10.6084/m9.figshare.3492761.v1 Alberto Vitali Alberto Vitali Elisabetta Vavala Elisabetta Vavala Valeria Marzano Valeria Marzano Claudia Leone Claudia Leone Massimo Castagnola Massimo Castagnola Federica Iavarone Federica Iavarone Letizia Angiolella Letizia Angiolella Cell wall composition and biofilm formation of azoles-susceptible and -resistant <i>Candida glabrata</i> strains Taylor & Francis Group 2016 Proteomic Cell wall Drug-resistance Adherence Biofilm Hydrophobicity Polysaccharides Candida glabrata 2016-07-20 13:31:29 Journal contribution https://tandf.figshare.com/articles/journal_contribution/Cell_wall_composition_and_biofilm_formation_of_azoles-susceptible_and_-resistant_i_Candida_glabrata_i_strains/3492761 <p>In the present study, three strains of <i>Candida glabrata</i> have been investigated to shed light on the mechanisms involved in azole resistance during adherence and biofilm formation. In particular, a clinical isolate, susceptible to azole-based drugs, DSY562 and two different resistant mutagenic strains deriving from DSY562, SFY114 and SFY115, have been analysed with different approaches for their cell wall composition and properties. A proteomic analysis revealed that the expression of six cell wall-related proteins and biofilm formation varied between the strains. The SFY114 and SFY115 strains resulted to be less hydrophobic than the susceptible parental counterpart DSY562, on the other hand they showed a higher amount in total cell wall polysaccharides fraction in the total cell wall. Accordingly to the results obtained from the hydrophobicity and adherence assays, in the resistant strain SFY115 the biofilm formation decreased compared to the parental strain DSY562. Finally, the total glucose amount in resistant SFY115 was about halved in comparison to other strains. Taken together all these data suggest that azole drugs may affect the cell wall composition of <i>C. glabrata</i>, in relation to the different pathogenic behaviours.</p>