Manuka honey treatment of biofilms of Pseudomonas aeruginosa
results in the emergence of isolates with increased honey resistance
7th Space, 5/12/2014
Medical grade manuka
honeys are well known to be efficacious against Pseudomonas aeruginosa being
bactericidal and inhibiting the development of biofilms; moreover manuka honey
effectively kills P. aeruginosa embedded within an established biofilm.
Sustained honey resistance has not been previously
documented for planktonic or biofilm P. aeruginosa.
Methods: Minimum inhibitory concentrations for manuka honey
and antibiotics were determined using broth micro-dilution methods.
Minimum biofilm eliminating concentrations (MBEC) and
biofilm biomass were determined using the crystal violet method. Sub-culture
used non-selective media and the grid-plate method.
Results: When honey treated biofilm biomass of two strains
of P. aeruginosa (reference strain ATCC 9027 and the clinical
isolate 867) were sub-cultured onto non-selective media isolates emerged that
exhibited reduced susceptibility to manuka honey. Significantly, this
characteristic was sustained with repeated sub-culture onto non-selective media
resulting in increased minimum inhibitory concentrations (MIC) of between 5-7%
(w/v) and increased minimum biofilm eliminating concentrations (MBEC) of up to
15% (w/v).
Interestingly the resistant isolates showed reduced
susceptibility to antibiotic treatment with rifampicin and imipenem as well as
being more prolific biofilm-formers than the progenitor strains.
Conclusions: P. aeruginosa biofilms treated with manuka
honey equivalent to the MBEC harbour slow growing, viable persistor organisms
that exhibit sustained, increased resistance to manuka honey and antibiotic
treatment, suggesting a shared mechanism of resistance.
This sheds new light on the propensity for biofilm embedded
organisms to resist honey treatment and become persistor organisms that are
tolerant to other antimicrobial therapies
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