Purification of a Candida albicans germ tube specific antigen

Abstract In a previous work, Marot-Leblond et al. identified a Candida albicans germ tube-specific antigen by the use of a monoclonal antibody (mAb 3D9.3). In the present report, we used a two-step procedure to obtain a purified preparation of this antigen from a Zymolyase extract of Candida albicans germ tubes. The extract was first fractionated by gel filtration chromatography. The immunoreactive fractions were pooled, and the 3D9.3 antigen was further purified by hydrophobic interaction chromatography using a Phenyl-superose column. Analysis by SDS-PAGE, immunoblotting and Concanavalin A staining, revealed a single, polydisperse band ranging from 110 to 170 kDa. The antigen was purified 126-fold by protein content and 16.4-fold by carbohydrate content. Recovery of the antigen was 6.8% following the two-step purification.     

Inhibition of Candida albicans adhesion by recombinant human antibody single-chain variable fragment specific for Als3p

The Candida albicans adhesin, Als3p, was identified as a potential cognate antigen for previously described human antibody fragments [single-chain variable fragment (scFv)] based on similarity of the binding pattern of the scFv to the distribution of this protein on the hyphal surface. Although all scFv bound avidly to wild type, scFv3 showed no detectable binding via immunofluorescence assay to strain 1843, containing a homozygous deletion of ALS3. Binding to the ALS3 reintegrant strain, 2322, was preserved, and scFv3 also bound to Saccharomyces cerevisiae expressing ALS3. Other scFv retained binding to 1843, but with a markedly altered pattern. To determine if scFv3 could interfere with Als3p function, adhesion assays were conducted using human epithelial or endothelial cells as target. Treatment of wild-type C. albicans with scFv3 reduced adhesion of the fungus to both cell types to levels comparable to the als3Delta/als3Delta mutant. These experiments confirm that phage display is a viable method to isolate human scFv specific to an antigen implicated in C. albicans virulence, and that the scFv interfere with adhesion to human cells. The altered pattern of immunostaining with other scFv that retain binding to the als3Delta/als3Delta mutant suggest that Als3p may also have a role in structural organization of the C. albicans cell surface.     

The Tlo proteins are stoichiometric components of Candida albicans mediator anchored via the Med3 subunit

The amplification of the TLO (for telomere-associated) genes in Candida albicans, compared to its less pathogenic, close relative Candida dubliniensis, suggests a role in virulence. Little, however, is known about the function of the Tlo proteins. We have purified the Mediator coactivator complex from C. albicans (caMediator) and found that Tlo proteins are a stoichiometric component of caMediator. Many members of the Tlo family are expressed, and each is a unique member of caMediator. Protein expression analysis of individual Tlo proteins, as well as the purification of tagged Tlo proteins, demonstrate that there is a large free population of Tlo proteins in addition to the Mediator-associated population. Coexpression and copurification of Tloα12 and caMed3 in Escherichia coli established a direct physical interaction between the two proteins. We have also made a C. albicans med3Δ/Δ strain and purified an intact Mediator from this strain. The analysis of the composition of the med3Δ Mediator shows that it lacks a Tlo subunit. Regarding Mediator function, the med3Δ/Δ strain serves as a substitute for the difficult-to-make tloΔ/Δ C. albicans strain. A potential role of the TLO and MED3 genes in virulence is supported by the inability of the med3Δ/Δ strain to form normal germ tubes. This study of caMediator structure provides initial clues to the mechanism of action of the Tlo genes and a platform for further mechanistic studies of caMediator's involvement in gene regulatory patterns that underlie pathogenesis.     

Complex interaction between different proteinaceous components within the cell-wall structure ofCandida albicans

We have previously described a monoclonal antibody, MAb DC3:H10, which recognized an epitope preferentially expressed on the surface ofCandida 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 theC. 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 immunofluo-rescence (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.     

