Abstract

The molecular array of the outermost surface of bacteria and their physico-chemical characteristics modulate various functions which, when expressed in terms of the human environment, are generally known as factors of bacterial virulence. The present study investigated the ability of sub-MIC concentrations of cefodizime to interfere with the virulence factors of Escherichia coli. Bacterial adhesiveness to human epithelial cells was inhibited down to 1/32 x MIC of cefodizime, an antibiotic that is also capable of inducing the widespread production of filamentous forms at levels ranging from 1/2 to 1/8 x MIC. Given that this interfered with the correct evaluation of other virulence parameters, the study was extended to consider the effects of 1/16 to 1/128 x MIC. Sub-MIC concentrations of cefodizime inhibit haemagglutination, hydrophobicity and electrophoretic mobility, which are correlated with each other and provide clues relating to the physico-chemical characteristics of the outer surface. Cefodizime also reduces swarming. Phagocytosis was not affected but killing increased significantly. Oxidative bursts investigated by a chemiluminescence procedure were not modified. The interpolation of these pharmacodynamic findings with pharmacokinetic curves indicates that the effect of sub-MIC concentrations of cefodizime can prolong antimicrobial effects on virulence determinants up to 12 h after the antibiotic concentration has fallen below the MIC value.