Synergistic activity of rhamnolipid combined with linezolid against linezolid-resistantEnterococcus faecium

Abstract

AbstractEnterococci resistance is increasing sharply, which poses a serious threat to public health. Rhamnolipids are a kind of amphiphilic compound used for its bioactivities, while the combination of nontraditional drugs to restore linezolid activity is an attractive strategy to treat infections caused by these pathogens. This study aimed to investigate the activity of linezolid in combination with the rhamnolipids againstEnterococcus faecium. Here, we determined that the rhamnolipids could enhance the efficacy of linezolid against enterococci infections by a checkerboard MIC assay, a time-kill assay, a combined disk test, anti-biofilm assay, molecular simulation dynamics, and mouse infection models. We identified that the combination of rhamnolipids and linezolid restored the linezolid sensitivity. Anti-biofilm experiments show that our new scheme can effectively inhibit biofilm generation. The mouse infection model demonstrated that the combination therapy significantly reduced the bacterial load in the feces, colons and kidneys following subcutaneous administration. This study showed that rhamnolipids could play a synergistic role with linezolid againstEnterococcus.Our combined agents could be appealing candidates for developing new combinatorial agents to restore antibiotic efficacy in the treatment of linezolid-resistantEnterococcusinfections.HighlightThe identification of a potential inhibitor of LRE, RLS could restore the antibacterial activity of LNZ.A rational mechanism of synergism between LNZ and RLS.;;L;;RLS in combination with LNZ promote the egress of pathogenicE. faeciumfrom the intestinal tract of mice to reduce its colonization, which has obvious synergistic effects.