The Catestatin-Derived Peptides Are New Actors to Fight the Development of Oral Candidosis

Resistance to antifungal therapy of and non- strains, frequently associated with oral candidosis, is on the rise. In this context, host-defense peptides have emerged as new promising candidates to overcome antifungal resistance. Thus, the aim of this study was to assess the effectiveness against species of different Catestatin-derived peptides, as well as the combined effect with serum albumin. Among Catestatin-derived peptides, the most active against sensitive and resistant strains of . , and was the -isomer of Cateslytin ( -bCtl) whereas the efficiency of the -isomer ( -bCtl) significantly decreases against strains. Images obtained by transmission electron microscopy clearly demonstrated fungal membrane lysis and the leakage of the intracellular material induced by the -bCtl and -bCtl peptides. The possible synergistic effect of albumin on Catestatin-derived peptides activity was investigated too. Our finding showed that bovine serum albumin (BSA) when combined with the - isomer of Catestatin ( -bCts) had a synergistic effect against especially at low concentrations of BSA; however, no synergistic effect was detected when BSA interacted with -bCtl, suggesting the importance of the C-terminal end of -bCts (GPGLQL) for the interaction with BSA. In this context in vitro -bCtl, as well as the combination of BSA with -bCts are potential candidates for the development of new antifungal drugs for the treatment of oral candidosis due to and non- , without detrimental side effects.