Evidence for the presence of pir-like proteins in Candida albicans.

Pir proteins are unique proteins with internal repeat sequences that are reported to be present in the cell wall of Saccharomyces cerevisiae. They are covalently attached to the cell wall and can be released by mild alkali treatment. In this study the biotinylated cell wall preparations from Candida albicans and S. cerevisiae were extracted by alkali and beta-1,3 glucanase and analyzed in parallel. Among the four bands detected by streptavidin, two proteins were recognized by the antibody to the S. cerevisiae Pir protein Hsp150. The antibody also detected a high molecular mass protein secreted in the growth medium of C. albicans. Using S. cerevisiae HSP150/PIR2 gene as a probe, Southern and Northern hybridizations were performed with DNA and RNA of C. albicans. Hybridization with DNA digested with different restriction enzymes showed more than one hybridized fragment. An increased level of mRNA was found in heat shocked cells (37 degrees C for 45 min compared to 25 degrees C). Hybridization of ScHSP150 gene to mRNAs from cells grown in different media was also determined. Two transcripts of size approximately 3.5 kb and 2.0 kb were detected in mRNAs from cells grown in defined medium with glucose as carbon source or in the same medium supplemented with hemoglobin. The lower transcript of size 2.0 kb was absent in cells grown in medium with galactose as carbon source. A single band was also observed when cells were grown in rich medium. Together these results demonstrated the existence of beta1,3 glucan linked proteins in C. albicans, which are related to Pir family proteins of S. cerevisiae.

Cell surface proteins of Candida albicans: preparation of extracts and improved detection of proteins.

We have reexamined the detection of the components in a beta-mercaptoethanol and ammonium carbonate buffer extract of surface proteins of Candida albicans and the effects of postextraction manipulation of the extract on recovery of extract components. Following sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), preferential staining of some moieties was observed when bands detected by a commercial silver staining method or a Coomassie Brilliant Blue (CBB) staining method were compared. Additional protein bands that were either not detected or poorly detected by a single method alone were readily observed by a combined silver-CBB staining method. This method also detected alterations in the profile of extracted proteins from organisms grown in the presence of galactose or hemoglobin rather than glucose. Two-dimensional electrophoresis (2-DE) gel analysis by double stain showed better detection of several acidic and basic protein spots. Less than 10% of the extract as determined by a dye-binding assay was lost following either or both lyophilization and dialysis. These manipulations of the extract did not change the protein profile following SDS-PAGE as determined by the combined staining or Western blot analysis of a 70 kDa protein. These observations suggest that soluble cell wall proteins are not unusually sensitive to procedures routinely used in protein purification. In addition, these studies suggest that a modified staining method that combines both silver stain and CBB stain provides improved detection of cell wall proteins compared to either method alone.

Immunodetection of CD45 epitopes on the surface of Candida albicans cells in culture and infected human tissues.

Candida albicans is a leading cause of disseminated fungal infection in immunocompromised patients. Candida-host cell interactions are mediated at the cell surface. Since blood-group I epitopes have been detected on the surface of C albicans cells, we investigated whether CD45, the molecule that carries the I antigen on human lymphocytes, is present on the C albicans cell surface, in culture and in human tissue specimens of human candidiasis. By using monoclonal antibodies to CD45, CD45RO, and CD45RA, we found a strong immunoreactivity at the cell surface of blastoconidia bearing germ tubes but weak or no immunostaining of the germ tubes themselves. In human tissues, immunostaining of C albicans yeast cells was detected, whereas pseudohyphae were mostly negative. CD45 epitopes on the surface of C albicans might have a role in tissue invasion and dissemination of the fungus. On the other hand, its detection may disturb quantitative non-morphology-based determinations of lymphoid cell populations in infected tissues.

Variations in mRNA transcript levels of cell wall-associated genes of Saccharomyces cerevisiae following spheroplasting.

mRNA transcript levels of 38 genes from Saccharomyces cerevisiae were investigated during attempted spheroplast regeneration. Many of the genes selected are involved in cell wall biosynthesis. Spheroplasts did not regenerate into osmotically competent cells during the experiment. However, at a mRNA level, the quantities of transcripts were altered between the experimental and control populations. KRE11, EGT2 and MSS10 had their transcript levels increased by more than 10-fold during attempted spheroplast regeneration. A further six genes, FLO1, TIR1, SED1, HKR1, YGR189 and MUC1, showed transcript level increases of at least 5-fold. Five genes showed a change in transcript levels from an undetectable level to a detectable level: SKT5, KRE1, KRE5, SEC53 and DHS1. PMT2 showed a rapid decrease in mRNA levels followed by an increase to the basal level. Thus, cell stress genes, biosynthetic genes and some glycosylphosphatidylinositol-anchored cell wall proteins have their transcript levels increased in regenerating spheroplasts, but their transcription was not sufficient to initiate the replacement of the cell wall in liquid medium.

