High level of complexity of small nuclear RNAs in fungi and plants.

The complexity of the trimethylguanosine-capped, small nuclear RNA (snRNA) populations in a number of organisms has been examined using immunoprecipitation and two-dimensional gels. From the fungi Aspergillus nidulans and Schizosaccharomyces pombe, over 30 major snRNAs can be resolved. The most abundant of these correspond to the putative analogues of vertebrate U1, U2, U4 and U5, which have been reported to be precipitated by anti-Sm antibodies, but other snRNAs are little less abundant than the major Sm-precipitable species. A similarly high level of complexity of snRNAs is detected in pea plants. In Candida albicans, the snRNAs are somewhat less numerous (about 22 major species) and are substantially less abundant than those of the above fungi, features shared with another budding yeast, Saccharomyces cerevisiae. Ten species of human snRNA have been reported; on two-dimensional gels, a number of additional snRNAs can be resolved from human cells. Each fungus, as well as pea plants, contains snRNAs substantially larger than any reported from vertebrates or detected in the human RNA used here. It appears that many eukaryotes contain substantially more species of snRNA than was previously believed.

Localization of chitin in the cell wall of Candida albicans by means of wheat germ agglutinin. Fluorescence and ultrastructural studies.

Cytochemical localization of wheat germ agglutinin binding sites in the cell wall of Candida albicans was investigated with fluorescence and electron microscopy. Various analytical techniques were employed in order to obtain a good penetration of the cytochemical markers, glycosylated horseradish peroxidase or glycosylated ferritin. In blastospores sectioned by cryostatic methods, a weak and continuous labelling of the blastospore periphery was observed with peroxidase, whereas bud scars and inner cell wall areas were labelled with ferritin. Following enzymatic treatment with pronase whose efficiency was followed by the periodic acid-thiocarbohydrazide -- Silver proteinate technique, the inner cell wall layers of bud are strongly stained with both fluorescein and the reactions products of peroxidase. After pronase-chitinase treatment, fluorescence was observed only in the mother cell wall. Finally, ultrathin glycol methacrylate sections showed a labelling both in inner and outer layers. All these results suggest that chitin was essentially distributed in the inner wall layers near the plasmalemma and in a smaller amount in outer wall layers. On the basis of the present findings, a hypothesis of wall assembly is proposed.

Dynamic changes of the cell wall surface of Candida albicans associated with germination and adherence.

The distribution of mannoproteins at the cell wall surface of Candida albicans was analyzed during the process of germination in conditions favoring adherence of germ tubes to a plastic matrix. Three cytochemical methods allowing the detection of concanavalin A binding sites, anionic sites and the enzyme acid phosphatase, respectively were used. All three methods gave similar results, indicating a spatial and temporal reorganization of some cell wall mannoproteins: a strong labeling was observed on blastoconidia; in contrast, as soon as the emergence of germ tubes took place, these reactions decreased dramatically at the surface of mother cells, whereas the germ tube surface was strongly stained. Some new components with multiple biological activities were detected at the germ-tube surface. Indeed, among mannoproteins responsible for an enhanced adhesion to plastic surfaces, two components with molecular weights of 68 and 60 to 62 kDa were shown to interact with laminin, fibrinogen, and C3d. This study therefore indicates that germination, and then adherence of germ tubes, imply a degradation of surface mannoproteins, and a simultaneous presentation of new molecules which can interact with their nonbiological materials or host proteins.

Purification of a mannan from Candida albicans which activates serum complement.

Candida species activate complement by the alternative pathway, induce leukocyte migration and, when applied epicutaneously, cause epidermal microabscesses of neutrophils in man and experimental animals. Complement activation by C. albicans appears to be a property of the cell wall. To biochemically identify the complement-activating constituent(s) of C. albicans, an ethyleneglycol extract of growth phase blastospores was prepared. Acid hydrolysis and neutral sugar analysis revealed mannose (82%), fucose (7%), and glucose (11%). The soluble, mannose-rich cell wall polysaccharide of C. albicans activates serum complement via the alternative pathway, induces neutrophil chemotaxis and is antigenically reactive with antisera to C. albicans. This constituent exhibits in vitro endotoxin-like activity as measured by Limulus lysate gelation, but is nonpyrogenic in rabbits. The extracts produced precipitin lines in double immunodiffusion studies against serum from patients with invasive candidiasis and rabbit antisera to mycelial and blastospore preparations of C. albicans, but not against normal serum. Thus, pathogenic properties and reactive phenomenon of C. albicans are in part attributable to a cell wall polysaccharide, mannan.

Characterization of an estrogen-binding protein in the yeast Candida albicans.

