1. A Safe and Multitasking Antimicrobial Decapeptide: The Road from De Novo Design to Structural and Functional Characterization
- Author
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Marta Gogliettino, Bruna Agrillo, Marco Balestrieri, Rosarita Tatè, Gianna Palmieri, Yolande Therese Rose Proroga, and Luigi Nicolais
- Subjects
Keratinocytes ,Pore Forming Cytotoxic Proteins ,0301 basic medicine ,MDR Salmonella spp ,antimicrobial peptide ,030106 microbiology ,Antimicrobial peptides ,Food spoilage ,Article ,Catalysis ,lcsh:Chemistry ,Inorganic Chemistry ,Structure-Activity Relationship ,03 medical and health sciences ,Salmonella ,Humans ,Food microbiology ,Physical and Theoretical Chemistry ,lcsh:QH301-705.5 ,Molecular Biology ,Spectroscopy ,Minimum bactericidal concentration ,biology ,Chemistry ,antifungal activity ,Organic Chemistry ,General Medicine ,Fibroblasts ,biology.organism_classification ,Antimicrobial ,Anti-Bacterial Agents ,Computer Science Applications ,food pathogens ,Multiple drug resistance ,030104 developmental biology ,lcsh:Biology (General) ,lcsh:QD1-999 ,Biochemistry ,Antibacterial activity ,Oligopeptides ,food packaging ,Bacteria - Abstract
Antimicrobial peptides (AMPs) are excellent candidates to fight multi-resistant pathogens worldwide and are considered promising bio-preservatives to control microbial spoilage through food processing. To date, designing de novo AMPs with high therapeutic indexes, low-cost synthesis, high resistance, and bioavailability, remains a challenge. In this study, a novel decapeptide, named RiLK1, was rationally designed starting from the sequence of the previously characterized AMP 1018-K6, with the aim of developing short peptides, and promoting higher selectivity over mammalian cells, antibacterial activity, and structural resistance under different salt, pH, and temperature conditions. Interestingly, RiLK1 displayed a broad-spectrum of bactericidal activity against Gram-positive and Gram-negative bacteria, including multidrug resistant clinical isolates of Salmonella species, with Minimal Bactericidal Concentration (MBC) values in low micromolar range, and it was effective even against two fungal pathogens with no evidence of cytotoxicity on human keratinocytes and fibroblasts. Moreover, RiLK1-activated polypropylene films were revealed to efficiently prevent the growth of microbial spoilage, possibly improving the shelf life of fresh food products. These results suggested that de novo designed peptide RiLK1 could be the first candidate for the development of a promising class of decameric and multitask antimicrobial agents to overcome drug-resistance phenomena.
- Published
- 2020