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Bactericidal Efficacy of the Combination of Maresin-like Pro-resolving Mediators and Carbenicillin Action on Biofilm-Forming Burn-Trauma Infection Related Bacteria
Thamizhchelvan, A. M., Masoud, A. R., Su, S., Lu, Y., Peng, H., Kobayashi, Y., ... & Hong, S. (2024). Bactericidal Efficacy of the Combination of Maresin-like Proresolving Mediators and Carbenicillin Action on Biofilm-Forming Burn Trauma Infection-Related Bacteria. International Journal of Molecular Sciences, 25(5), 2792.
Thamizhchelvan, A. M., Masoud, A. R., Su, S., Lu, Y., Peng, H., Kobayashi, Y., ... & Hong, S. (2024). Bactericidal Efficacy of the Combination of Maresin-like Proresolving Mediators and Carbenicillin Action on Biofilm-Forming Burn Trauma Infection-Related Bacteria. International Journal of Molecular Sciences, 25(5), 2792.
Thamizhchelvan, A. M., Masoud, A. R., Su, S., Lu, Y., Peng, H., Kobayashi, Y., ... & Hong, S. (2024). Bactericidal Efficacy of the Combination of Maresin-like Proresolving Mediators and Carbenicillin Action on Biofilm-Forming Burn Trauma Infection-Related Bacteria. International Journal of Molecular Sciences, 25(5), 2792.
Thamizhchelvan, A. M., Masoud, A. R., Su, S., Lu, Y., Peng, H., Kobayashi, Y., ... & Hong, S. (2024). Bactericidal Efficacy of the Combination of Maresin-like Proresolving Mediators and Carbenicillin Action on Biofilm-Forming Burn Trauma Infection-Related Bacteria. International Journal of Molecular Sciences, 25(5), 2792.
Abstract
Biofilm-associated bacterial infections are the major reason for treatment failure in many diseases including burn trauma infections. Uncontrolled inflammation induced by bacteria leads to materiality, tissue damage and chronic diseases. Specialized proresolving mediators (SPMs), including maresin-like lipid mediators (MarLs), are enzymatically biosynthesized from omega-3 essential long-chain polyunsaturated fatty acids, especially docosahexaenoic acid (DHA) by macrophages and other leukocytes. SPMs exhibit strong inflammation-resolving activities, especially inflammation provoked by bacterial infection. In this study, we explored the potential direct inhibitory activities of three MarLs on gram-positive (Staphylococcus aureus) and gram-negative (Pseudomonas aeruginosa and Escherichia coli) bacteria in their biofilms that are leading bacteria in burn trauma related infections. We also examined the effects of MarLs on the bactericidal activities of a typical broad-spectrum antibiotics carbenicillin on these bacteria in their preformed biofilms. The results revealed that MarLs combined with carbenicillin can inhibit the survival of gram-positive and gram-negative bacteria in their biofilms although MarLs alone did not exhibit bactericidal activity. Thus, our findings suggest that the combination of MarLs and carbenicillin can lower the antibiotic requirements to kill the bacteria in preformed biofilms.
Medicine and Pharmacology, Medicine and Pharmacology
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