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| Status |
Public on Aug 04, 2024 |
| Title |
Comprehensive Assessment of Initial Adaptation of ESBL Positive ST131 E. coli to Carbapenem Exposure |
| Organism |
Escherichia coli |
| Experiment type |
Expression profiling by high throughput sequencing
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| Summary |
Background: It remains unclear how high-risk Escherichia coli lineages, like sequence type (ST) 131, initially adapt to carbapenem exposure in its progression to becoming carbapenem resistant. Methods: Carbapenem mutation frequency was measured in multiple subclades of extended-spectrum β-lactamase (ESBL) positive ST131 clinical isolates using a fluctuation assay followed by whole genome sequencing (WGS) characterization. Genomic, transcriptomic, and porin analyses of ST131 C2/H30Rx isolate, MB1860, under prolonged, increasing carbapenem exposure was performed using two distinct experimental evolutionary platforms to measure fast vs. slow adaptation. Results: All thirteen ESBL positive ST131 strains selected from a diverse (n=184) ST131 bacteremia cohort had detectable ertapenem (ETP) mutational frequencies with a statistically positive correlation between initial ESBL gene copy number and mutation frequency (r = 0.87, P<1e-5). WGS analysis of mutants showed initial response to ETP exposure resulted in significant increases in ESBL gene copy numbers or mutations in outer membrane porin (Omp) encoding genes in the absence of ESBL gene amplification with subclade specific adaptations. In both experimental evolutionary platforms, MB1860 responded to initial ETP exposure by increasing blaCTX-M-15 copy numbers via modular, insertion sequence 26 (IS26) mediated pseudocompound transposons (PCTns). Transposase activity driven by PCTn upregulation was a conserved expression signal in both experimental evolutionary platforms. Stable mutations in Omp encoding genes were detected only after prolonged increasing carbapenem exposure consistent with clinical observations. Conclusions: ESBL gene amplification is a conserved response to initial carbapenem exposure, especially within the high-risk ST131 C2 subclade. Targeting such amplification could assist with mitigating carbapenem resistance development.
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| Overall design |
RNA-Seq of daily populations exposed to MB1860 strain 1X ertapenem (ETP) MIC (0.06 ug/mL) in standard, batch culture, flask transfer protocol (FTP) and novel, single-cell microfluidic system (MFS). Passage controls w/o ETP exposure were used for comparison. Isolates were grown up in triplicate and differential expression analysis followed by gene set enrichment analysis were performed.
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| Contributor(s) |
Shropshire W |
| Citation missing |
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| |
| Submission date |
Jul 30, 2024 |
| Last update date |
Aug 05, 2024 |
| Contact name |
William Charles Shropshire |
| E-mail(s) |
[email protected]
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| Phone |
8307082542
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| Organization name |
The University of Texas MD Anderson Cancer Center
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| Street address |
1901 East Road
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| City |
Houston |
| State/province |
TX |
| ZIP/Postal code |
77054 |
| Country |
USA |
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| Platforms (1) |
| GPL25368 |
Illumina NovaSeq 6000 (Escherichia coli) |
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| Samples (11)
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| Relations |
| BioProject |
PRJNA1141951 |
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