It is noteworthy that all the three peptides exhibited an activity higher than Tobramycin. This observation
is even more evident when considering the molar concentration (μM) of each compound rather than that by weight (μg/ml), given that the peptides tested are at least six folds heavier than Tobramycin. see more The poor activity showed by Tobramycin is Nepicastat ic50 probably due to the experimental conditions used in this study, as suggested by comparative evaluation of MIC values observed in both “CF-like” and CLSI-recommended conditions. On the contrary, the activity of AMPs tested resulted to be slightly enhanced (BMAP-28), unaffected (BMAP-27), or slightly reduced [P19(9/B)] in “CF-like” conditions, compared to CLSI-recommended ones, so they can be considered to be quite robust and medium insensitive. MBC/MIC ratio clearly indicated that all AMPs exert a bactericidal effect against the CF isolates, in agreement with
the known capability of BMAP-27, BMAP-28 and P19(B/9) to kill target cells by rapid permeabilization of their membranes [28]. Results of killing kinetic assays confirmed this mode of action, although bactericidal activity against S. aureus and S. maltophilia was strain-dependent. Again, the potency of AMPs was overall comparable or higher than that showed by Tobramycin. Vistusertib price Due to the different mechanism of action showed by AMPs and Tobramycin, we investigated the potential synergy between them. Interestingly, Tobramycin exhibited synergy with both BMAP-27 and P19(9/B) against planktonic S. aureus Sa4
and Sa10 strains, both resistant to Tobramycin, thus suggesting that at least in these cases both AMPs may overcome resistance to Tobramycin by facilitating the internalization of the aminoglycoside into the bacterial cells. Further studies on a more representative Sclareol number of S. aureus strains will be mandatory to understand the mechanism of this synergy and the feasibility to use these AMPs in association with traditional antibiotic treatments. Within the CF lung, pathogens cells grow as biofilms, which are inherently recalcitrant to antimicrobial treatment and host response [32]. Even worse, it has recently been reported that some antibiotics may even stimulate biofilm formation at subinhibitory concentrations [7]. Biofilm resistance is mainly due to the slow growth rate and low metabolic activity of bacteria in such community. For these reasons, AMPs whose mechanism of action makes them active also on non-growing bacteria, should be able to efficiently inhibit or prevent biofilm formation. Our results in fact indicate that the three α-helical peptides were all able to reduce biofilm formation, although generally at a less extent than Tobramycin. In particular, all peptides reduced the capacity of P. aeruginosa, S. maltophilia and S. aureus to form biofilms when used at sub-inhibitory concentrations, with the strongest effects at about 1/2xMIC values, while Tobramycin was efficacious also at lower concentrations (1/4x, and 1/8x MIC).