Antimicrobial Nanoparticles Composed of Zein and Arginine-Phenylalanine-Based Surfactants for Wound Related Infections: Antioxidant and Skin-Related Anti-Enzymatic Activities and Toxicity

: Cationic surfactants are potential antimicrobial candidates. Even so, they are the foremost irritative and incompatible group, which limits their usage. The incorporation of surfactants in biopolymer-based nanoparticles is a feasible strategy to improve their efficacy and reduce those drawbacks. :...

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Bibliographic Details
Published in:Antibiotics (Basel) 2024-12, Vol.13 (12), p.1149
Main Authors: Sousa, Francisco Fábio Oliveira de, Hafidi, Zakaria, García, María Teresa, Moran, Maria Del Carmen, Vazquez, Sergio, Pérez, Lourdes
Format: Article
Language:English
Subjects:
Amino acids
Antimicrobial activity
Antimicrobial agents
Antioxidants
Arginine
Bacteria
Biocides
Biofilms
Biological activity
Biological properties
Biopolymers
Cell lines
Collagenase
Connective tissues
Cytotoxicity
Elastase
Enzymatic activity
Enzyme inhibitors
Enzymes
Gram-negative bacteria
Gram-positive bacteria
Health aspects
Keratinocytes
Lipoxygenase
Membranes
Microorganisms
Nanoparticles
Nosocomial infections
Phenylalanine
Skin
Surface active agents
Surfactants
Systems stability
Toxicity
Tyrosinase
Wound infection
Yeasts
Zein
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Summary:: Cationic surfactants are potential antimicrobial candidates. Even so, they are the foremost irritative and incompatible group, which limits their usage. The incorporation of surfactants in biopolymer-based nanoparticles is a feasible strategy to improve their efficacy and reduce those drawbacks. : Surfactants with one amino acid on the polar head (lauroyl arginine methyl ester-LAM and phenylalanine dodecyl amide-PNHC ) and surfactants with two amino acids on the polar heads, arginine-phenylalanine (Lauroyl phenylalanine arginine methyl esther-C PAM and phenylalanine-arginine dodecyl amide-PANHC ) were loaded to zein nanoparticles. Their antimicrobial and antibiofilm activities were evaluated. Also, the inhibitory activities of the surfactants and nanoparticles over skin-related enzymes were accessed in silico and in vitro, while their cytotoxicity was determined comparatively over immortal human keratinocytes (HaCaT) and human fibroblasts (3T3). Finally, the luminescence reduction test was used to detect its ecotoxicity. : The nanoparticles were obtained successfully and exhibited good biocide activity against a wide range of pathogenic bacteria and yeasts. The surfactants were found active over the enzymes assayed: elastase > tyrosinase > collagenase > lipoxygenase, while the inhibitory activity was superior when nanoencapsulated over the enzymes tyrosinase and lipoxygenase. The surfactants and their corresponding nanoparticles presented acceptable cytotoxic levels, except for PNHC in both forms, while their ecotoxicity was limited and acceptable. : Accordingly, the nanoencapsulation of the arginine-phenylalanine surfactants loaded to zein nanoparticles was found to be a smart strategy to enhance the antimicrobial activity and improve their selectivity over representative skin and connective tissues cell lines. These biological properties render the arginine-phenylalanine surfactant nanoparticles as promising candidates for antimicrobial and tissue repairing applications in wound treatments.
ISSN:2079-6382
2079-6382
DOI:10.3390/antibiotics13121149