After treatment with the MIC50s of AZA and EIL, different alterations in the nucleus were observed, and these were classified as: (A) cells with more than one nucleus, (B) cells showing abnormal chromatin condensation, and (C) cells without a nucleus. Counting the number of abnormal cells revealed that approximately 66% of the yeasts showed abnormal chromatin condensation, whereas 6.6% of AZA-treated and 1.5% of EIL-treated cells contained more than one nucleus, and approximately 6% of the cells treated with both compounds had no nucleus (Figure 4). Figure 4 Differential

Interference Contrast (DIC) microscopy AZD1152 clinical trial (left) and fluorescence microscopy with DAPI (right) of C. albicans (isolate 77) control and treated with MIC 50 of AZA and EIL, showing alterations in the cell

cycle such as the presence of cells with multiple nuclei (arrows in Fig. D and G), abnormal chromatin condensation (arrowheads in Fig. E and H), and cells without a nucleus (asterisk in Fig. F and I). A-C: control cells in different stages of the cell cycle; D-F: 0.25 μg.ml-1 AZA; G-I: 1 μg.ml-1 EIL; J: Percentage of C. albicans cells, untreated selleck products and treated with 24-SMT inhibitors, showing different cell cycle stages: (I) cells with no bud and one nucleus, (II) cells with a bud and one nucleus, and (III) cells with a bud and two nuclei (one in each cell); and alterations of cell cycles: (A) cells with more than one nucleus, (B) cells showing

abnormal chromatin condensation, and (C) cells without a nucleus. Bar = 5 μm. Cytotoxicity evaluation Cytotoxicity of 24-SMTI was evaluated against mammalian cells (Vero) using the sulforhodamine B viability assay. For both AZA and EIL the CC50 was 40 μg.ml-1, which corresponds to a mean selectivity index of 80 for AZA and 20 for EIL. Discussion Although C. albicans is the predominant species in candidiasis, CNA species have increased in frequency in recent years. The reasons for the emergence of CNA species are not fully understood, but some medical conditions may frequently run the risk of developing candidaemia due to the CNA species: C. parapsilopsis has been associated with vascular catheters and next parenteral nutrition; C. tropicalis with cancer and neutropenia; and C. krusei and C. glabrata with previous treatments with FLC and ITC [2]. Previous studies have described a high susceptibility of C. albicans selleckchem isolates to azoles and AMB, whereas CNA isolates are usually less susceptible and may be intrinsically resistant to FLC and ITC [2, 15–17]. As reported by other investigators [2, 18, 19], none of our Candida isolates showed MIC ≥ 2 μg.ml-1 for AMB. MIC values found for ITC and FLU were similar to those previously reported by different groups [2, 15–17]. However, in the present study, FLC-resistant Candida strains were only observed among CNA species (6.8% of the isolates). However, ITC-resistance was found in C. albicans (1.