Identification and typing of the Candida parapsilosis complex: MALDI-TOF MS vs. AFLP.

In this study we compare the capability of amplification fragment-length polymorphism (AFLP) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) to identify and subtype isolates of members of the Candida parapsilosis complex (C. parapsilosis, C. orthopsilosis, C. metapsilosis) and Lodderomyces elongisporus, which cannot be differentiated with biochemical methods. Both techniques correctly identified all isolates included in this study and clustered isolates within the different species. DNA-based and mass spectrum-based dendrograms yielded similar outcomes with regard to phylogenetic distance within C. orthopsilosis and C. parapsilosis species. However, a different clustering was obtained for C. metapsilosis for which AFLP was highly effective in differentiating. While MALDI-TOF MS was found to be a reliable method for species-level identification, further studies are required to assess its value as a fungal typing tool.

Comparison of Candida parapsilosis, Candida orthopsilosis, and Candida metapsilosis adhesive properties and pathogenicity.

Retrospective studies indicate that Candida metapsilosis and Candida orthopsilosis each represents 1-10% of the infections/colonisations attributed to C. parapsilosis by conventional biochemical tests. Little is known on the virulence properties of these fungi and on their role in the establishment/progression of the infection. In this study, the adhesive properties of clinical isolates belonging to the 'psilosis' species were assessed in an in vitro model of co-incubation with human buccal epithelial cells (HBECs). Ectophosphatase activity was also measured for all isolates, since the activity of this enzyme has previously been linked to adhesion properties in C. parapsilosis. The results indicate that whilst C. parapsilosis and C. orthopsilosis strains showed similar adhesion abilities, C. metapsilosis isolates displayed a significantly lower ability to adhere to HBECs (P<0.05). No evidence of a correlation between ectophosphatase activity and adhesion was observed, and this finding was also confirmed by phosphatase inhibition experiments. Experimental vaginal candidiasis induced in oestrogen-treated mice with representative isolates of the 3 species indicated that mice infected with C. metapsilosis displayed a reduced vaginal fungal burden, especially in the early stages of the infection. The overall findings confirm that C. orthopsilosis has a comparable behaviour to C. parapsilosis, whilst C. metapsilosis seems to possess a reduced virulence potential.

Genotypic and phenotypic properties of Candida parapsilosis sensu strictu strains isolated from different geographic regions and body sites.

BACKGROUND: Candida parapsilosis is known to show limited genetic variability, despite different karyotypes and phenotypes have been described. To further investigate this aspect, a collection of 62 sensu strictu C. parapsilosis independent isolates from 4 geographic regions (Italy, n = 19; New Zealand, n = 15; Argentina, n = 14; and Hungary, n = 14) and different body sites (superficial and deep seated) were analysed for their genetic and phenotypic traits. Amplification fragment length polymorphism (AFLP) analysis was used to confirm species identification and to evaluate intraspecific genetic variability. Phenotypic characterisation included clinically relevant traits, such as drug susceptibility, in vitro biofilm formation and aspartyl protease secretion. RESULTS: AFLP genotyping showed little variation among isolates, when the presence/absence of bands was considered. However, when AFLP profiles were compared by relative intensity for each fragment, a significant level of variation and geographical clustering was observed. All isolates were found to be susceptible to commonly used antifungals, although a reduced susceptibility to echinocandins was observed in all isolates. C. parapsilosis isolates from different geographic origins varied in the number of biofilm producers, with a higher prevalence of producers isolated in Hungary and Argentina. The frequency of secreted proteinase producers also varied in isolates obtained from different areas, with a higher number of proteinase producers found in Italy and New Zealand. Interestingly, biofilm production and proteinase secretion were negatively correlated. This finding could be explained by assuming that proteinase activity plays a role in detachment and release from a mature biofilm, via degradation of C. parapsilosis adhesins and/or extracellular matrix components, as observed for other microorganisms. CONCLUSIONS: The low number of polymorphic AFLP bands (18 out of 80) obtained for C. parapsilosis isolates is in agreement with the limited sequence variability described for this species. However, when band intensity was included in the analysis, geographical clustering was observed. Expression of virulence factors varied among strains isolated from different geographical regions, with biofilm and proteinase producers more frequently isolated from Hungary and Italy, respectively.

Outcome of experimental rat vaginitis by Candida albicans isolates with different karyotypes.

Candida albicans isolates with different genomic background, designed as b and c karyotypes, have been previously shown to differentially modulate their response to macrophage candidacidal activity. While b-type isolates were susceptible to intracellular killing, strains with c karyotype survived upon internalization and were able to replicate inside macrophages. Furthermore, it was also shown that c type strains escape microglial cell mediated growth inhibition, suggesting that these strains form a more virulent cluster. In this report, the pathogenicity exerted by C. albicans isolates with b and c karyotypes was analyzed in vivo using a model of experimental rat vaginitis. Although both types induced infection, c-type-infected animals suffered from more persistent vaginitis, confirming the higher virulence potential the c karyotype exerted in vivo. The analysis of fungal cells recovered from vaginal fluids of infected animals indicated that c-type was more prone to undergo morphogenesis and to express SAP2 than b-type; these different traits may account for the differences observed in the outcome of experimental rodent vaginitis induced by the two C. albicans karyotypes.

AFLP genotyping of Candida metapsilosis clinical isolates: evidence for recombination.

In a collection of 395 independent clinical isolates classified as Candida parapsilosis on a biochemical profile basis, 20 Candida metapsilosis strains were identified by molecular tests with an isolation frequency of 5%. Isolates were screened for their susceptibility to conventionally used antifungals and for virulence determinants, such as biofilm formation and protease production. Molecular characterization of C. metapsilosis independent isolates by amplified fragment length polymorphism (AFLP) revealed a high percentage of polymorphic bands. Statistical analysis of the pairwise genetic distances and bootstrapping revealed that recombination occurs and significantly contributes to C. metapsilosis genetic population variability. No association between specific AFLP markers and drug resistance or other phenotypes was observed.

Genotyping of Candida orthopsilosis clinical isolates by amplification fragment length polymorphism reveals genetic diversity among independent isolates and strain maintenance within patients.

Candida parapsilosis former groups II and III have recently been established as independent species named C. orthopsilosis and C. metapsilosis, respectively. In this report, 400 isolates (290 patients) previously classified as C. parapsilosis by conventional laboratory tests were screened by BanI digestion profile analysis of the secondary alcohol dehydrogenase gene fragment and by amplification fragment length polymorphism (AFLP). Thirty-three strains collected from 13 patients were identified as C. orthopsilosis, thus giving the first retrospective evidence that C. orthopsilosis was responsible for 4.5% of the infections/colonization attributed to C. parapsilosis. AFLP was proven to unambiguously identify C. orthopsilosis at the species level and efficiently delineate intraspecific genetic relatedness. A high percentage of polymorphic AFLP bands was observed for independent isolates collected from each patient. Statistical analysis of the pairwise genetic distances and bootstrapping revealed that clonal reproduction and recombination both contribute to C. orthopsilosis genetic population structure. AFLP patterns of sequential isolates obtained from two patients demonstrated that a successful strain colonization within the same patient occurred, as revealed by strain maintenance in various body sites. No association between AFLP markers and drug resistance was observed, and none of the clinical C. orthopsilosis isolates were found to produce biofilm in vitro.