An estrogen-binding protein (EBP) has been identified and characterized in the cytosol of the pathogenic yeast Candida albicans. Binding of [3H]estradiol was found to be optimal at pH 7.4 in the presence of 0.3 M KCl and was linearly related to protein concentration. Binding was very rapid, reaching maximal levels in about 30 min, and was reversible with a dissociation rate constant of 13.2 +/- 1.7 x 10(-4) sec-1. EBP binding was destroyed by treatment with proteolytic enzymes and by high temperatures. Scatchard analysis of the [3H]estradiol equilibrium binding data of C. albicans (strain stn-1) yielded an apparent dissociation constant of 12.3 +/- 2.1 nM and a maximal binding capacity of 753 +/- 145 fmol/mg protein. Binding competition experiments showed very high specificity and stereoselectivity of EBP, demonstrating the following order of potency in displacing [3H]estradiol: 17 beta-estradiol greater than estrone greater than estriol greater than 17 alpha-estradiol. Negligible competitive potency was found for other mammalian steroid hormones, diethylstilbestrol, tamoxifen, or fungal hormones. The abundance of EBP was 4- to 10-fold higher during the early logarithmic growth phase of yeast cells than during the stationary phase. The molecular size of EBP, measured by Sephacryl S-200 gel exclusion chromatography, yielded a Stokes radius of approximately 29 A. Sucrose density gradient sedimentation showed a sedimentation coefficient (S2020,W) of 4, with no ionic dependent aggregation of the [3H]estradiol-EBP complex. The apparent mol wt of the EBP is approximately 46,000, with an axial ratio of 1, indicating the symmetrical shape of the molecule. In summary, in addition to the previously described corticosterone-binding protein, a separate high affinity, stereospecific, estrogen-selective binder has been demonstrated in the cytosol of C. albicans.

A new lectin-gold complex for ultrastructural localization of galacturonic acids.

We report the development of a cytochemical affinity technique for detection of galacturonic acids at the ultrastructural level. The highly purified gonad lectin from Aplysia depilans (AGL) was tagged with colloidal gold particles and used for labeling carbohydrates in resin-embedded sections of various plant and fungal tissues. Patterns of AGL binding sites were compared to those obtained with a D-galactose-specific lectin, Ricinus communis agglutinin I. Differences in labeling patterns were noted, indicating that the lectins exhibited differential carbohydrate binding. In addition, the considerable loss of labeling over isolated wheat coleoptile walls treated for removal of pectin, after incubation with the AGL-gold complex, strongly suggested an affinity of AGL for pectic substances. A series of cytochemical controls, including sugar inhibition tests, has proven the specificity of the technique and the high affinity of AGL towards galacturonic acids. The potential value of this new lectin for ultrastructural studies on cell wall pectic substances in plant biology and pathology is demonstrated.

Effects of terconazole and other azole antifungal agents on the sterol and carbohydrate composition of Candida albicans.

The effects of terconazole, a triazole antifungal, on the sterol and carbohydrate composition of Candida albicans was compared with that of three imidazoles: clotrimazole, miconazole, and butoconazole. Exposure of C. albicans to terconazole resulted in a profound depletion of ergosterol with a corresponding increase in lanosterol content versus control cells. Carbohydrate analysis revealed a significant (245%) increase in chitin and a minimal effect on glucan and mannan in terconazole-treated cells. Similar effects on sterol and carbohydrate composition were observed with clotrimazole and miconazole. Butoconazole had a similar effect on sterol composition but had no effect on carbohydrate composition. The decreased ergosterol and increased lanosterol content is consistent with 14 alpha-demethylase inhibition by terconazole and the other azoles. The increase in cell wall chitin is most likely due to deregulation of chitin synthesis secondary to ergosterol depletion in the cell membrane. Because both chitin and ergosterol are critical components of the fungal cell, perturbation of the production and localization of these components by terconazole is likely to contribute to the selective toxicity of this compound for C. albicans and other fungi.

Candida albicans and three other Candida species contain an elongation factor structurally and functionally analogous to elongation factor 3.

A cell-free poly(U)-dependent translation elongation system from Candida albicans is ATP-dependent due to the presence of an elongation factor 3 (EF3)-like activity. Saccharomyces cerevisiae ribosomes added to a C. albicans postribosomal supernatant (PRS) supported poly(U)-dependent elongation, suggesting that the C. albicans lysate contained a soluble translation factor functionally analogous to the S. cerevisiae translation factor EF-3. The presence of EF-3 in C. albicans was confirmed by Western blotting using an antibody raised against S. cerevisiae EF-3. This antibody was also used to screen a selection of Candida species, all of which possessed EF-3 with molecular mass in the range of 110-130 kDa.

Cerebroside of the dimorphic human pathogen, Candida albicans.

Structural studies on the cerebroside isolated from the yeast form of a dimorphic pathogen, Candida albicans were carried out using fast atom bombardment mass spectrometry (FAB/MS), proton magnetic resonance spectrometry, gas chromatography-mass spectrometry and usual chemical methods. The component sugar was only glucose attached to ceramide in a beta-configuration. The major fatty acid was 2-hydroxystearic acid (62%). The predominant long chain base was identified as 9-methyl-C18-sphinga-4,8-dienine which is widely distributed in fungi and reported to be essential to the fruit-inducing activity of fungi. Therefore, the structure of the main molecular species of the cerebroside was determined to be N-2-hydroxystearoyl-1-O-beta-glucosyl-9-methyl-C18-sphinga-4 ,8-dienine. Cerebroside prepared from the mycelial form of C. albicans has the same structure.

