AI Article Synopsis
- The study examined how Pseudomonas aeruginosa develops resistance to ceftazidime (CAZ) alone and with other antibiotics (tobramycin and ciprofloxacin) using in vitro methods and in a mouse lung infection model.
- Results showed that a hypermutable strain (PAODeltamutS) developed a significant 200-fold increase in resistant mutants under CAZ treatment, while the standard PAO1 strain showed much lower resistance, indicating the impact of genetic variability on resistance development.
- Combination therapies proved effective in preventing resistance; however, resistant mutants still emerged, particularly in the more hypermutable strain, revealing the ongoing challenge of managing antibiotic resistance even with combination treatments.
Article Abstract
We studied the mechanisms and dynamics of the development of resistance to ceftazidime (CAZ) alone or combined with tobramycin (TOB) or ciprofloxacin (CIP) in vitro and in vivo (using a mouse model of lung infection with human antibiotic regimens). Pseudomonas aeruginosa strain PAO1 and its hypermutable derivative PAODeltamutS were used, and the results were compared with those previously obtained with CIP, TOB, and CIP plus TOB (CIP-TOB) under the same conditions. An important (200-fold) amplification of the number of resistant mutant cells was documented for PAODeltamutS-infected mice that were under CAZ treatment compared to the number for mice that received placebo, whereas the median number of resistant mutant cells was below the detection limits for mice infected by PAO1. These results were intermediate between the high amplification with CIP (50,000-fold) and the low amplification with TOB (10-fold). All CAZ-resistant single mutant cells selected in vitro or in vivo hyperproduced AmpC. On the other hand, the three combinations studied were found to be highly effective in the prevention of in vivo resistance development in mice infected with PAODeltamutS, although the highest therapeutic efficacy (in terms of mortality and total bacterial load reduction) compared to those of the individual regimens was obtained with CIP-TOB and the lowest was with CAZ-CIP. Nevertheless, mutant cells that were resistant to the three combinations tested were readily selected in vitro for PAODeltamutS (mutation rates from 1.2 x 10(-9) to 5.8 x 10(-11)) but not for PAO1, highlighting the potential risk for antimicrobial resistance development associated with the presence of hypermutable strains, even when combined therapy was used. All five independent CAZ-TOB-resistant PAODeltamutS double mutants studied presented the same resistance mechanism (AmpC hyperproduction plus an aminoglycoside resistance mechanism not related to MexXY), whereas four different combinations of resistance mechanisms were documented for the five CAZ-CIP-resistant double mutants.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1913281 | PMC |
| http://dx.doi.org/10.1128/AAC.00174-07 | DOI Listing |
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