Influence of Excipients on the Antimicrobial Activity of Tobramycin Against Pseudomonas aeruginosa Biofilms
T Bahamondez-Canas, HDC Smyth - Pharmaceutical research, 2018 - Springer
Pharmaceutical research, 2018•Springer
Purpose It is unknown if inactive pharmaceutical ingredients influence the activity of
antibiotics they are co-formulated with. Recently it was found that materials acting as carbon
nutrient sources for bacteria can promote bacterial dispersion from a biofilm and/or reverse
the persister state of a subpopulation of bacteria within the biofilms. Both can make bacteria
more susceptible to antibiotics. Thus, the aim was to identify potential excipients to improve
antibiotic activity in Pseudomonas aeruginosa biofilms. Methods We screened 190 potential …
antibiotics they are co-formulated with. Recently it was found that materials acting as carbon
nutrient sources for bacteria can promote bacterial dispersion from a biofilm and/or reverse
the persister state of a subpopulation of bacteria within the biofilms. Both can make bacteria
more susceptible to antibiotics. Thus, the aim was to identify potential excipients to improve
antibiotic activity in Pseudomonas aeruginosa biofilms. Methods We screened 190 potential …
Purpose
It is unknown if inactive pharmaceutical ingredients influence the activity of antibiotics they are co-formulated with. Recently it was found that materials acting as carbon nutrient sources for bacteria can promote bacterial dispersion from a biofilm and/or reverse the persister state of a subpopulation of bacteria within the biofilms. Both can make bacteria more susceptible to antibiotics. Thus, the aim was to identify potential excipients to improve antibiotic activity in Pseudomonas aeruginosa biofilms.
Methods
We screened 190 potential excipients alone, and in combination with tobramycin sulfate against P. aeruginosa (strain PAO1) grown planktonically or as biofilms. After the excipient screening stage, we investigated the effect of 10 selected excipients against a more virulent strain (luminescent strain UCBPP-PA14). Temporal changes in luminescence, as an indicator of bacterial proliferation, and surviving colony forming units (CFUs) from the treated PA14 biofilms were quantified.
Results
Forty-eight materials tested caused a reduction of PAO1 proliferation either alone or combined with tobramycin. L-alanine (p < 0.05), D-alanine (p > 0.05), and N-acetyl-D-glucosaminitol (p > 0.05) improved the activity of tobramycin measured by PA14 luminometry. Additionally, L-alanine and succinic acid significantly reduced the survival of PA14 biofilms (p < 0.05).
Conclusions
L-alanine, succinic acid, and N-acetyl-D-glucosaminitol may be useful as antibiotic adjuvants in future tobramycin anti-biofilm formulations.
Springer
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