Structural analysis of phospho-D-mannan-protein complexes isolated from yeast and mold form cells of Candida albicans NIH A-207 serotype A strain.

The immunochemical properties between phospho-D-mannan-protein complexes of yeast (Y) and mycelial (M) forms of Candida albicans NIH A-207 (serotype A) strain were compared. Hydrolysis of the Y-form complex gave a mixture of beta-(1----2)-linked D-mannooligosaccharides consisting mainly of tri- and tetra-ose, whereas the M-form complex gave preponderantly D-mannose. The antiserum against Y-form cells exhibited a lower reactivity with the M-form than with the Y-form complex, whereas the antiserum to M-form cells could not distinguish significantly between both complexes. Moreover, these acid-modified complexes showed lower antibody-precipitating effect than each corresponding intact complex against antisera of Y- and M-form cells. Digestion of the acid-modified Y- and M-form complexes with the Arthrobacter GJM-1 strain alpha-D-mannosidase yielded 35- and 40-% degradation products, respectively. Acetolysis of each modified complex under mild conditions gave the same D-mannohexaose, beta-D-Manp-(1----2)-beta-D-Manp-(1----2)-alpha-D-Manp -(1----2)-alpha-D-Manp- (1----2)-alpha-D-Manp-(1----2)-D-Man. Because the complexes of Y- and M-form cells of C. albicans NIH B-792 (serotype B) strain did not give any hexaose fraction containing beta-(1----2) linkages, the presence of this hexaose can be regarded as one of the dominant characteristics of the serotype-A specificity of C. albicans spp.

Structural studies of mannans from the cell walls of the pathogenic yeasts Candida albicans serotypes A and B and Candida parapsilosis.

A comparative study of three cell-wall mannans, of Candida albicans serotypes A and B and Candida parapsilosis, by means of methylation analysis supports a model of yeast mannans as having an alpha-(1----6)-linked backbone with some units (depending on the origin of the mannan) being substituted at O-2 with oligosaccharides joined by alpha-(1---2) and, to a lesser extent, by alpha-(1----3) glycosidic bonds. Branching points in the side chains of Candida albicans mannans were found in substantial proportions for the first time, and the corresponding branched hexasaccharides were isolated by means of acetolysis and subsequent gel filtration. 13C-N.m.r. spectroscopy of the mannans, as well as a 1H-n.m.r. spectroscopic study of the oligosaccharides obtained on acetolysis of the mannans, led to results that agreed with those of methylation analysis.

Cell wall of pathogenic yeasts and implications for antimycotic therapy.

Yeast cell wall is a complex, multilayered structure where amorphous, granular and fibrillar components interact with each other to confer both the specific cell shape and osmotic protection against lysis. Thus it is widely recognized that as is the case with bacteria, yeast cell wall is a major potential target for selective chemotherapeutic drugs. Despite intensive research, very few such drugs have been discovered and none has found substantial application in human diseases to date. Among the different cell wall components, beta-glucan and chitin are the fibrillar materials playing a fundamental role in the overall rigidity and resistance of the wall. Inhibition of the metabolism of these polymers, therefore, should promptly lead to lysis. This indeed occurs and aculeacin, echinocandin and polyoxins are examples of agents producing such an action. Particular attention should be focused on chitin synthesis. Although quantitatively a minor cell wall component, chitin is important in the mechanism of dimorphic transition, especially in Candida albicans, a major human opportunistic pathogen. This transition is associated with increased invasiveness and general virulence of the fungus. Yeast cell wall may also limit the effect of antifungals which owe their action to disturbance of the cytoplasmic membrane or of cell metabolism. Indeed, the cell wall may hinder access to the cell interior both under growing conditions and, particularly, during cell ageing in the stationary phase, when important structural changes occur in the cell wall due to unbalanced wall growth (phenotypic drug resistance).

[Protein and antigenic spectrum of different species of yeasts of the genus Candida]. / Belkovyi i antigennyi spektry razlichnykh vidov drozhzhei roda Candida

The methods of electrophoresis in polyacrylamide gel, immunoelectrophoresis and immunoprecipitation were applied to the study of the protein and antigenic spectra of different species of Candida yeasts. It was revealed that for the majority of the yeast species the prevalence of proteins of definite fractions was characteristic. C. albincans displayed a marked (in comparison with the nonpathogenic species) content of proteins of proteins of group b. The most pronounced antigenic properties in C. albicans and C. tropicalis were possessed by the proteins of the basic character. C. albicans and C. tropicalis yeasts were characterized by similar antigenic spectra, whereas the C. crusei species showed the least affinity with the C. albicans.