Synthesis, antimicrobial and antibiofilm activities of silver(I) complexes with N-alkylbenzimidazole derivatives and their protein interaction modelling study

Synthesis, antimicrobial and antibiofilm activities of silver(I) complexes with N-alkylbenzimidazole derivatives and their protein interaction modelling study

•Synthesis of bis(N-alkylbenzimidazole)silver(I) nitrate.•Antimicrobial activities.•Antibiofilm activities.•Molecular docking study to understand the mechanisms of action. This study investigates the antimicrobial and antibiofilm potential of three silver(I) complexes derived from N-alkylbenzimidazo...

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Bibliographic Details
Published in:Journal of molecular structure Vol. 1322; p. 140440
Main Authors: Şahin, Neslihan, Mosrati, Mohamed Ali, Merghni, Abderrahmen, Özdemir, İsmail, Sellami, Hayet, Bedchiche, Kawther, Krayiem, Salim, Aifa, Sami, Abdelmalek, Dorra, Sémeril, David
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2025
Subjects:
Antibacterial
Antibiofilm
Molecular docking
Protein interaction model
Silver complex
Protein interaction model
Antibiofilm
Antibacterial
Molecular docking
Silver complex
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Summary:•Synthesis of bis(N-alkylbenzimidazole)silver(I) nitrate.•Antimicrobial activities.•Antibiofilm activities.•Molecular docking study to understand the mechanisms of action. This study investigates the antimicrobial and antibiofilm potential of three silver(I) complexes derived from N-alkylbenzimidazole derivatives: bis[(Z)-1-styryl-benzimidazole]silver(I) nitrate (4), bis[(E)-1-styryl-benzimidazole]silver(I) nitrate (5), and bis(1-cinnamyl-benzimidazole)silver(I) nitrate (6). Detailed synthesis and characterization of these complexes are followed by assessments of their efficacy against Staphylococcus aureus, Enterococcus faecalis, Pseudomonas aeruginosa, Escherichia coli, and Candida albicans. Among the tested compounds, complex 6 exhibited the highest antimicrobial activity, with a minimal inhibitory concentration of 6µmol/L against P. aeruginosa, and significant antibiofilm activity, achieving 67.72 % inhibition at a concentration of 3 µmol/L. These interesting findings led us to conduct a molecular docking study to understand the mechanisms of action by investigating the interactions between the silver(I) complexes and some key protein targets involved in bacterial and fungal biofilm formation, including (p)ppGpp synthetase/hydrolases, FtsZ proteins, and pyruvate kinases. This comprehensive approach, combining experimental and computational analyses derived from N-alkylbenzimidazole derivatives, particularly complex 6, which exhibits remarkable efficacy against various pathogens, reveals promising therapeutic applications of these silver(I) complexes and advances our understanding of their potential mode of action against biofilm-associated infections. [Display omitted]
ISSN:0022-2860
DOI:10.1016/j.molstruc.2024.140440