Interactions between Candida albicans and the human extracellular matrix component tenascin-C.

Tenascins are large multimeric proteins that contain repeated structural motifs that include epidermal growth factor (EGF)-like repeats, fibronectin type III repeats and a globular fibrinogen-like domain, and are involved in tissue and organ morphogenesis, as well as in adhesion and migration of cells. C. albicans germ-tubes, but not blastospores, were able to bind to soluble human tenascin-C as revealed by an indirect immunofluorescence assay. However, materials present in cell wall extracts from both morphologies attached to tenascin-C immobilized in wells of a microtiter plate. The binding specificity was demonstrated by the inhibitory effect of antibodies against C. albicans cell wall components and an anti-tenascin antibody, but not anti-laminin antibody. Fibronectin, but not fibrinogen, inhibited binding, thus indicating a role of the fibronectin type III repeats in the interaction between the fungus and tenascin-C. Binding of C. albicans cell wall materials to tenascin was RGD- and divalent cation-independent.

Enolase is present in the cell wall of Saccharomyces cerevisiae.

Non-covalently attached or soluble cell wall proteins of Saccharomyces cerevisiae were extracted using a high pH/2-mercaptoethanol procedure and were separated for peptide sequencing using 2D-PAGE. A partial N-terminal sequence of a major protein spot was obtained and showed high identity with enolase gene products. Western blotting with an anti-enolase antibody confirmed that enolase was present in the cell wall extract. Biotinylation of cells prior to protein extraction with a membrane impermeable biotinylating agent confirmed that the detection was not owing to cell lysis during extraction. Transmission immunoelectron microscopy showed enolase to be present in the cell wall. Enolase contains no known secretion signal that would localize it to the cell wall. Thus S. cerevisiae must have further mechanisms for targeting proteins to the cell wall.

Oral colonization by Candida albicans.

Candida albicans is a commensal yeast normally present in small numbers in the oral flora of a large proportion of humans. Colonization of the oral cavity by C. albicans involves the acquisition and maintenance of a stable yeast population. Micro-organisms are continually being removed from the oral cavity by host clearance mechanisms, and so, in order to survive and inhabit this eco-system, C. albicans cells have to adhere and replicate. The oral cavity presents many niches for C. albicans colonization, and the yeast is able to adhere to a plethora of ligands. These include epithelial and bacterial cell-surface molecules, extracellular matrix proteins, and dental acrylic. In addition, saliva molecules, including basic proline-rich proteins, adsorbed to many oral surfaces promote C. albicans adherence. Several adhesins present in the C. albicans cell wall have now been partially characterized. Adherence involves lectin, protein-protein, and hydrophobic interactions. As C. albicans cells evade host defenses and colonize new environments by penetrating tissues, they are exposed to new adherence receptors and respond by expressing alternative adhesins. The relatively small number of commensal Candida cells in the oral flora raises the possibility that strategies can be devised to prevent oral colonization and infection. However, the variety of oral niches and the complex adherence mechanisms of the yeast mean that such a goal will remain elusive until more is known about the contribution of each mechanism to colonization.

Evidence for the presence of complex carbohydrates in Candida albicans cell wall glycoproteins.

In order to test the hypothesis that cell wall glycoproteins of Candida albicans contained non-mannan oligosaccharides, the sugar composition of cell wall extracts and fractions of cell wall extracts was examined by means of fluorophore-assisted carbohydrate electrophoresis (FACE). In addition to the expected mannose, glucose, and N-acetyl-glucosamine, this analysis showed the presence of galactose, N-acetyl-galactosamine, fucose, and sialic acid and two unknown sugars. These sugars are also associated with complex oligosaccharides of mammalian glycoproteins. Presence of fucosylated cell wall components was further demonstrated by lectin-blotting analysis of cell wall extracts. Besides their structural role, complex carbohydrate structures on the surface of C. albicans may represent additional motifs through which interactions of this fungus with host cells and tissues could be established.

Cell wall and secreted proteins of Candida albicans: identification, function, and expression.

