ILANIT 2020

Sub-inhibitory membrane damage undermines Staphylococcus aureus virulence

Ayelet Hershkovits Igor Pozdnyakov Ohad Meir Amram Mor
Department of Biotechnology and Food Engineering, Technion, Israel

We investigated antibacterial properties of a recently described membrane-active lipopeptide, C10OOc12O (decanoyl-ornithyl-ornithyl-dodecanoyl-ornithyl-amide) against Gram-positive bacteria (GPB). Minimal inhibitory concentrations (MICs) and kinetics were compared in culture media and plasma. Chemo-sensitization to antibiotics was determined using the checkerboard assay. Membrane damages were estimated using diverse membrane potential sensitive dyes. ATP levels and relevant enzymes activities were measured using commercial bioassay kits.

While relatively weakly active in simple culture media, sub-MIC levels (~ ten-fold) of C10OOc12O have significantly improved the antibacterial function of Human plasma. Mechanistic studies indicated that C10OOc12O-treated bacteria have sustained mild membrane damage(s) in association with rapid (within 2min) but low (<10%) dissipation of the trans-membrane potential; Intracellular ATP levels were transiently reduced (~20%) whereas extracellular ATP increased only at MIC values; Sub-inhibitory concentrations were sufficient for inhibiting major agr-regulated virulence factors (lipase and α-toxin) and for sensitizing MRSA USA300 to the antibiotic oxacillin to the point of reverting the bacteria status from oxacillin-resistant to oxacillin-sensitive (i.e., oxacillin MIC was reduced from 32 to 0.1 mg/L).

These findings argue that by means of mild depolarization, C10OOc12O affects the quorum sensing regulator in a manner that transiently weakens bacterial defenses, thereby enforcing studies that support the potential usefulness of fighting S. aureus (and possibly other GPB) infections, by targeting its virulence.









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