Abstract
Introduction and Aim: Pseudomonas aeruginosa is a nosocomial infection with an ability to develop high levels of antibiotic resistance. The efflux pump system is one of the mechanisms that is linked to multidrug resistance in P. aeruginosa. In this study, we employed siRNA loaded on gold nanoparticles against the MexA efflux pump gene to decrease the MexA gene expression in P. aeruginosa and estimated antibiotic resistance after gene silencing. Materials and Methods: This study examined four strains of P. aeruginosa isolated from patients in various hospitals in Baghdad. Bacteria isolated were identified by biochemical tests and Vitek compact 2 system. Single-stranded siRNA (33bp) designed in this study was loaded onto gold nanoparticles (AuNPls). Detection of the MexA gene was carried out by conventional PCR technique. The expression of MexA gene was examined by qRT-PCR in order to determine if the siRNA have impacted on MexA gene expression and on the antibiotic resistance in aeruginosa Results: This study showed that the mRNA expression level of the MexA gene exhibited a decrease in fold change CT -2 in P. aeruginosa (isolates numbers 67, 66,49, and PDR(5p)) when examined in vitro. The specific fold change values observed were (0.202, 0.040, 0.063, and 0.163) respectively. The resistance percentages of antibiotics tested was observed to increase after MexA gene silencing. Conclusion: Targeting the MexA gene with synthetic siRNA may be a unique approach to diminish P. aeruginosa resistance to antibiotics. However, many unexpected consequences may occur when utilizing any genetic manipulation in bacteria.
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