The cell wall is essential to nearly every aspect of the biology and pathogenicity of Candida albicans. Although it was initially considered an almost inert cellular structure that protected the protoplast against osmotic offense, more recent studies have demonstrated that it is a dynamic organelle. The major components of the cell wall are glucan and chitin, which are associated with structural rigidity, and mannoproteins. The protein component, including both mannoprotein and nonmannoproteins, comprises some 40 or more moieties. Wall proteins may differ in their expression, secretion, or topological location within the wall structure. Proteins may be modified by glycosylation (primarily addition of mannose residues), phosphorylation, and ubiquitination. Among the secreted enzymes are those that are postulated to have substrates within the cell wall and those that find substrates in the extracellular environment. Cell wall proteins have been implicated in adhesion to host tissues and ligands. Fibrinogen, complement fragments, and several extracellular matrix components are among the host proteins bound by cell wall proteins. Proteins related to the hsp70 and hsp90 families of conserved stress proteins and some glycolytic enzyme proteins are also found in the cell wall, apparently as bona fide components. In addition, the expression of some proteins is associated with the morphological growth form of the fungus and may play a role in morphogenesis. Finally, surface mannoproteins are strong immunogens that trigger and modulate the host immune response during candidiasis.

Serologic response to cell wall mannoproteins and proteins of Candida albicans.

The cell wall of Candida albicans not only is the structure in which many biological functions essential for the fungal cells reside but also is a significant source of candidal antigens. The major cell wall components that elicit a response from the host immune system are proteins and glycoproteins, the latter being predominantly mannoproteins. Both the carbohydrate and protein moieties are able to trigger immune responses. Although cell-mediated immunity is often considered to be the most important line of defense against candidiasis, cell wall protein and glycoprotein components also elicit a potent humoral response from the host that may include some protective antibodies. Proteins and glycoproteins exposed at the most external layers of the wall structure are involved in several types of interactions of fungal cells with the exocellular environment. Thus, coating of fungal cells with host antibodies has the potential to influence profoundly the host-parasite interaction by affecting antibody-mediated functions such as opsonin-enhanced phagocytosis and blocking the binding activity of fungal adhesins for host ligands. In this review, the various members of the protein and glycoprotein fraction of the C. albicans cell wall that elicit an antibody response in vivo are examined. Although a number of proteins have been shown to stimulate an antibody response, for some of these species the response is not universal. On the other hand, some of the studies demonstrate that certain cell wall antigens and anti-cell wall antibodies may be the basis for developing specific and sensitive serologic tests for the diagnosis of candidasis, particularly the disseminated form. In addition, recent studies have focused on the potential for antibodies to cell wall protein determinants to protect the host against infection. Hence, a better understanding of the humoral response to cell wall antigens of C. albicans may provide the basis for the development of (i) effective procedures for the serodiagnosis of disseminated candidiasis and (ii) novel prophylactic (vaccination) and therapeutic strategies for the management of this type of infection.

Ubiquitin-like epitopes associated with Candida albicans cell surface receptors.

We have recently reported the cloning of a Candida albicans polyubiquitin gene and the presence of ubiquitin in the cell wall of this fungus. The polyubiquitin cDNA clone was isolated because of its reactivity with antibodies generated against the candidal 37-kDa laminin-binding protein. In the present study, we have further investigated the relationship between ubiquitin and cell wall components displaying receptor-like activities, including the 37-kDa laminin receptor, the 58-kDa fibrinogen-binding mannoprotein, and the candidal C3d receptor. Two-dimensional electrophoretic analysis and immunoblot experiments with antibodies against ubiquitin and the individually purified receptor-like molecules confirmed that these cell surface components are ubiquitinated. In an enzyme-linked immunosorbent assay, polyclonal antisera to each receptor reacted with ubiquitin, thus demonstrating that the purified receptor preparations used as immunogens contained ubiquitin-like epitopes. It is proposed that ubiquitin may play a role in modulating the activity of these receptors and in the interaction of C. albicans cells with host structures.

Cloning and characterization of a cDNA coding for Candida albicans polyubiquitin.

Immunoscreening of a Candida albicans cDNA library in the expression vector lambda gt11 with rabbit polyclonal antibodies against the 37 kDa cell surface laminin receptor of C albicans resulted in the isolation of a cDNA clone of 0.9 kb. Sequencing of this clone demonstrated a full length open reading frame encoding the polyubiquitin, which contains three tandem copies, head-to-tail spacerless repeats, of the 228 nucleotides coding for the 76 amino acids of the ubiquitin protein, which is identical to that of Saccharomyces cerevisiae. The third copy possesses an extra C-terminal amino acid which is distinct to that found in S. cerevisiae. Northern blot analysis revealed a single mRNA population of about 1 kb present in similar amounts in both yeast and mycelial cells. This indicates that the C. albicans polyubiquitin gene (UBI1) encodes a polyubiquitin precursor protein containing three ubiquitin repeats. Immunofluorescence and Western immunoblotting experiments with polyclonal antibodies against mammalian ubiquitin suggest the presence of ubiquitinated protein moieties in the wall of C. albicans cells.

