Abstract
BackgroundWound-related infection remains a major challenge for health professionals. One disadvantage in conventional antibiotics is their inability to penetrate biofilms, the main protective strategy for bacteria to evade irradiation. Previously, we have shown that synthetic antimicrobial peptides could inhibit bacterial biofilms formation.ResultsIn this study, we first delineated how Nal-P-113, a novel antimicrobial peptide, exerted its inhibitory effects on Porphyromonas gingivalis W83 biofilms formation at a low concentration. Secondly, we performed gene expression profiling and validated that Nal-P-113 at a low dose significantly down-regulated genes related to mobile and extrachromosomal element functions, transport and binding proteins in Porphyromonas gingivalis W83.ConclusionsThese findings suggest that Nal-P-113 at low dose is sufficient to inhibit the formation of biofilms although Porphyromonas gingivalis W83 may maintain its survival in the oral cavity. The newly discovered molecular pathways may add the knowledge of developing a new strategy to target bacterial infections in combination with current first-line treatment in periodontitis.
Highlights
ObjectivesWe aimed to determine the effects of different concentrations of Nal-P-113 in biofilms formation
Wound-related infection remains a major challenge for health professionals
With an increase in aging population, the problem becomes more critical because elderly patients have compromised immune systems which predispose them to a higher risk of contracting bacterial infections
Summary
We aimed to determine the effects of different concentrations of Nal-P-113 in biofilms formation
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