ABSTRACTTo study the effect of different tolerable levels of constitutive mcr-1 expression on Escherichia coli, and to provide direct evidence for moderate resistance mediated by mcr-1, construction of E. coli strains carrying mcr-1 on the chromosome with promoters of different strengths was conducted using λ-red recombination. Our results demonstrated that over-high expression of mcr-1 cannot be tolerated, and seven constructs with more than 200-fold mcr-1 transcriptional expression differences were obtained. The colistin MICs of the seven strains increased with the increase of MCR-1 levels, and the highest MIC was 8 μg/mL. Lower expression of mcr-1 didn’t demonstrate many effects on bacteria, while higher tolerable expression of mcr-1 tended to show fitness costs in growth rate, competitive ability, and cell structures, but no obvious change of virulence was observed in mice. Bacteria demonstrated colistin MICs of 4–8 μg/mL at mcr-1 expression levels similar to clinical isolates, which were the mcr-1 expression levels with relatively lower fitness costs.IMPORTANCE The effects of relatively lower tolerable levels of mcr-1 were not evaluated thoroughly, and direct evidence for moderate resistance mediated by mcr-1 was lacking. In the present study, we made constructs carrying mcr-1 on the E. coli K12 chromosome under the control of serial constitutive promoters of different strengths and studied the effects of different tolerable levels of mcr-1 expression in vitro and in vivo. The results demonstrated that generally, except QH0007 (the construct with the highest mcr-1 expression that showed some extent of cell death), the fitness costs of tolerable mcr-1 expression on bacteria were not apparent or low. Bacteria demonstrated colistin MICs of 4–8 μg/mL at mcr-1 expression levels similar to clinical isolates, which corresponded to the lower levels of mcr-1 expression that can lead to colistin resistance, indicating the cleverness of bacteria to balance the benefit and cost of MCR-1-mediated colistin resistance.