A monoclonal antibody specific for Candida albicans Als4 demonstrates overlapping localization of Als family proteins on the fungal cell surface and highlights differences between Als localization in vitro and in vivo

The Candida albicans agglutinin-like sequence (ALS) family encodes large cell surface glycoproteins that function in adhesion of the fungus to host and abiotic surfaces. Monoclonal antibodies (mAbs) specific for each Als protein were developed to study Als localization on the C. albicans surface. An anti-Als4 mAb demonstrated that Als4 covers the surface of yeast cells, with a greater abundance of Als4 on cells grown at 30 °C compared to 37 °C. On germ tubes, Als4 is localized in a restricted area proximal to the mother yeast. Immunolabeling with several anti-Als mAbs showed overlapping localization of Als1 and Als4 on yeast cells and Als1, Als3 and Als4 on germ tubes. Overlapping localization of Als proteins was also observed on yeast and hyphae recovered from mouse models of disseminated and oral candidiasis. Differences between Als localization in vivo and in vitro suggested changes in regulation of Als production in the host compared to the culture flask. Characterization with the anti-Als mAbs reveals the simultaneous presence and differences in relative abundance of Als proteins, creating an accurate image of Als representation and localization that can be used to guide conclusions regarding individual and collective Als protein function.     

Complementary adhesin function in C. albicans biofilm formation

BACKGROUND: Biofilms are surface-associated microbial communities with significant environmental and medical impact. Here, we focus on an adherence mechanism that permits biofilm formation by Candida albicans, the major invasive fungal pathogen of humans. RESULTS: The Als surface-protein family has been implicated in biofilm formation, and we show that Als1 and Als3 have critical but redundant roles. Overexpression of several other Als proteins permits biofilm formation in a biofilm-defective als1/als1 als3/als3 strain, thus arguing that the function of Als proteins in this process is governed by their respective expression levels. The surface protein Hwp1 is also required for biofilm formation, and we find that a mixture of biofilm-defective hwp1/hwp1 and als1/als1 als3/als3 strains can form a hybrid biofilm both in vitro and in vivo in a catheter infection model. Complementary function of Hwp1 and Als1 and 3 seems to reflect their interaction because expression of Hwp1 in the heterologous host S. cerevisiae permits adherence to wild-type C. albicans, but not to an als1/als1 als3/als3 strain. CONCLUSIONS: The complementary roles of Hwp1 and Als1 and Als3 in biofilm formation are analogous to the roles of sexual agglutinins in mating reactions. This analogy suggests that biofilm-adhesin complementarity may promote formation of monospecies biofilms.     

Protruding disordered loop of gC1qR is specifically exposed and related to antiapoptotic property in germ cell lineage

We established a monoclonal antibody (MAb), 5G9, with the use of a fixed seminoma tissue from an archival paraffin-embedded specimen, as an immunogen. Without antigen retrieval, positive 5G9-immunohistochemical staining was confined mostly to primordial germ cells, spermatogonia and various germ cell tumors. 5G9 recognized a mitochondrial 32-kD protein with an isoelectric point of pH 4.2, identified as a multifunctional ubiquitous protein, receptor for globular head of C1q (gC1qR), whose epitope was mapped in a disordered loop connecting the β3 and the β4 strands. Reflecting the ubiquitous distribution of gC1qR, with antigen retrieval, 5G9 was found reactive to a wide range of normal and tumor tissues. Since several co-precipitated and phosphorylated bands were observed in various human cell lines but not in germ cell tumor cell lines by in vitro phosphorylation assay, we speculate that the epitope of gC1qR is specifically unmasked in the germ cell lineage. By reducing gC1qR by siRNA, a significant increase was observed in the number of apoptotic cells in ITO-II and TCam-2 cell lines, but to a lesser extent in the Colo201 colon cancer cell line, showing an antiapoptotic property of gC1qR in the germ cells. Since protein–protein interaction is partially preserved by fixation, archival paraffin-embedded specimens can be a valuable source of immunogens for generating monoclonal antibodies (MAbs) that recognize tissue-specific protein conformation.     

