Abstract
Mechanisms underlying the emergence of daptomycin resistance in Staphylococcus aureus remain unclear. In this study, Staphylococcus aureus strain 3d0, isolated from a patient with bloodstream infection and belonging to the predominant Chinese hospital-associated methicillin-resistant S. aureus (MRSA) clone ST239, was serially passaged on gradient broth containing daptomycin for 34 days. The whole genomes of 3d0 and its serial passage strains were sequenced and compared. Five single nucleotide polymorphisms, four IS256 insertions, and one 39-bp insert occurred in the progress of daptomycin resistance acquisition. IS256 insertion in the mprF promoter region resulted in mprF overexpression. Two novel point mutations in mprF and walK, leading to amino acid substitutions in MprF (G299V and L473I) and WalK (L7Q and Y225N), were shown by allelic replacement experiments to increase the minimum inhibitory concentration (MIC) of daptomycin by 2-4 times. Allelic replacement of both mprF and walK in strain 3d0 increased the daptomycin MIC by 4-8-fold, indicating that mprF and walK mutations synergistically contribute to daptomycin non-susceptibility. Notably, these mutants acquired resistance without losing fitness and exhibited decreased expression of cell wall degradation-related genes. In conclusion, this study revealed novel mutations of MRSA daptomycin resistance acquisition in vitro as well as several novel mutations in walK and mprF, and includes the first in-depth analysis of the mprF promoter. This study sheds light on how MRSA may acquire daptomycin resistance during daptomycin treatment.
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