Iron chelation destabilizes bacterial biofilms and potentiates the antimicrobial activity of antibiotics against coagulase-negative Staphylococci

Objectives: The ability of certain bacteria to form biofilms underlies their capacity to cause medical device-associated infections. Most bacteria need the metal iron for their proliferation but also to form biofilms. The aim of this in vitro study was to investigate whether iron restriction upon application of the iron chelator deferiprone (DFP) impacts on Bacterial biofilm formation and whether such an intervention can exert synergistic effects towards the Antibacterial activity of three Antibiotic compounds against coagulase-negative staphylococci (CNS) residing on titanium plates.

Methods: Bacteria were seeded on titanium discs and cultured to obtain biofilms. Biofilms were then exposed to DFP and/or Antibiotic treatment with clindamycin, gentamycin or vancomycin. Fluorescence microscopy and scanning electron microscopy (SEM) were used for morphological analysis of the biofilms before and after treatment.

Results: Whereas DFP alone had only a moderate inhibitory effect on biofilm growth, the combination of DFP with the respective Antibiotics resulted in a significant decline of Bacterial numbers by two to three logs as compared to the effect of Antibiotics alone. Fluorescence staining and SEM demonstrated severe damage to even complete destruction of biofilms after combined treatment with DFP and Antibiotics that was not the case upon sole treatment with Antibiotics.

Conclusion: Iron chelation is able to potentiate the Antibacterial activity of conventional Antibiotics by destroying Bacterial biofilms that recommends this combination as a promising strategy for the treatment of chronic device infections with biofilm producing CNS.