Evaluation of Antibiotic Tolerance inPseudomonas aeruginosafor Aminoglycosides and its Predicted Gene Regulations Through In-silico Transcriptomic Analysis

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Abstract

Pseudomonas aeruginosa causes chronic infections like cystic fibrosis, endocarditis, bacteremia and sepsis, which are life-threatening and difficult to treat. The lack of antibiotic response in P. aeruginosa is due to adaptive resistance mechanism, which prevents the entry of antibiotics into cytosol of the cell to achieve tolerance. Among different groups of antibiotics, aminoglycosides are used as a parental antibiotic for treatment of P. aeruginosa . This study aims to determine the kinetics of antibiotic tolerance and gene expression changes in P. aeruginosa exposed to amikacin, gentamicin, and tobramycin. These antibiotics were exposed to P. aeruginosa at their MICs and the experimental setup was monitored till 72 hours, followed by the measurement of optical density in the interval of every 12 hours. The growth of P. aeruginosa in MICs of antibiotics represents the kinetics of antibiotic tolerance in amikacin, gentamicin, and tobramycin. Transcriptomic profile of antibiotic exposed P. aeruginosa PA14 was taken from Gene Expression Omnibus (GEO), NCBI as microarray datasets. The gene expressions of two datasets were compared by test versus control. Tobramycin exposed P. aeruginosa failed to develop tolerance in MICs 0.5µg/mL, 1µg/mL and 1.5µg/mL. Whereas amikacin and gentamicin treated P. aeruginosa developed tolerance in MICs. This depicts the superior in vitro response of tobramycin over the gentamicin and amikacin. Further, in silico transcriptomic analysis of tobramycin treated P. aeruginosa resulted in low expression of 16s rRNA Methyltransferase E, B & L, alginate biosynthesis genes and several proteins of Type 2 Secretory System (T2SS) and Type 3 Secretory System (T3SS). The Differentially Expressed Genes (DEGs) of alginate biosynthesis, and RNA Methyltransferases suggests increased antibiotic response and low probability of developing resistance. The use of tobramycin as a parental antibiotic with its synergistic combination might combat P. aeruginosa with increased response.

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License: CC-BY-4.0