The anti-virulence activity of the non-mevalonate pathway inhibitor FR900098 towards Burkholderia cenocepacia is maintained during experimental evolution

Abstract

Burkholderia cenocepacia infections are difficult to treat and there is an urgent need for alternative (combination) treatments. The use of anti-virulence therapies in combination with antibiotics is a possible strategy to increase the antimicrobial susceptibility of the pathogen and to slow down the development of resistance. In the present study we evaluated the β-lactam and colistin-potentiating activity, and anti-virulence effect of the non-mevalonate pathway inhibitor FR900098 against B. cenocepacia in various in vitro and in vivo models. In addition, we evaluated whether repeated exposure to FR900098 alone or when combined with ceftazidime leads to increased resistance. FR900098 potentiated the activity of colistin and several β-lactam antibiotics (aztreonam, cefepime, cefotaxime, ceftazidime, mecillinam and piperacillin) but not of imipenem and meropenem. When used alone or in combination with ceftazidime, FR900098 increased the survival of infected Galleria mellonella and Caenorhabditis elegans. Furthermore, combining ceftazidime with FR900098 resulted in a significant inhibition of the biofilm formation of B. cenocepacia . Repeated exposure to FR900098 in the C. elegans infection model did not lead to decreased activity, and the susceptibility of the evolved B. cenocepacia HI2424 lineages to ceftazidime, FR900098 and the combination of both remained unchanged. In conclusion, FR900098 reduces B. cenocepacia virulence and potentiates ceftazidime in an in vivo C. elegans model, and this activity is not lost during the experimental evolution experiment carried out in the present study.