Resistance of clinical strains of to aminoglycosides can result from production of transferable aminoglycoside-modifying enzymes, of 16S rRNA methylases, and/or mutational derepression of intrinsic multidrug efflux pump MexXY(OprM). We report here the characterization of a new type of mutant that is 4- to 8-fold more resistant to 2-deoxystreptamine derivatives (e.g., gentamicin, amikacin, and tobramycin) than the wild-type strain PAO1. The genetic alterations of three mutants were mapped on and found to result in single amino acid substitutions in domains II, III, and V of elongation factor G (EF-G1A), a key component of translational machinery. Transfer of the mutated alleles into PAO1 reproduced the resistance phenotype. Interestingly, mutants with other amino acid changes in domains G, IV, and V of EF-G1A were identified among clinical strains with decreased susceptibility to aminoglycosides. Allelic-exchange experiments confirmed the relevance of these latter mutations and of three other previously reported alterations located in domains G and IV. Pump MexXY(OprM) partly contributed to the resistance conferred by the mutated EF-G1A variants and had additive effects on aminoglycoside MICs when mutationally upregulated. Altogether, our data demonstrate that cystic fibrosis (CF) and non-CF strains of can acquire a therapeutically significant resistance to important aminoglycosides via a new mechanism involving mutations in elongation factor EF-G1A.
Pseudomonas aeruginosa displays an impressive metabolic versatility, which ensures its survival in diverse environments. Reported herein is the identification of rare azetidine‐containing alkaloids from P. aeruginosa PAO1, termed azetidomonamides, which are derived from a conserved, quorum‐sensing regulated nonribosomal peptide synthetase (NRPS) pathway. Biosynthesis of the azetidine motif has been elucidated by gene inactivation, feeding experiments, and biochemical characterization in vitro, which involves a new S‐adenosylmethionine‐dependent enzyme to produce azetidine 2‐carboxylic acid as an unusual building block of NRPS. The mutants of P. aeruginosa unable to produce azetidomonamides had an advantage in growth at high cell density in vitro and displayed rapid virulence in Galleria mellonella model, inferring functional roles of azetidomonamides in the host adaptation. This work opens the avenue to study the biological functions of azetidomonamides and related compounds in pathogenic and environmental bacteria.
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