Effects of fluconazole treatment of mice infected with fluconazole-susceptible and -resistant Candida tropicalis on fungal cell surface hydrophobicity, adhesion and biofilm formation.

Background: The incidence of Candida tropicalis less susceptible to fl uconazole (FLC) has been reported in many parts of the world. Objectives: The aim of this study was to examine the changes of putative virulence attributes of Candida tropicalis accompanying the development of resistance to FLC in vitro and in vivo. Materials and Methods: A FLC-resistant strain (FLC-R) was obtained after sequential exposure of a clinical isolate FLC-sensitive (FLC-S) to increasing concentrations of the antifungal. The course of infection by both strains was analyzed in BALB/c mice. Analyses of gene expression were performed by real-time polymerase chain reaction PCR. The cell surface hydrophobicity, adhesion and biofi lm formation were also determined. Results: Development of resistance to FLC could be observed after 15 days of subculture in azole-containing medium. Overexpression of MDR1 and ERG11 genes were observed in FLC-R, and this strain exhibited enhanced virulence in mice, as assessed by the mortality rate. All mice challenged with the FLC-R died and FLC-treatment caused earlier death in mice infected with this strain. All animals challenged with FLC-S survived the experiment, regardless of FLC-treatment. Overall, FLC-R derivatives strains were signifi cantly more hydrophobic than FLC-S strains and showed greater adherence and higher capacity to form biofi lm on polystyrene surface. Conclusions: The expression of virulence factors was higher in FLC-R-C. tropicalis and it was enhanced after FLC-exposure. These data alert us to the importance of identifying microorganisms that show resistance to the antifungals to establish an appropriate management of candidiasis therapy.

Vancomycin-dependent Enterococcus faecium vanA: characterization of the first case isolated in a university hospital in Brazil

In this study, we report the characterization of a strain of Enterococcus faecium vanA, which grows only in the presence of vancomycin (VDEfm-UEL). The bacterium was isolated from the feces of a female patient who had undergone surgical treatment of Reinke’s edema and was receiving intravenous vancomycin therapy for infection with methicillin/oxacillin-resistant Staphylococcus aureus, a postoperative complication. Antimicrobial dependence was further confirmed by the vancomycin E-test. VDEfm-UEL was also shown to be resistant to ampicillin, ciprofloxacin, chloramphenicol, erythromycin, levofloxacin, penicillin, rifampicin, and teicoplanin. The putative virulence genes efaA, gelE and esp were detected by PCR. The ddl gene from VDEfm-UEL was cloned and sequenced. Vancomycin dependence seems to be associated with the insertion of a nucleotide in that sequence, which results in a frame-shift mutation, introducing a premature stop codon. This is the first report of vancomycin-dependent E. faecium isolation in a university hospital in Brazil.

Stage-specific gene expression during Trypanosoma cruzi metacyclogenesis

The process of Trypanosoma cruzi metacyclogenesis involves the transformation of noninfective epimastigotes into metacyclic trypomastigotes, which are the pathogenic form. The analysis of stage-specific genes during T. cruzi metacyclogenesis may provide insight into the mechanisms involved in the regulation of gene expression in trypanosomatids. It may also improve the understanding of the mechanisms responsible for the pathology of Chagas disease, and could lead to the identification of new targets for chemotherapy of this disease. We have demonstrated that during metacyclogenesis the expression of several genes is controlled at the translational level by an alternative regulatory mechanism. This mechanism may involve the mobilization of mRNA to the translation machinery. We have been using self-made T. cruzi microarrays to investigate the role of polysomal mobilization in modulating gene expression during metacyclogenesis