Abstract
Studies of biofilm formation by bacteria are crucial for understanding bacterial resistance and for development of novel antibacterial strategies. We have developed a new bioluminescence biofilm assay for Listeria innocua, which is considered a non-pathogenic surrogate for Listeria monocytogenes. L. innocua was transformed with a plasmid for inducible expression of NanoLuc luciferase (Nluc). Concentration-dependent bioluminescence signals were obtained over a concentration range of more than three log units. This biofilm assay enables absolute quantification of bacterial cells, with the necessary validation. For biofilm detection and quantification, this “Nluc bioluminescence” method has sensitivity of 1.0 × 104 and 3.0 × 104 colony forming units (CFU)/mL, respectively, with a dynamic range of 1.0 × 104 to 5.0 × 107 CFU/mL. These are accompanied by good precision (coefficient of variation, <8%) and acceptable accuracy (relative error for most samples, <15%). This novel method was applied to assess temporal biofilm formation of L. innocua as a function of concentration of inoculant, in comparison with conventional plating and CFU counting, the crystal violet assay, and the resazurin fluorescence assay. Good correlation (r = 0.9684) of this Nluc bioluminescence assay was obtained with CFU counting. The limitations of this Nluc bioluminescence assay include genetic engineering of bacteria and relatively high cost, while the advantages include direct detection, absolute cell quantification, broad dynamic range, low time requirement, and high sensitivity. Nluc-based detection of L. innocua should therefore be considered as a viable alternative or a complement to existing methods.
Highlights
Biofilms are the predominant form of bacterial lifestyle that provide bacteria with resistance to adverse environmental conditions, including protection against antimicrobials and disinfectants
Heterologous expression of NanoLuc luciferase (Nluc) in L. innocua was confirmed by comparison of the bioluminescence of L. innocua containing the nluc gene and the control L. innocua containing the empty plasmid
Higher and concentration-dependent bioluminescence intensity was obtained with the Nluc-expressing L. innocua (Figure 1), which suggested that this bioluminescence can be used for specific determination of the Nluc-expressing L. innocua, and for determination of L. innocua concentrations
Summary
Biofilms are the predominant form of bacterial lifestyle that provide bacteria with resistance to adverse environmental conditions, including protection against antimicrobials and disinfectants (de la Fuente-Nunez et al, 2013). To combat the increasing occurrence of resistance to antimicrobials in bacteria, detailed understanding of biofilm formation is crucial. L. monocytogenes strains differ in their ability to form biofilms (Barbosa et al, 2013; Lee et al, 2019), and an interval of 105 to 108 colony forming units (CFU)/cm has been reported (ReisTeixeira et al, 2017). Similar biofilm forming ability was reported for L. monocytogenes and L. innocua (Costa et al, 2018); due to variability between strains this cannot be generalized
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