In vitro and in vivo antifungal activity of two peptides with the same composition and different distribution

Candida albicans can cause local or systemic diseases when host immune status is disrupted. Drug resistance to C. albicans highlights the necessity of novel antifungal drugs. Antimicrobial peptides exhibit potential as antifungal drugs. PAF26 was found to exhibit favorable activity against plant pathogenic fungi. However, it showed low antifungal activity against C. albicans. Here, P255 and P256 with the same composition and different distribution were derived from PAF26. P256 exhibited higher antifungal activity against C. albicans than did P255 and PAF26. P256 and P255 exhibited synergism when combined with amphotericin B (AMB). Both peptides reduced cell wall integrity, rapidly increased membrane permeability, disrupted cell morphology and intracellular alterations. The peptides affected the expression of fungal DNA replication and repair, cell wall synthesis and ergosterol synthesis genes. They increased cellular reactive oxygen species production and bound with fungal genomic DNA. Antibiofilm activities were observed when peptide alone or combined with AMB. Finally, these peptides protected 70% of Galleria mellonella from infection-caused death. Insects treated with peptides exhibited fewer infection foci compared with the untreatment. These results demonstrate the therapeutic potential of the peptides, particularly P256 with clear amphipathicity, in the development of therapies for C. albicans infections.