A novel plasmid-encoded transposon-derived small RNA reveals the mechanism of sRNA-regulated bacterial persistence

Small regulatory RNAs (sRNAs) in bacteria are crucial for controlling various cellular functions and provide immediate response to the environmental stresses. Antibiotic persistence is a phenomenon that a small subpopulation of bacteria survives under the exposure of a lethal concentration of antibiotics, potentially leading to the development of drug resistance in bacteria. Here, we reported a novel transposon-derived sRNA called stnpA, which can modulate fosfomycin persistence of the bacteria. The stnpA sRNA located in the transposon with its own promoter is highly conserved among the prevalent multidrug resistance (MDR) plasmids in various pathogenic bacteria and expressed in response to the fosfomycin stress. It can directly bind to the ABC transporter, YadG, whereas this protein–RNA interaction modulated the export of fosfomycin and led to the enhancement of bacterial persistence. According to our knowledge, stnpA is the first identified transposon-derived sRNA, which controlled antibiotic persistence of bacteria, and our work demonstrated that nonresistance genes on MDR plasmids such as plasmid-encoded sRNA can provide additional survival advantages to the bacterial host against the antibiotics. In addition, the stnpA sRNA can be potentially utilized as the druggable target for the development of novel therapeutic strategies to overcome bacterial persistence. IMPORTANCE This study unveils a groundbreaking discovery in the realm of bacterial antibiotic persistence, highlighting the pivotal role of a newly identified small RNA (sRNA) called stnpA, which is a multidrug resistance plasmid-encoded transposon-derived sRNA that interacts directly with ABC transporter YadG to modulate the efflux of fosfomycin. Our findings elucidate a novel mechanism of small RNA-regulated fosfomycin persistence in bacteria that provides the potential pathway for the emergence of drug resistance in bacteria upon antibiotic treatment. Importantly, this study provides the first example of linking sRNA regulation to ...