Abstract
In animal husbandry and livestock farming, with the spread of the plasmid-mediated MCR-1 gene, polymyxin E, as the last line of defense against drug-resistant Gram-negative bacteria, is facing severe challenges. This study investigated the in vitro and in vivo synergistic effects and mechanisms of QUE combined with polymyxin E against MCR-1-positive chicken E. coli JD37. In vitro experiments showed that QUE could restore the sensitivity of E. coli JD37 to polymyxin E (FIC = 0.34375) and enhance the bactericidal effect of polymyxin E by increasing cell membrane permeability, fluidity, and membrane potential, downregulating the expression of the AcrAB-TolC efflux pump and LPS-related genes. Molecular docking further identified the key residues for QUE binding to the MCR-1 protein. The in vivo chick infection model confirmed that combination therapy increased survival rates, reduced bacterial load in tissues, alleviated pathological damage, and decreased levels of intestinal inflammatory factors. Our results demonstrate the synergistic bactericidal effect of the QUE-polymyxin E combination against MCR-1-positive E. coli and elucidate its underlying mechanism.