Liposome evaluation in inhibiting pump efflux of NorA of Staphylococcus aureus

Liposomes, in addition to providing greater efficacy to antibiotics, decrease toxicity and increase selectivity. This work has as main objectives the sensitization of the need to solve bacterial resistance to antibiotics, addressing the potential of antibiotics carried by liposome. In the preparation of the liposomes, the lipids dipalmitoyl phosphatidylcholine (DPPC), dipalmitoyl phosphatidylserine (DPPS), and cholesterol (COL) with > 99% purity were used. The Staphylococcus aureus strains used were SA-1199B, which expresses the NorA gene encoding the NorA efflux protein, which expels hydrophilic fluoroquinolones and other drugs intercalating DNA dyes, and the wild strain SA-1199. The liposomes associated with antibiotics in the wild type of strain SA-1199 and the carrier strain of pump 1199B, had a better representation of growth inhibition than the wild type strain SA-1199. Given the potential for inhibition of efflux pump seen in the results, we highlight the creation of new drugs or alteration of existing drugs. They are not recognized by the efflux pumps and removed from the target cell.

Automated summary

Liposomes can enhance the efficacy of antibiotics, reduce toxicity, and increase selectivity. This study aims to raise awareness about the need to address bacterial resistance to antibiotics and explore the potential of antibiotics carried by liposomes. The experimental results indicate that liposomes associated with antibiotics have a better growth inhibition effect on strains containing the NorA gene compared to the wild type strain.