Expression of the fibrinogen binding mannoprotein and the laminin receptor of Candida albicans in vitro and in infected tissues.

We have previously reported a 37 kDa laminin-binding protein (p37) and a 58 kDa fibrinogen-binding mannoprotein (mp58) on the surface of Candida albicans. A few yeast cells expressed both functional receptors at the surface while germ tubes expressed a functional mp58 fibrinogen but not a functional p37 laminin receptor. These receptors were heterogeneously dispersed at the surface as shown by binding of rabbit antiserum to mp58 (PAb anti-mp58) and antiserum to the human high affinity laminin receptor. In this report we have used a dual fluorescence technique to determine if the two receptors colocalize, perhaps as part of a receptor complex. Fibrinogen was used as a probe for mp58 and polyclonal antiserum generated to the p37 (PAb anti-p37) was used as a probe for the 37 kDa laminin-binding protein. Both receptors were heterogeneously distributed, but the receptors were not colocalized as the areas of concentration of each receptor were different. Immunohistochemical analysis of tissue sections from patients with disseminated and superficial candidiasis with PAb anti-p37 and PAb anti-mp58 revealed that both receptors were also expressed in infected tissues. The patterns of morphological expression were similar to the in vitro patterns detected by immunofluorescence.

Members of the Hsp70 family of proteins in the cell wall of Saccharomyces cerevisiae.

Western blot (immunoblot) analysis of cell wall and cytosolic extracts obtained from parental and ssa1 and ssa2 single- and double-mutant strains of Saccharomyces cerevisiae showed that the heat shock protein 70 (Hsp70) products of these genes, previously thought to be restricted to the cell interior, are also present in the cell wall. A cell wall location was further confirmed by indirect immunofluorescence with intact cells and biotinylation of extracellular Hsp70. Hsp70s have been implicated in translocation across the membrane and as molecular chaperones, and changes in the profile of cell wall proteins suggested that these proteins may have a similar role in the cell wall.

Evidence for presence in the cell wall of Candida albicans of a protein related to the hsp70 family.

We have previously reported the isolation of several clones from a cDNA expression library from Candida albicans, one of which was associated with a constitutively expressed 70-kDa protein. The moiety was present in the beta-mercaptoethanol extracts of cell walls from both blastoconidia and germ tubes. The surface expression of this moiety was revealed by an indirect immunofluorescence assay using affinity-purified antibody to the fusion protein produced by the clone. The 0.68-kb cDNA insert was sequenced. A database search revealed extensive homology with the 70-kDa family of stress or heat shock proteins (hsps). The 77% homology with another C. albicans HSP70 sequence suggested that this fragment represented a second member of the HSP70 family in this organism. Homology ranging from 65 to 76% was observed with members of four subfamilies (SSA, SSB, SSC, and SSD) of the Saccharomyces cerevisiae HSP70 gene family. The nucleic acid sequence and the deduced amino acid sequence of the open reading frame showed greatest homology with SSA1 and SSA2 sequences, and the gene corresponding to the cDNA clone was designated C. albicans SSA2. The relationship with the SSA family was supported by reactivity of the 70-kDa component with antibody recognizing the Ssa proteins of S. cerevisiae. The presence of an hsp70 in the cell wall was confirmed by two additional methods. Cell wall proteins were biotinylated with a non-membrane-permeable derivative to distinguish extracellular from cytosolic proteins. Biotinylated hsp70 was detected by Western blotting (immunoblotting) among the biotinylated components affinity purified by chromatography on streptavidin, thereby establishing its presence in the cell wall. Immunoelectron microscopy showed that the 70-kDa component was present at the cell surface as well as the outer surface of the plasma membrane and extended through the cell wall, occasionally appearing to reach the cell surface through channels. Northern (RNA) blot analysis showed that the gene was expressed in yeast cells growing in yeast extract-peptone medium at both 25 and 37 degrees C and in Lee medium at 25 degrees C and during formation of germ tubes in Lee medium 37 degrees C. No obvious increase in the expression level was detected after the temperature shift. Members of the hsp70 family have been reported to be immunoreactive. The fusion protein produced by the cDNA clone was recognized by serum from healthy individuals and patients with candidiasis. Since members of the hsp70 family of eucaryotic proteins are associated with chaperone and translocation functions, in addition to being immunogenic, this protein may play a role in the assembly and function of other cell wall proteins.

