C. Caffeine, acriflavin or amino acid analogues potentiate inactivation during postirradiation growth at 37° C but have little effect at 25° C. In contrast to inactivation, mutation induction by uv is unaffected by pre- or postirradiation growth temperatures or by metabolic antagonists. These findings are not explicable in terms of possible effects of growth temperatures on known mechanisms for repair of uv damaged DNA. They are consistent, however, with a previous proposal that a temperature dependent mechanism for dark recovery exists in C. albicans which involves synthesis of protein essential for repair of lethal, non-genetic uv damage.     

Investigation of extracellular phospholipase and proteinase activities of Candida species isolated from individuals denture wearers and genotypic distribution of Candida albicans strains

In order to determine the relationship between the development of denture related stomatitis (DRS) and the production of phospholipase and proteinase by Candida species, 156 Candida isolates isolated from the individuals in the control group and from the individuals different denture wearers were included in this study. According to the results of the study, C. albicans strains were determined to produce high levels of phospholipase and proteinase. It was also determined that the prevalence of phospholipase and proteinase activities in C. albicans strains isolated from individuals with DRS and from the individuals without DRS was not different. In order to determine genotypic variation of 109 C. albicans strains isolated, CA-INT-L and CA-INT-R primers specific to the site of the transposable group I intron of the 25S rRNA gene (rDNA) region were used. As a result, it was considered that, there were several other virulence factors belonging to the microorganism which played a role in the development mechanisms of the infection caused by C. albicans. In addition, according to the results of microbial genotyping, it was determined that there were no C. albicans strains specifically responsible for the development of DRS.