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Evaluation of gold complexes to address bacterial resistance, quorum sensing, biofilm formation, and their antiviral properties against Bacteriophages
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Advisor(s)
Abstract(s)
The worldwide increase in antibiotic resistance poses a significant challenge, and researchers are diligently seeking new drugs to combat infections and prevent bacterial pathogens from
developing resistance. Gold (I and III) complexes are suitable for this purpose. In this study, we tested
four gold (I and III) complexes, (1) chlorotrimethylphosphine gold(I); (2) chlorotriphenylphosphine
gold(I); (3) dichloro(2-pyridinecarboxylate) gold (III); and (4) 1,3-bis(2,6-diisopropylphenyl)imidazole2-ylidene gold(I) chloride, for their antibacterial, antibiofilm, antiviral, and anti-quorum sensing
activities. Results reveal that 1 significantly inhibits Escherichia coli DSM 1077 and Staphylococcus aureus
ATCC 6538, while 2, 3, and 4 only inhibit S. aureus ATCC 6538. The minimum inhibitory concentration
(MIC) of 1 for S. aureus ATCC 6538 is 0.59 µg/mL (1.91 µM), and for methicillin-resistant S. aureus
strains MRSA 12 and MRSA 15, it is 1.16 µg/mL (3.75 µM). For E. coli DSM 1077 (Gram-negative), the
MIC is 4.63 µg/mL (15 µM), and for multi-resistant E. coli I731940778-1, it is 9.25 µg/mL (30 µM).
Complex 1 also disrupts biofilm formation in E. coli and S. aureus after 6 h or 24 h exposure. Moreover,
1 and 2 inhibit the replication of two enterobacteria phages. Anti-quorum sensing potential still
requires further clarification. These findings highlight the potential of gold complexes as effective
agents to combat bacterial and viral infections.
Description
Keywords
Gold complexes Chlorotrimethylphosphinegold (I) Chlorotriphenylphosphinegold (I) Dichloro (2-pyridinecarboxylate) Au (III) 1,3-bis(2,6-diisopropylphenyl) imidazole-2-ylidene Au(I) chloride Antibacterial Antibiotic resistance Antibiofilm Anti-quorum sensing Antiviral
Citation
Toxics 11 (11): 879 (2023)
Publisher
MDPI