Inhibition of Candida glabrata Biofilm by Combined Effect of Dendritic Compounds and Amphotericin.
Natalia Gómez-CasanovaAlba Torres-CanoAlba Xiaohe Elias-RodriguezTania LozanoPaula OrtegaRafael Gómez-RamírezJorge Pérez-SerranoJosé Luis Copa-PatiñoIrene Heredero-BermejoPublished in: Pharmaceutics (2022)
In the last decade, Candida glabrata has become an important emerging opportunistic pathogen not only because of the increase in nosocomial infections frequency but also because of its ability to form biofilms and its innate resistance to commercial antifungals. These characteristics make this pathogen a major problem in hospital settings, including problems regarding equipment, and in immunosuppressed patients, who are at high risk for candidemia. Therefore, there is an urgent need for the development of and search for new antifungal drugs. In this study, the efficacy of two dendritic wedges with 4-phenyl butyric acid (PBA) at the focal point and cationic charges on the surface ArCO 2 G 2 (SNMe 3 I) 4 (1) and ArCO 2 G 3 (SNMe 3 I) 8 (2) was studied against C. glabrata strain to inhibit the formation of biofilms and eliminate established biofilm. For this, MBIC (minimum biofilm inhibitory concentration), MBDC (minimum biofilm damaging concentrations), as well as MFCB (minimum fungicidal concentration in biofilm) and MBEC (minimum biofilm eradicating concentration) were determined. In addition, different combinations of dendrons and amphotericin B were tested to study possible synergistic effects. On the other hand, cytotoxicity studies were performed. C. glabrata cells and biofilm structure were visualized by confocal microscopy. ArCO 2 G 2 (SNMe 3 I) 4 (1) and ArCO 2 G 3 (SNMe 3 I) 8 (2) dendrons showed both an MBIC of 8 mg/L and a MBDC of 32 mg/L and 64 mg/L, respectively. These dendrons managed to eradicate the entirety of an established biofilm. In combination with the antifungal amphotericin, it was possible to prevent the generation of biofilms and eradicate established biofilms at lower concentrations than those required individually for each compound at these conditions.