Antibiofilm assay for antimicrobial peptides combating the sulfate‐reducing bacteria Desulfovibrio vulgaris

In medical, environmental, and industrial processes, the accumulation of bacteria in biofilms can disrupt many processes. Antimicrobial peptides (AMPs) are receiving increasing attention in the development of new substances to avoid or reduce biofilm formation. There is a lack of parallel testing of the effect against biofilms in this area, as well as in the testing of other antibiofilm agents. In this paper, a high‐throughput screening was developed for the analysis of the antibiofilm activity of AMPs, differentiated into inhibition and removal of a biofilm. The sulfate‐reducing bacterium Desulfovibrio vulgaris was used as a model organism. D. vulgaris represents an undesirable bacterium, which is considered one of the major triggers of microbiologically influenced corrosion. The application of a 96‐well plate and steel rivets as a growth surface realizes real‐life conditions and at the same time establishes a flexible, simple, fast, and cost‐effective assay. All peptides tested in this study demonstrated antibiofilm activity, although these peptides should be individually selected depending on the addressed aim. For biofilm inhibition, the peptide DASamP1 is the most suitable, with a sustained effect for up to 21 days. The preferred peptides for biofilm removal are S6L3‐33, in regard to bacteria reduction, and Bactenecin, regarding total biomass reduction. This study aimed to develop a fast and realistic antibiofilm assay for screening antimicrobial peptides (AMPs) for biocorrosive bacteria. Effective AMPs for both inhibition and removal of the biofilm could be identified and long‐term inhibition of biofilm was possible for up to 21 days.