Use of 65kDa mannoprotein gene primers in PCR methods for the identification of five medically important Candida species.

We have developed PCR and Multiplex PCR assays for the detection of medically important Candida spp. using different species and genus-specific PCR primers selected within the MP65 gene, a recently cloned gene encoding a mannoprotein adhesin. The genus-specific PCR primers were able to amplify Candida species DNA (100% positivity) whereas DNA from all other isolates tested, belonging to other fungal genera, was not amplified. The species-specific PCR primers allowed differentiation of each of five Candida species by the amplicon length produced. No amplicons were detected using species- or genus-specific primers in several bacterial or human DNA templates. The methods described in this study are reproducible, simple and specific. The total time required for each PCR method was less than 4 h from the extraction to the visualized amplicons after PCR. In conclusion, we developed PCR methods to differentiate the five most medically important Candida species using primers directed to the MP65 gene.

Construction and use of PCR primers from a 65 kDa mannoprotein gene for identification of C. albicans.

A method for detection of Candida albicans in biological samples (blood, serum, urine) was developed by the use of polymerase chain reaction (PCR) amplification of a DNA fragment of a gene coding for a 65 kDa mannoprotein of C. albicans (CaMP65). The PCR amplifies a 220 bp fragments whose specificity for C. albicans was demonstrated by Southern blot with a non-radioactive probe, leading to the differentiation from all other yeast species or human and bacterial DNA. The sensitivity of this assay was 5-10 C. albicans cells per milliliter of biological sample.

Generation of a highly immunogenic recombinant enolase of the human opportunistic pathogen Candida albicans.

Enolase, a 46 kDa glycolytic enzyme, is an immunodominant antigen of Candida albicans, an important human opportunistic pathogen. The full-length coding sequence of C. albicans enolase gene was subcloned into the prokaryotic expression vector pDS56/RBSII,His6/E- under the control of an inducible promoter to produce a His6-tagged enolase. The recombinant protein was purified to homogeneity by one-step nickel-chelate affinity chromatography. It was recognized by a monoclonal antibody specific for C. albicans enolase, as well as by anti-enolase antibodies present in human sera (IgG). The recombinant protein promptly elicited antibody in mice and detected immune responses in normal human subjects that were comparable to those generated by the native C. albicans enolase. Thus this new recombinant enolase constitutes a valuable reagent for studying the possible role of this protein in anti-Candida immune response.

Evidence that members of the secretory aspartyl proteinase gene family, in particular SAP2, are virulence factors for Candida vaginitis.

Virulence of Candida albicans strains with targeted disruption of secretory aspartyl proteinase genes (SAP1 to SAP6) was assessed in an estrogen-dependent rat vaginitis model. Null sap1 to sap3 but not sap4 to sap6 mutants lost most of the virulence of their parental strain SC5314. In particular, the sap2 mutant was almost avirulent in this model. Reinsertion of the SAP2 gene into this latter mutant led to the to recovery of the vaginopathic potential. The vaginal fluids of the animals infected by the wild type strain or by the sap1 or sap3 mutants expressed a pepstatin-sensitive proteinase activity in vitro. No traces of this activity were found in the vaginal fluid of rats challenged by the sap2 mutant. All strains were capable of developing true hyphae during infection. Thus, members of SAP family, in particular SAP2, play a clear pathogenic role in vaginitis and may constitute a novel target for chemoimmunotherapy of this infection.

Construction and use of PCR primers from a 70 kDa heat shock protein gene for identification of Candida albicans.

Methods for detection of Candida albicans in culture or biological samples were developed by the use of polymerase chain reaction (PCR) with oligonucleotide primers from C. albicans 70 kDa heat shock protein gene (Cahsp70). The PCR amplifies a 335-base pair fragment which is then hybridized with a non-radioactive probe, leading to the specific identification of C. albicans and its differentiation from all other human pathogenic Candida and/or yeast species. Candida albicans could be rapidly detected in human urine and blood, with a sensitivity of 10 and 50 fungal cells per sample, respectively.

Purification and biochemical characterization of a 65-kilodalton mannoprotein (MP65), a main target of anti-Candida cell-mediated immune responses in humans.

A 65 kDa-constituent (MP65) of a whole-cell mannoprotein (MP) fraction of Candida albicans was purified by immunoaffinity chromatography with monoclonal antibodies directed against periodate-insensitive, protease-sensitive MP epitopes, putatively polypeptide in nature. These antibodies were obtained by immunization of mice with concanavalin A bead-coupled, low-glycosylated MP from hyphal cells of C. albicans grown in the presence of a subinhibitory dose of tunicamycin. The immunoaffinity-purified MP65 molecule had a pI of 4.1 and a protein/polysaccharide ratio of 1.8:1. It was resistant to hydrolysis by endoglycosidase H, endoglycosidase F, or N-glycoffanases but still reactive with concanavalin A. The polysaccharide moiety of MP65 was composed exclusively of mannose and glucose at a ratio of 12.7 to 1. The protein moiety showed numerous potential O-glycosidic linkage sites as suggested by the high proportion of serine and threonine (together accounting for more than 20% of the total amino acid composition) and susceptibility to diluted alkali. This treatment and digestion with alpha-mannosidase caused a reduction in the MP65 molecular mass to around 54 kDa. The N-terminal sequence of MP65 protein moiety was rich in alanine and valine (7 of 13 amino acids) and did not show any significant homology with deposited sequences in data banks. Purified MP65, at doses of a few nanograms, induced extensive T-cell proliferation of human peripheral blood mononuclear cells. This proliferation was specifically inhibited, in a dose-response fashion, by the antigen-binding fragment of the monoclonal antibody used for immunoaffinity purification. Overall, these results highlight biochemical and molecular details of MP65, a main target of human T-cell response to C.albicans.