74 research outputs found

    Transferable plasmid mediating resistance to multiple antimicrobial agents in Klebsiella pneumoniae isolates in Greece

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    AbstractObjective To investigate the underlying resistance mechanisms in 10 Klebsiella pneumoniae isolates.Methods Ten K. pneumoniae strains according to distinct bacteriocin typing and REP-PCR, were examined for their plasmid content, their ability to transfer their resistance to aminoglycosides and third-generation cephalosporins, and their production of aminoglycoside-modifying enzymes and β-lactamases.Results Transfer of resistance to the above-mentioned antibiotics as well as to co-trimoxazole and tetracycline in Escherichia coli strain RC 85 at a frequency of 5–106 was achieved for all strains by conjugation. Similar strains harbor a self-transferable multiresistant plasmid (80 kb) with similar EcoRI and HindIII restriction patterns. This plasmid encodes an extended-spectrum β-lactamase which confers high-level resistance to third-generation cephalosporins and aztreonam. It produces SHV-5 β-lactamase, as demonstrated by isoelectric focusing and DNA sequencing. Aminoglycoside resistance was co-transferred, and AAC(6′)-I, mediating resistance to gentamicin, tobramycin, netilmicin and amikacin, and AAC(3)-I, mediating resistance to gentamicin and sisomycin, were encoded in all isolates and their transconjugants, while APH(3′)-I, mediating resistance to kanamycin and neomycin, was encoded in seven strains.Conclusions It appears that a multiresistant transferable plasmid encoding the SHV-5 β-lactamase, causing unusually high resistance to ceftazidime and aztreonam, and the combination AAC(6′)-I + AAC(3)-I of acetylating enzymes causing, also resistance to all clinically available aminoglycosides, is established in K. pneumoniae in Greece

    Metabolomic analysis of insulin resistance across different mouse strains and diets

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    Insulin resistance is a major risk factor for many diseases. However, its underlying mechanism remains unclear in part because it is triggered by a complex relationship between multiple factors, including genes and the environment. Here, we used metabolomics combined with computational methods to identify factors that classified insulin resistance across individual mice derived from three different mouse strains fed two different diets. Three inbred ILSXISS strains were fed high-fat or chow diets and subjected to metabolic phenotyping and metabolomics analysis of skeletal muscle. There was significant metabolic heterogeneity between strains, diets, and individual animals. Distinct metabolites were changed with insulin resistance, diet, and between strains. Computational analysis revealed 113 metabolites that were correlated with metabolic phenotypes. Using these 113 metabolites, combined with machine learning to segregate mice based on insulin sensitivity, we identified C22:1-CoA, C2-carnitine, and C16-ceramide as the best classifiers. Strikingly, when these three metabolites were combined into one signature, they classified mice based on insulin sensitivity more accurately than each metabolite on its own or other published metabolic signatures. Furthermore, C22:1-CoA was 2.3-fold higher in insulin-resistant mice and correlated significantly with insulin resistance. We have identified a metabolomic signature composed of three functionally unrelated metabolites that accurately predicts whole-body insulin sensitivity across three mouse strains. These data indicate the power of simultaneous analysis of individual, genetic, and environmental variance in mice for identifying novel factors that accurately predict metabolic phenotypes like whole-body insulin sensitivity

    Skeletal muscle NOX4 is required for adaptive responses that prevent insulin resistance

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    Reactive oxygen species (ROS) generated during exercise are considered integral for the health-promoting effects of exercise. However, the precise mechanisms by which exercise and ROS promote metabolic health remain unclear. Here, we demonstrate that skeletal muscle NADPH oxidase 4 (NOX4), which is induced after exercise, facilitates ROS-mediated adaptive responses that promote muscle function, maintain redox balance, and prevent the development of insulin resistance. Conversely, reductions in skeletal muscle NOX4 in aging and obesity contribute to the development of insulin resistance. NOX4 deletion in skeletal muscle compromised exercise capacity and antioxidant defense and promoted oxidative stress and insulin resistance in aging and obesity. The abrogated adaptive mechanisms, oxidative stress, and insulin resistance could be corrected by deleting the H2O2-detoxifying enzyme GPX-1 or by treating mice with an agonist of NFE2L2, the master regulator of antioxidant defense. These findings causally link NOX4-derived ROS in skeletal muscle with adaptive responses that promote muscle function and insulin sensitivity

    Year in review in Intensive Care Medicine, 2008: II. Experimental, acute respiratory failure and ARDS, mechanical ventilation and endotracheal intubation

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    SCOPUS: re.jinfo:eu-repo/semantics/publishe

    Traumatic brain injury: integrated approaches to improve prevention, clinical care, and research

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    Comparison of selenite F, Muller-Kauffmann tetrathionate and Rappaport's medium for the isolation of salmonellas from sewage-polluted natural water using a pre-enrichment technique

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    Three enrichment broths, selenite F, Muller-Kauffmann tetrathionate and Rappaport, were examined for their efficiency in salmonella isolation. The three media, prepared from single ingredients in the laboratory, were compared with their commercial equivalents. Laboratory-prepared media were more efficient for isolating salmonellas from sewage-polluted natural water samples. A pre-enrichment stage using buffered peptone water was employed throughout the investigation. The size of inoculum from the pre-enrichment medium was relevant to successful salmonella isolation. Inocula studied were 1 ml and one loopful (3 mm diameter loop). The smaller inoculum gave better results with Rappaport, the larger with selenite and tetrathionate. Using the optimal inocula, Rappaport was the most efficient enrichment broth of the three fluid media in this study. © 1979, Cambridge University Pres

    Isolation of Salmonellae from Sewage with a New Procedure of Enrichment

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    Forty samples of sewage on Moore's swabs were examined for the presence of salmonellae. They were first pre‐enriched in buffered peptone water. From each pre‐enrichment, three enrichments were made: (1) in a new, considerably modified, formula of Rappaport medium (R 10) incubated at 43 °C (R 10/43 °C), (2) in the usual formula (R25) of the same medium at 37 °C (R25/37 °C) and (3) in Muller‐Kauffmann's tetrathionate broth at 43 °C (MK/43 °C). Practically the same numbers of swabs were found positive by the first two enrichment procedures, 38 and 39 respectively, while only 17 were found positive by the MK procedure. The R10/43 °C method was superior to the two other procedures; it yielded 103 strains of salmonellae as against 82 with the second Rappaport procedure, and only 25 with the MK/43 °C technique. A similar observation was made concerning the frequency of isolation of different serotypes by the three procedures; the number of the isolated serotypes was 24, 19 and 11, respectively. The new R 10/43 °C method of enrichment had also a much stronger inhibitory effect on the competing bacteria than the two other procedures of enrichment used. Copyright © 1978, Wiley Blackwell. All rights reserve

    A note on the performance of Rappaport's medium, compared with Rappaport‐Vassiliadis broth, in the isolation of salmonellas from meat products, after pre‐enrichment

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    Salmonellas were isolated from meat products using a slightly modified Rappaport's enrichment medium (R25), Rappaport‐Vassiliadis procedure (Rappaport's broth containing 10 ml instead of 30 ml of Malachite Green solution and incubated at 43oC instead of 37oC), and Muller‐Kauffmann's tetrathionate broth. From 255 samples, 89 were found positive with the Rappaport‐Vassiliadis procedure, 83 with the R25 broth, whereas only 43 were positive with Muller‐Kauffmann broth. It is concluded that the R25 medium may be used as an alternative to the more effective Rappaport‐Vassiliadis broth when the only available incubation temperature is 37oC. Copyright © 1982, Wiley Blackwell. All rights reserve
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