Dynamic expression of cell wall proteins of Candida albicans revealed by probes from cDNA clones.

Five cDNA clones were selected from the positive clones detected by screening a germ tube expression library constructed in lambda gt11 with rabbit antisera raised against cell wall extracts of Candida albicans. The selected clones were amplified and used to obtain affinity purified antibodies by eluting from the expressed proteins that had been previously transferred onto nitrocellulose discs. The antibodies obtained were used as probes in immunoblots of the cell wall extracts separated by denaturing polyacrylamide electrophoresis. A single protein band was detected for each clone. Detection of products of the cloned sequences varied according to the extraction procedure and/or cell morphology. These products included bands exhibiting apparent molecular weights of 40, 58, 68 and 70 kDa present in beta-mercaptoethanol (beta ME) extracts from both yeast and germ tubes, and a 30 kDa beta ME extracted protein specific for germ tubes. The expression of these products at the cell surface was confirmed by indirect immunofluorescence. Expression of the mRNAs of the different cDNA clones varied according to growth- and morphology-related factors and showed no direct correlation between expression and presence in the cell wall. These observations suggest that complex mechanisms are involved in the regulation and expression of cell surface components of C. albicans.

Complex interaction between different proteinaceous components within the cell-wall structure of Candida albicans.

We have previously described a monoclonal antibody, MAb DC3:H10, which recognized an epitope preferentially expressed on the surface of Candida albicans germ tubes. In the present study we examined the MAb-reactive material further. Immunoblot analysis of the material purified partially by Sephadex G-200 and DEAE-Sephacel chromatography reacted with antibodies to the C. albicans C3d receptor (CR2). In an ELISA, MAb DC3:H10 captured antigen that was recognized by both anti-CR2 and anti-mp58 fibrinogen binding mannoprotein polyclonal antibodies. The MAb DC3:H10 failed to compete with either of these antisera in an ELISA. Indirect immunofluorescence (IIF) analysis showed differences in surface distribution for the MAb DC3:H10, the CR2, and the mp 58 epitopes. Dual labeling IIF experiments showed MAb DC3:H10 binding to be unaffected by binding of fibrinogen or anti-mp58 antibody. However, the binding patterns of MAb DC3:H10 were modified in the presence of anti-CR2 antibody, suggesting a complex interaction between these cell wall components.

Adhesion of Candida albicans to brain tissue of Macaca mulata in an ex vivo assay.

An ex vivo adhesion assay was used to examine adhesion of Candida albicans yeast cells to brain tissue of the primate Macaca mulata. Tissues from frontal lobes and striatum (caudate, putamen, and portions of the globus pallidus) were used in the assay. Yeast cells adhered to gray matter at about six times the level of adhesion to white matter. The fungus was able to bind to different cell types within the cortex, basal ganglia, and white matter. Binding to neurons, small neurons or glia, endothelial cells, and neuropil was observed.

Comparative study of the C3d receptor and 58-kilodalton fibrinogen-binding mannoproteins of Candida albicans.

Using polyclonal antibodies (PAbs) raised against the Candida albicans C3d receptor (CR2; PAb anti-CR2) and the 58-kDa fibrinogen-binding mannoprotein (mp58; PAb anti-mp58) as well as ligand interactions, we have studied the relationship between these two receptors. In an indirect immunofluorescence assay with germ tubes, greater intensity was observed on the mother blastoconidium when PAb anti-CR2 was used, whereas greater intensity was localized to the hyphal extension when PAb anti-mp58 or binding of soluble fibrinogen was used. No competition or change in the fluorescence pattern was observed in dual-labeling experiments with PAb anti-CR2 and either fibrinogen or PAb anti-mp58. Binding competition also was not observed in an enzyme-linked immunosorbent assay using the components present in a beta-mercaptoethanol extract from the cell wall of germ tubes. In immunoblots, PAb anti-CR2 recognized three different discrete bands with apparent molecular masses of 21, 40, and 66 kDa in the beta-mercaptoethanol extracts from the cell wall, whereas a different, single, broader band with an apparent molecular mass of 58 kDa was detected with PAb anti-mp58. However, when nondenaturing conditions were used to separate the materials present in the cell wall extracts, no reactivity could be detected on Western blots (immunoblots) with PAb anti-mp58. When PAb anti-CR2 was used for analysis, a single band migrating in the area corresponding to approximately 40 kDa was detected. These observations suggest a higher molecular weight for mp58 and one or more of the components detected with PAb anti-CR2 in their native state.