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Development and Persistence of Antimicrobial Resistance in Pseudomonas aeruginosa : a Longitudinal Observation in Mechanically Ventilated Patients

Reinhardt, Anita ; Köhler, Thilo ; Wood, Paul ; [et al.]

American Society for Microbiology ; 2007

In: Antimicrobial Agents and Chemotherapy Vol. 51, No. 4 ( 2007-04), p. 1341-1350

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In: Antimicrobial Agents and Chemotherapy, American Society for Microbiology, Vol. 51, No. 4 ( 2007-04), p. 1341-1350

Abstract: Intubated patients frequently become colonized by Pseudomonas aeruginosa , which is subsequently responsible for ventilator-associated pneumonia. This pathogen readily acquires resistance against available antimicrobials. Depending on the resistance mechanism selected for, resistance might either be lost or persist after removal of the selective pressure. We investigated the rapidity of selection, as well as the persistence, of antimicrobial resistance and determined the underlying mechanisms. We selected 109 prospectively collected P. aeruginosa tracheal isolates from two patients based on their prolonged intubation and colonization periods, during which they had received carbapenem, fluoroquinolone (FQ), or combined β-lactam-aminoglycoside therapies. We determined antimicrobial resistance phenotypes by susceptibility testing and used quantitative real-time PCR to measure the expression of resistance determinants. Within 10 days after the initiation of therapy, all treatment regimens selected resistant isolates. Resistance to β-lactam and FQ was correlated with ampC and mexC gene expression levels, respectively, whereas imipenem resistance was attributable to decreased oprD expression. Combined β-lactam-aminoglycoside resistance was associated with the appearance of small-colony variants. Imipenem and FQ resistance persisted for prolonged times once the selecting antimicrobial treatment had been discontinued. In contrast, resistance to β-lactams disappeared rapidly after removal of the selective pressure, to reappear promptly upon renewed exposure. Our results suggest that resistant P. aeruginosa is selected in less than 10 days independently of the antimicrobial class. Different resistance mechanisms lead to the loss or persistence of resistance after the removal of the selecting agent. Even if resistant isolates are not evident upon culture, they may persist in the lung and can be rapidly reselected.

Type of Medium: Online Resource

ISSN: 0066-4804 , 1098-6596

URL: Article

DOI: 10.1128/AAC.01278-06

RVK:

XA 24552

Language: English

Publisher: American Society for Microbiology

Publication Date: 2007

detail.hit.zdb_id: 1496156-8

SSG: 12

SSG: 15,3

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Natural Products from Cyanobacteria: Focus on Beneficial Activities

Demay, Justine ; Bernard, Cécile ; Reinhardt, Anita ; [et al.]

MDPI AG ; 2019

In: Marine Drugs Vol. 17, No. 6 ( 2019-05-30), p. 320-

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In: Marine Drugs, MDPI AG, Vol. 17, No. 6 ( 2019-05-30), p. 320-

Abstract: Cyanobacteria are photosynthetic microorganisms that colonize diverse environments worldwide, ranging from ocean to freshwaters, soils, and extreme environments. Their adaptation capacities and the diversity of natural products that they synthesize, support cyanobacterial success in colonization of their respective ecological niches. Although cyanobacteria are well-known for their toxin production and their relative deleterious consequences, they also produce a large variety of molecules that exhibit beneficial properties with high potential in various fields (e.g., a synthetic analog of dolastatin 10 is used against Hodgkin’s lymphoma). The present review focuses on the beneficial activities of cyanobacterial molecules described so far. Based on an analysis of 670 papers, it appears that more than 90 genera of cyanobacteria have been observed to produce compounds with potentially beneficial activities in which most of them belong to the orders Oscillatoriales, Nostocales, Chroococcales, and Synechococcales. The rest of the cyanobacterial orders (i.e., Pleurocapsales, Chroococcidiopsales, and Gloeobacterales) remain poorly explored in terms of their molecular diversity and relative bioactivity. The diverse cyanobacterial metabolites possessing beneficial bioactivities belong to 10 different chemical classes (alkaloids, depsipeptides, lipopeptides, macrolides/lactones, peptides, terpenes, polysaccharides, lipids, polyketides, and others) that exhibit 14 major kinds of bioactivity. However, no direct relationship between the chemical class and the respective bioactivity of these molecules has been demonstrated. We further selected and specifically described 47 molecule families according to their respective bioactivities and their potential uses in pharmacology, cosmetology, agriculture, or other specific fields of interest. With this up-to-date review, we attempt to present new perspectives for the rational discovery of novel cyanobacterial metabolites with beneficial bioactivity.

Type of Medium: Online Resource

ISSN: 1660-3397

URL: Article

DOI: 10.3390/md17060320

Language: English

Publisher: MDPI AG

Publication Date: 2019

detail.hit.zdb_id: 2175190-0

SSG: 15,3

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