Differential expression of Candida dubliniensis-secreted aspartyl proteinase genes (CdSAP1–4) under different physiological conditions and during infection of a keratinocyte culture

The in vitro and keratinocyte (HaCAT cells) culture expression of four putative genes coding for secreted aspartyl proteases of Candida dubliniensis – CdSAP1, CdSAP2, CdSAP3 , and CdSAP4 ( CdSAP1–4 ) – is reported for the first time. In addition, CdSAP7, 8, 9 , and 10 , orthologous genes of Candida albicans , were recognized in C. dubliniensis genome. There are no orthologs of C. albicans SAP5 and 6 in C. dubliniensis . The expression of CdSAP1 and 2 was independent of the morphological stage of C. dubliniensis ; they are expressed at both pH 4 and pH 7, and were induced with albumin as nitrogen source. CdSAP3 expression was regulated by the pH, and was related to the infection process of keratinocytes. Expression of CdSAP4 predominated during the mycelial phase and the initial stage of keratinocyte infection. During infection of the HaCaT cell line, only genes CdSAP3 – 4 were expressed, and keratinocytes were affected in their number and shape by the infection with C. dubliniensis ; however, this effect decreased in the presence of pepstatin A (aspartyl protease inhibitor). Pepstatin A was not able to inhibit keratinocyte damage. Based on the aforementioned, we suggest that the Saps from C. dubliniensis could be considered a virulence factor just as those from C. albicans , and participants in the nitrogen metabolism of the yeast for nutrient acquisition.     

Extensive chromosome rearrangements distinguish the karyotype of the hypovirulent species Candida dubliniensis from the virulent Candida albicans

Candida dubliniensis and Candida albicans, the most common human fungal pathogen, have most of the same genes and high sequence similarity, but C. dubliniensis is less virulent. C. albicans causes both mucosal and hematogenously disseminated disease, C. dubliniensis mostly mucosal infections. Pulse-field electrophoresis, genomic restriction enzyme digests, Southern blotting, and the emerging sequence from the Wellcome Trust Sanger Institute were used to determine the karyotype of C. dubliniensis type strain CD36. Three chromosomes have two intact homologues. A translocation in the rDNA repeat on chromosome R exchanges telomere-proximal regions of R and chromosome 5. Translocations involving the remaining chromosomes occur at the Major Repeat Sequence. CD36 lacks an MRS on chromosome R but has one on 3. Of six other C. dubliniensis strains, no two had the same electrophoretic karyotype. Despite extensive chromosome rearrangements, karyotypic differences between C. dubliniensis and C. albicans are unlikely to affect gene expression. Karyotypic instability may account for the diminished pathogenicity of C. dubliniensis.     

Characterization of agglutinin-like sequence genes from non-albicans Candida and phylogenetic analysis of the ALS family

The ALS (agglutinin-like sequence) gene family of Candida albicans encodes cell-surface glycoproteins implicated in adhesion of the organism to host surfaces. Southern blot analysis with ALS-specific probes suggested the presence of ALS gene families in C. dubliniensis and C. tropicalis; three partial ALS genes were isolated from each organism. Northern blot analysis demonstrated that mechanisms governing expression of ALS genes in C. albicans and C. dubliniensis are different. Western blots with an anti-Als serum showed that cross-reactive proteins are linked by beta 1,6-glucan in the cell wall of each non-albicans Candida, suggesting similar cell wall architecture and conserved processing of Als proteins in these organisms. Although an ALS family is present in each organism, phylogenetic analysis of the C. albicans, C. dubliniensis, and C. tropicalis ALS genes indicated that, within each species, sequence diversification is extensive and unique ALS sequences have arisen. Phylogenetic analysis of the ALS and SAP (secreted aspartyl proteinase) families show that the ALS family is younger than the SAP family. ALS genes in C. albicans, C. dubliniensis, and C. tropicalis tend to be located on chromosomes that also encode genes from the SAP family, yet the two families have unexpectedly different evolutionary histories. Homologous recombination between the tandem repeat sequences present in ALS genes could explain the different histories for co-localized genes in a predominantly clonal organism like C. albicans.     

