Genome Analysis of IPseudomonas aeruginosa/I Strains from Chronically Infected Patients with High Levels of Persister Formation

Genome Analysis of IPseudomonas aeruginosa/I Strains from Chronically Infected Patients with High Levels of Persister Formation

The appearance of persister cells with low metabolic rates are key factors leading to antibiotic treatment failure. Such persisters are multidrug tolerant and play a key role in the recalcitrance of biofilm-based chronic infections. Here, we present the genomic analyses of three distinct Pseudomonas...

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Veröffentlicht in:Pathogens (Basel) 2023-03, Vol.12 (3)
Hauptverfasser: Baiomy, Amr A, Serry, Fathy E, Kadry, Ashraf A, Yahya, Galal, Doijad, Swapnil, Mostafa, Ahmed, Mraheil, Mobarak Abu, El-Ganiny, Amira M
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Causes of
Drug resistance in microorganisms
Drug therapy
Genetic aspects
Genomes
Identification and classification
Microbiological research
Pseudomonas aeruginosa
Pseudomonas aeruginosa infections
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container_title Pathogens (Basel)
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creator Baiomy, Amr A
Serry, Fathy E
Kadry, Ashraf A
Yahya, Galal
Doijad, Swapnil
Mostafa, Ahmed
Mraheil, Mobarak Abu
El-Ganiny, Amira M
description The appearance of persister cells with low metabolic rates are key factors leading to antibiotic treatment failure. Such persisters are multidrug tolerant and play a key role in the recalcitrance of biofilm-based chronic infections. Here, we present the genomic analyses of three distinct Pseudomonas aeruginosa Egyptian persister-isolates recovered from chronic human infections. To calculate the persister frequencies, viable counts were determined before and after treatment with levofloxacin. The susceptibilities of isolates to different antibiotics were determined using the agar-dilution method. To determine their recalcitrance, the levofloxacin persisters were further challenged with lethal concentrations of meropenem, tobramycin, or colistin. Furthermore, the biofilm formation of the persister strains was estimated phenotypically, and they were reported to be strong biofilm-forming strains. The genotypic characterization of the persisters was performed using whole genome sequencing (WGS) followed by phylogenetic analysis and resistome profiling. Interestingly, out of the thirty-eight clinical isolates, three isolates (8%) demonstrated a persister phenotype. The three levofloxacin-persister isolates were tested for their susceptibility to selected antibiotics; all of the tested isolates were multidrug resistant (MDR). Additionally, the P. aeruginosa persisters were capable of surviving over 24 h and were not eradicated after exposure to 100X-MIC of levofloxacin. WGS for the three persisters revealed a smaller genome size compared to PAO1-genome. Resistome profiling indicated the presence of a broad collection of antibiotic-resistance genes, including genes encoding for antibiotic-modifying enzymes and efflux pump. Phylogenetic analysis indicated that the persister isolates belong to a distinct clade rather than the deposited P. aeruginosa strains in the GenBank. Conclusively, the persister isolates in our study are MDR and form a highly strong biofilm. WGS revealed a smaller genome that belongs to a distinct clade.
doi_str_mv 10.3390/pathogens12030426
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Such persisters are multidrug tolerant and play a key role in the recalcitrance of biofilm-based chronic infections. Here, we present the genomic analyses of three distinct Pseudomonas aeruginosa Egyptian persister-isolates recovered from chronic human infections. To calculate the persister frequencies, viable counts were determined before and after treatment with levofloxacin. The susceptibilities of isolates to different antibiotics were determined using the agar-dilution method. To determine their recalcitrance, the levofloxacin persisters were further challenged with lethal concentrations of meropenem, tobramycin, or colistin. Furthermore, the biofilm formation of the persister strains was estimated phenotypically, and they were reported to be strong biofilm-forming strains. The genotypic characterization of the persisters was performed using whole genome sequencing (WGS) followed by phylogenetic analysis and resistome profiling. Interestingly, out of the thirty-eight clinical isolates, three isolates (8%) demonstrated a persister phenotype. The three levofloxacin-persister isolates were tested for their susceptibility to selected antibiotics; all of the tested isolates were multidrug resistant (MDR). Additionally, the P. aeruginosa persisters were capable of surviving over 24 h and were not eradicated after exposure to 100X-MIC of levofloxacin. WGS for the three persisters revealed a smaller genome size compared to PAO1-genome. Resistome profiling indicated the presence of a broad collection of antibiotic-resistance genes, including genes encoding for antibiotic-modifying enzymes and efflux pump. Phylogenetic analysis indicated that the persister isolates belong to a distinct clade rather than the deposited P. aeruginosa strains in the GenBank. Conclusively, the persister isolates in our study are MDR and form a highly strong biofilm. WGS revealed a smaller genome that belongs to a distinct clade.</abstract><pub>MDPI AG</pub><doi>10.3390/pathogens12030426</doi></addata></record>
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subjects Causes of
Drug resistance in microorganisms
Drug therapy
Genetic aspects
Genomes
Identification and classification
Microbiological research
Pseudomonas aeruginosa
Pseudomonas aeruginosa infections
title Genome Analysis of IPseudomonas aeruginosa/I Strains from Chronically Infected Patients with High Levels of Persister Formation
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