albicans which may lead to reducing C albicans virulence [60–62]

albicans which may lead to reducing C. albicans virulence [60–62]. Our study thus establishes, for the first time, a clear link between an antimicrobial peptide (KSL-W), hyphae morphogenesis, and hyphae-modulating SAPs 2, 4, 5, and 6. However, the precise interactions between these SAPs and KSL-W during C. albicans pathogenesis remain unclear. Additional studies Ipatasertib should focus on identifying the role of SAP subfamilies

involved in Candida invasion as well as the role of KSL-W in controlling Candida virulence/pathogenesis in conjunction with host defenses. In conclusion, this study is the first to demonstrate that synthetic antimicrobial peptide KSL-W downregulates C. albicans growth and transition, resulting in a decrease in biofilm formation and a disruption of mature biofilm. Also of interest is that these effects may occur through the modulation of C. albicans genes EFG1, NRG1, EAP1, HWP1, and SAPs. Overall results clearly suggest the potential of KSL-W as an antifungal molecule. Methods C. albicans C. albicans strain ATCC-SC5314 was cultured for 24 h on Sabouraud dextrose agar plates (Becton Dickinson, Oakville, ON, Canada) at 30°C. For the C. albicans suspensions, one colony was used to inoculate 10 ml of Sabouraud liquid medium

supplemented with 0.1% glucose at pH 5.6. The cultures find more were grown overnight in a shaking water bath for 18 h at 30°C. The yeast cells were then collected, washed with phosphate-buffered saline (PBS), counted with a haemocytometer, and adjusted to 107/ml prior to use. Antimicrobial peptides KSL-W (KKVVFWVKFK-NH2) was synthesized by standard solid-phase procedures [63] with 9-fluorenylmethoxycarbonyl (Fmoc) chemistry in an automatic peptide synthesizer (model 90, Advanced ChemTech, Louisville, KY, USA). The synthetic peptides were then purified by reverse-phase

HPLC (series 1100, Hewlett Packard) by means of a Vydac C18 column. Peptide purity was confirmed by MALDI-TOF (matrix-assisted laser desorption/ionization-time of flight) MS (AnaSpec Fremont, CA, USA). The final product was stored in lyophilized format -20°C until PIK3C2G use. KSL-W solution was prepared, filtered (0.22 um pore size), and used for the experiments. Amphotericin B (Sigma-Aldrich, St. Louis, MO, USA) was dissolved in distilled water to obtain a 250 μg/ml concentration which was also filtered, with the sterile solution stored at -80°C until use. Effect of KSL-W on C. albicans proliferation Proliferation was investigated by placing 104 C. albicans in 200 μL of Sabouraud dextrose broth in a round-bottom 96-well plate. The C. albicans cultures were supplemented with KSL-W at concentrations of 1, 10, 25, 50, 75, and 100 μg/ml. The negative controls were C. albicans cultures not supplemented with KSL-W, while the positive controls were C. albicans cultures supplemented with amphotericin B at concentrations of 1, 5, and 10 μg/ml. The plates were incubated for 5, 10, and 15 h prior to cell growth analyses. C.

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