Antifungal and antitumor activities of a monoclonal antibody directed against a stress mannoprotein of Candida albicans

Immunization of mice with a stress mannoprotein of >200 kDa from the cell wall of Candida albicans led to the production of monoclonal antibody (Mab) C7. The immunogen is a major target of secretory IgA and its expression is regulated by different environmental conditions including temperature, pH, glucose concentration and ammonium sulphate in the culture medium. Mab C7 reacted with a peptide epitope present in the >200 kDa antigen as well as in a number of antigens from the blastoconidium and germ tube cell wall, including enolase. In addition to its reactivity with C. albicans, Mab C7 also reacted with antigens present in C. krusei, C, tropicalis, C. glabrata, C. dubliniensis and C. lusitaniae, as well as in Cryptococcus neoformans, Scedosporium prolificans and Aspergillus fumigatus. Mab C7 exhibited four important biological activities, namely inhibition of adhesion of C. albicans to a variety of surfaces, inhibition of germination of C. albicans, direct candidacidal activity and direct tumoricidal activity. In tumor cells, Mab C7 reacted with nucleoporin Nup88, a reactivity that can be utilized for diagnostic and prognostic purposes.     

Differences in extracellular enzymatic activity between Candida dubliniensis and Candida albicans isolates

Twenty-six Candida dubliniensis and 27 Candida albicans oral strains isolated from patients infected by the human immunodeficiency virus (HIV) were tested for germ tube production and 21 extracellular enzymatic activities. Assessment of the enzymatic profile was performed by using the API-ZYM commercial kit system (bioMerieux, France), which tests 19 different enzymes. Protease activity was expressed during the first days of incubation by 100% of the strains studied and resulted higher than phospholipase activity in the C. dubliniensis and C. albicans strains tested. The API-ZYM profile of the C. dubliniensis and C. albicans strains differs with respect to the number and percentage of the enzymes considered, as well as with the intensity of the substrate metabolized by the strains, in particular for the enzymes n 8 (cystine-arylamidase), n 12 (naphtol-AS-BI-phosphohydrolase) and n 16 (alpha-glucosidase). These enzymes may be useful to differentiate C. dubliniensis and C. albicans together with other phenotypic characteristics proposed in the literature. No relationship among protease, phospholipase and other extracellular enzymatic activities was observed in C. dubliniensis. The average percentage of strains filamentation after 4 h was between 32 and 42%.     

Induction of N-acetyl-D-glucosamine catabolic enzymes and germinative response in Candida albicans

The regulation of N-acetylglucosamine catabolic enzymes was studied in both yeast and germ tube forms of the dimorphic fungus Candida albicans. The induction pattern of these enzymes was the same for yeast cells incubated at 28 degrees C and in cells incubated at 37 degrees C which formed germ tubes. However, the level of activity of these enzymes in germ tube stage is lower as compared to yeast phase cells. A strain of C. albicans that did not form germ tubes was endowed with a pronounced ability for induction of N-acetylglucosamine catabolic enzymes. This result suggests that germ tube formation and N-acetylglucosamine metabolism are mutually exclusive events.     

