Candida albicans has emerged as a major public health problem in recent decades.The most important contributing factor is the rapid increase in resistance to conventional drugs worldwide. Synthetic antimicrobial peptides (SAMPs) have attracted substantial attention as alternatives and/or adjuvants in therapeutic treatments due to their strong activity at low concentrations without apparent toxicity. Here, two SAMPs, named Mo-CBP 3 -PepI (CPAIQRCC) and Mo-CBP 3 -PepII (NIQPPCRCC), are described, bioinspired by Mo-CBP 3 , which is an antifungal chitin-binding protein from Moringa oleifera seeds. Furthermore, the mechanism of anticandidal activity was evaluated as well as their synergistic effects with nystatin. Both peptides induced the production of reactive oxygen species (ROS), cell wall degradation, and large pores in the C. albicans cell membrane. In addition, the peptides exhibited high potential as adjuvants because of their synergistic effects, by increasing almost 50-fold the anticandidal activity of the conventional antifungal drug nystatin. These peptides have excellent potential as new drugs and/or adjuvants to conventional drugs for treatment of clinical infections caused by C. albicans.
K E Y W O R D Santicandidal action, Candida albicans, cell wall rupture, Mo-CBP 3 peptides, pore formation, synthetic antimicrobial peptide
Background
Dermatophytes belonging to the Trichophyton genus are important human pathogens, but they have developed resistance to griseofulvin, the most common antifungal drug used to treat dermatophytosis.
Objective
This study was aimed to evaluate the antidermatophytic activity of synthetic peptides, as well as mechanisms of action and synergistic effect with griseofulvin.
Methods
Scanning electron microscopy (SEM), atomic force microscopy (AFM) and fluorescence microscopy (FM) were employed to understand the activity and the mechanism of action of peptides.
Results
Here we report that synthetic peptides at 50 μg/mL, a concentration 20‐fold lower than griseofulvin, reduced the microconidia viability of T. mentagrophytes and T. rubrum by 100%, whereas griseofulvin decreased their viability by only 50% and 0%, respectively. The action mechanism of peptides involved cell wall damage, membrane pore formation and loss of cytoplasmic content. Peptides also induced overproduction of reactive oxygen species (ROS) and enhanced the activity of griseofulvin 10‐fold against both fungi, suggesting synergistic effects, and eliminated the toxicity of this drug to human erythrocytes. Docking analysis revealed ionic and hydrophobic interactions between peptides and griseofulvin, which may explain the decline of griseofulvin toxicity when mixed with peptides.
Conclusion
Therefore, our results strongly suggest six peptides with high potential to be employed alone as new drugs or as adjuvants to enhance the activity and decrease the toxicity of griseofulvin.
Hospital-acquired infections caused by antibiotic-resistant bacteria threaten the lives of many citizens all over the world. Discovery of new agents to hinder bacterial development would have a significant impact on the treatment of infections. Here, the purification and characterization of Rc-2S-Alb, a protein that belongs to the 2S albumin family, from Ricinus communis seed cake, are reported. Rc-2S-Alb was purified after protein extraction with Tris-HCl buffer, pH 7.5, fractionation by ammonium sulfate (50-75%), and chromatography on Phenyl-Sepharose and DEAE-Sepharose. Rc-2S-Alb, a 75 kDa peptide, displays trypsin inhibitory activity and has high in vitro antibacterial activity against Bacillus subtilis, Klebsiella pneumonia, and Pseudomonas aeruginosa, which are important human pathogenic bacteria. Atomic force microscopy studies indicated that Rc-2S-Alb disrupts the bacterial membrane with loss of the cytoplasm content and ultimately bacterial death. Therefore, Rc-2S-Alb is a powerful candidate for the development of an alternative drug that may help reduce hospital-acquired infections.
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