amphotericin-b and geldanamycin

With a significant increase in the incidence of system invasive fungal infections, the limited antifungal drugs and increased frequency of cross-resistance make it necessary to explore new and effective therapeutic strategies. Combination drug therapy has become one widely used choice to alleviate this problem. Geldanamycin (GdA), as an inhibitor of Hsp90, displayed broad antifungal activity when combined with fluconazole. However, due to its cytotoxicity, the dose and duration of GdA is limited. In this study, we observed the effect of fluconazole plus GdA on

Topics: Amphotericin B; Antifungal Agents; Azoles; Benzoquinones; Candida tropicalis; Drug Resistance, Fungal; Fluconazole; Lactams, Macrocyclic; Microbial Sensitivity Tests; Mitochondria; Oxidative Stress; Reactive Oxygen Species

Candida albicans is the most common human fungal pathogen. Recent evidence has revealed the occurrence of apoptosis in C. albicans that is inducible by environmental stresses such as hydrogen peroxide, acetic acid, and amphotericin B. Apoptosis is regulated by the calcineurin-caspase pathway in C. albicans, and calcineurin is under the control of Hsp90 in echinocandin resistance. However, the role of Hsp90 in apoptosis of C. albicans remains unclear. In this study, we investigated the role of Hsp90 in apoptosis of C. albicans by using an Hsp90-compromised strain tetO-HSP90/hsp90 and found that upon apoptotic stimuli, including hydrogen peroxide, acetic acid or amphotericin B treatment, less apoptosis occurred, less ROS was produced, and more cells survived in the Hsp90-compromised strain compared with the Hsp90/Hsp90 wild-type strain. In addition, Hsp90-compromised cells were defective in up-regulating caspase-encoding gene CaMCA1 expression and activating caspase activity upon the apoptotic stimuli. Investigations on the relationship between Hsp90 and calcineurin revealed that activation of calcineurin could up-regulate apoptosis but could not further down-regulate apoptosis in Hsp90-compromised cells, indicating that calcineurin was downstream of Hsp90. Hsp90 inhibitor geldanamycin (GdA) could further decrease the apoptosis in calcineurin-pathway-defect strains, indicating that compromising Hsp90 function had a stronger effect than compromising calcineurin function on apoptosis. Collectively, this study demonstrated that compromised Hsp90 reduced apoptosis in C. albicans, partially through downregulating the calcineurin-caspase pathway.

Topics: Acetic Acid; Amphotericin B; Antifungal Agents; Apoptosis; Benzoquinones; Calcineurin; Candida albicans; Caspases; Doxycycline; Enzyme Activation; Fungal Proteins; HSP90 Heat-Shock Proteins; Humans; Hydrogen Peroxide; Intracellular Space; Lactams, Macrocyclic; Microscopy, Confocal; Signal Transduction