A conformational epitope on the dimer of the fusion protein of respiratory syncytial virus detected in natural infections

A murine monoclonal antibody (MAb), 2D8, was used in immunofluorescence reactions to detect respiratory syncytial virus (RSV) antigen in clinical specimens. Nasopharyngeal epithelial cells from 63 of 66 children with RSV infections reacted with this MAb. The MAb was further characterized and was demonstrated to recognize a conformational epitope on the dimer of the fusion protein of RSV. No reaction was detected with the MAb, 2D8, on Western blots of antigen prepared from RSV-infected HEp-2 cells under reducing conditions. Under non-reducing conditions, 2D8 reacted with a 145-170 K protein; this reactivity was lost when the antigen preparation was heated to 100 degrees C. 2D8 reacted with purified F glycoprotein of RSV Long in an ELISA, neutralized infectivity of RSV by >50% at a dilution of 1:500, and was able to inhibit cell-to-cell fusion of RSV-infected cells. In a competitive ELISA, the epitope detected by 2D8 was localized to antigenic site A. The conformational epitope detected by 2D8 required protein dimerization and glycosylation for full reactivity. This report extends previous characterizations of the F protein in its native state in that the MAb defines a conformational epitope on the fusion protein dimer that is expressed in natural infections and elicits antibody that can neutralize virus infectivity and inhibit cell-to-cell fusion. In addition to its application as a diagnostic reagent, this MAb can be of use in testing preparations of RSV or purified F protein in which the purification or extraction processes could have destroyed conformational epitopes.     

Evaluation of the role of Candida albicans agglutinin-like sequence (Als) proteins in human oral epithelial cell interactions

The fungus C. albicans uses adhesins to interact with human epithelial surfaces in the processes of colonization and pathogenesis. The C. albicans ALS (agglutinin-like sequence) gene family encodes eight large cell-surface glycoproteins (Als1-Als7 and Als9) that have adhesive function. This study utilized C. albicans Δals mutant strains to investigate the role of the Als family in oral epithelial cell adhesion and damage, cytokine induction and activation of a MAPK-based (MKP1/c-Fos) signaling pathway that discriminates between yeast and hyphae. Of the eight Δals mutants tested, only the Δals3 strain showed significant reductions in oral epithelial cell adhesion and damage, and cytokine production. High fungal:epithelial cell multiplicities of infection were able to rescue the cell damage and cytokine production phenotypes, demonstrating the importance of fungal burden in mucosal infections. Despite its adhesion, damage and cytokine induction phenotypes, the Δals3 strain induced MKP1 phosphorylation and c-Fos production to a similar extent as control cells. Our data demonstrate that Als3 is involved directly in epithelial adhesion but indirectly in cell damage and cytokine induction, and is not the factor targeted by oral epithelial cells to discriminate between the yeast and hyphal form of C. albicans.     

A molecular genetic system for the pathogenic yeast Candida dubliniensis

Candida dubliniensis is a recently described pathogenic yeast of the genus Candida that is closely related to Candida albicans but differs from it in several phenotypic and genotypic characteristics, including putative virulence traits, which may explain differences in the spectrum of diseases caused by the two species. In contrast to C. albicans, a molecular genetic system to study virulence of C. dubliniensis is lacking. We have developed a system for the genetic transformation of C. dubliniensis that is based on the use of the dominant selection marker MPA(R) from C. albicans that confers resistance to mycophenolic acid (MPA). Using this transformation system, a GFP (green fluorescent protein) reporter gene that was genetically engineered for functional expression in C. albicans and placed under control of the inducible C. albicans SAP2 (secreted aspartic proteinase) promoter was integrated into the C. dubliniensis genome. MPA-resistant transformants containing the SAP2P-GFP fusion fluoresced under SAP2-inducing conditions but not under SAP2-repressing conditions. These results demonstrate that the MPA(R) selection marker is useful for transformation of C. dubliniensis wild-type strains, that the GFP reporter gene is functionally expressed in C. dubliniensis, and that the C. albicans SAP2 promoter can be used for controlled gene expression in C. dubliniensis. These genetic tools will allow the dissection of the differences in virulence characteristics between the two pathogenic yeast species at the molecular level.     

