Trichosporon inkin biofilms produce extracellular proteases and exhibit resistance to antifungals

R de Aguiar Cordeiro, R Serpa… - Journal of medical …, 2015 - microbiologyresearch.org
R de Aguiar Cordeiro, R Serpa, C Flávia Uchoa Alexandre, FJ de Farias Marques…
Journal of medical microbiology, 2015microbiologyresearch.org
The aim of this study was to determine experimental conditions for in vitro biofilm formation
of clinical isolates of Trichosporon inkin, an important opportunistic pathogen in
immunocompromised patients. Biofilms were formed in microtitre plates in three different
media (RPMI, Sabouraud and CLED), with inocula of 104, 105 or 106 cells ml− 1, at pH 5.5
and 7.0, and at 35 and 28° C, under static and shaking conditions for 72 h. Growth kinetics of
biofilms were evaluated at 6, 24, 48 and 72 h. Biofilm milieu analysis were assessed by …
The aim of this study was to determine experimental conditions for in vitro biofilm formation of clinical isolates of Trichosporon inkin, an important opportunistic pathogen in immunocompromised patients. Biofilms were formed in microtitre plates in three different media (RPMI, Sabouraud and CLED), with inocula of 104, 105 or 106 cells ml− 1, at pH 5.5 and 7.0, and at 35 and 28 °C, under static and shaking conditions for 72 h. Growth kinetics of biofilms were evaluated at 6, 24, 48 and 72 h. Biofilm milieu analysis were assessed by counting viable cells and quantification of nucleic acids released into biofilm supernatants. Biofilms were also analysed for proteolytic activity and antifungal resistance against amphotericin B, caspofungin, fluconazole, itraconazole and voriconazole. Finally, ultrastructural characterization of biofilms formed in microtitre plates and catheter disks was performed by scanning electron microscopy. Greater biofilm formation was observed with a starter inoculum of 106 cells ml− 1, at pH 7.0 at 35 °C and 80 r.p.m., in both RPMI and Sabouraud media. Growth kinetics showed an increase in both viable cells and biomass with increasing incubation time, with maximum production at 48 h. Biofilms were able to disperse viable cells and nucleic acids into the supernatant throughout the developmental cycle. T. inkin biofilms produced more protease than planktonic cells and showed high tolerance to amphotericin B, caspofungin and azole derivatives. Mature biofilms were formed by different morphotypes, such as blastoconidia, arthroconidia and hyphae, in a strain-specific manner. The present article details the multicellular lifestyle of T. inkin and provides perspectives for further research.
Microbiology Research
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