The relationship between biofilm formation and RpoS status was assessed in nine field isolates of C. sakazakii. Their ability to form biofilms was studied in BHI and minimum media with different pH values and supplemented or not with the amino acids arginine, lysine and glutamic acid. Biofilm formation, both on polystyrene and stainless steel, was measured by spectrometric determination of the fixed crystal violet and the biofilms were visualized by confocal laser scanning microscopy and scanning electron microscopy. Despite the existing heterogeneity among the different strains, biofilm formation was generally higher in buffered minimum media (pH 7.0) supplemented with lysine than in other culture media and on stainless steel plates than on polystyrene. The results showed a lower ability to form biofilms for a strain with a loss-of-function mutation in the rpoS gene, the general stress response regulator of Gram-negative bacteria, when compared to the rest of the strains, which harboured a functional rpoS. The complementation of this strain with a functional rpoS gene resulted in an increase in its biofilm formation ability up to levels comparable to those observed for strains with a functional rpoS. However, the differences were markedly reduced when the incubation time was increased from 24 to 48 h, indicating that the loss of RpoS caused a delay in the development of mature biofilms, rather than a complete inhibition of biofilm production in C. sakazakii.
Keywords: Biofilms; Cronobacter sakazakii; Stress response; rpoS.
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