Candida dubliniensis identification in Brazilian yeast stock collection

We investigated the presence of Candida dubliniensis among isolates previously identified as Candida albicans and maintained in a yeast stock collection from 1994 to 2000. All isolates were serotyped and further evaluated for antifungal susceptibility profile. After doing a screening test for C. dubliniensis isolates based on the capability of colonies to grow at 42 C, its final identification was obtained by randomly amplified polymorphic DNA (RAPD) analysis using three different primers. A total of 46 out of 548 screened isolates did not exhibit growth at 42 C and were further genotyped by RAPD. Eleven isolates were identified as C. dubliniensis with RAPD analysis. Regarding serotypes, 81.5% of C. albicans and all C. dubliniensis isolates belonged to serotype A. Of note, 9 out of 11 C. dubliniensis isolates were obtained from patients with acquired immunodeficiency syndrome (Aids) and all of them were susceptible to azoles and amphotericin B. We found 17 (3%) C. albicans isolates that were dose-dependent susceptibility or resistant to azoles. In conclusion, we found a low rate of C. dubliniensis isolates among stock cultures of yeasts previously identified as C. albicans. Most of these isolates were recovered from oral samples of Aids patients and exhibited high susceptibility to amphotericin B and azoles. C. albicans serotype A susceptible to all antifungal drugs is the major phenotype found in our stock culture.     

Host defence against C. albicans infections in IgH transgenic mice with V(H) derived from a natural anti-keratin antibody

Fungal infections have been increasing and life-threatening in recent years, but host immune responses, especially the humoral immunity, to fungi have not been fully understood. In the present study, we report that natural antibodies from unimmunized mice bind to Candida albicans. We established a monoclonal natural antibody, 3B4, which recognized a surface antigen located at germ tubes of C. albicans. The 3B4 antibody protected mice from C. albicans-induced death in passive immunization, by mechanisms involving suppressing germ tube formation and modulating phagocytosis. Interestingly, 3B4 also bound to a self-antigen keratin. To further study the generation and anti-C. albicans activities of natural antibodies in vivo, we constructed a mu chain transgenic mouse (TgV(H)3B4) using the V(H) gene from 3B4. TgV(H)3B4 had elevated serum anti-keratin/C. albicans IgM, and were resistant to C. albicans infections. Analyses of B cell development showed that in TgV(H)3B4, B cells secreting the anti-keratin/C. albicans antibodies were enriched in the B1 B cell compartment. Our findings reveal an important role of keratin-reactive natural antibodies in anti-C. albicans immune responses, and suggest that keratin may function in selecting B cells into the B1 B cell compartment, where natural antibodies are made to fight fungal infections.     

Comparison of Candida dubliniensis and C. albicans based on polar lipid composition

AIMS: To test the hypothesis that strains of Candida dubliniensis and C. albicans can be differentiated on the basis of polar lipid profiles. METHODS AND RESULTS: Five isolates of C. dubliniensis and six isolates of C. albicans were tested by growth at 45 degrees C, production of chlamydospores on cornmeal agar, colonial colour on CHROMagar Candida medium and assimilation of DL-lactate, alpha-methyl-D-glucoside and xylose. Polar lipids were then extracted from freeze-dried cultures and analysed using fast atom bombardment mass spectrometry. Isolates were grouped by single linkage clustering based on correlation coefficients for strain pairs calculated with carboxylate and phospholipid molecular species distributions. The most intense carboxylate and phospholipid molecular species anions were of m/z 281 (C(18 : 1)) and m/z 515 (PA 23 : 2). Phosphatidylethanolamine and phosphatidylglycerol were the predominant phospholipid families in C. dubliniensis, compared with phosphatidic acid in C. albicans isolates. All of the C. dubliniensis isolates grouped together in one cluster, whereas all of the C. albicans isolates grouped in a separate cluster. CONCLUSIONS: Fast atom bombardment mass spectrometry can differentiate the two species based on analysis of polar lipid distributions. SIGNIFICANCE AND IMPACT OF THE STUDY: These findings demonstrate that C. dubliniensis and C. albicans have distinct polar lipid profiles.