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Etude de l’activité in vitro des β-lactamines sur Mycobacterium abscessus et recherche de leurs cibles / In vitro activities of β-lactams against Mycobacterium abscessus and search of the β-lactams targetsLefebvre, Anne-Laure 27 November 2015 (has links)
Mycobacterium abscessus est une mycobactérie responsable principalement d’infections pulmonaires, en particulier chez les patients atteints de mucoviscidose ou de dilatation des bronches. M. abscessus est naturellement résistante aux antituberculeux, laissant peu d’options thérapeutiques. Le traitement de référence associait classiquement un aminoside, un macrolide (clarithromycine) et une β-lactamine (céfoxitine ou imipénème), avec un taux de succès d’environ 50 %. Cependant, des souches résistantes à la clarithromycine sont fréquemment isolées, remettant en cause l’utilisation de cet antibiotique. M. abscessus produit naturellement une β-lactamase à large spectre (BlaMab) mais les mécanismes d’action des β-lactamines n’ont pas été étudiés chez cette espèce, ce qui constitue une entrave à l’optimisation des traitements par cette classe d’antibiotiques. Le premier objectif était d’identifier et de caractériser les cibles des β-lactamines chez cette espèce. Inhibant la dernière étape de polymérisation du peptidoglycane, les cibles potentielles des β-lactamines sont trois familles d’enzymes : les D,D-transpeptidases et les D,Dcarboxypeptidases appartenant à la famille des protéines de liaison à la pénicilline (PLP), ainsi que les L,D-transpeptidases qui sont majoritairement responsables de cette dernière étape chez cette espèce. Pour identifier les cibles, des mutants résistants aux β-lactamines ont été sélectionnés à partir de la souche de référence M. abscessus CIP104536 et d’un dérivé portant une délétion du gène blaMab (∆blaMab). Pour les deux souches, l’émergence de la résistance aux β-lactamines a requis de multiples étapes, ce qui constitue un atout pour leur utilisation thérapeutique. Pour les mutants obtenus à partir de la souche CIP104536, les analyses phénotypiques ont montré que la résistance aux β-lactamines n'est pas due à une augmentation de l’efficacité catalytique de BlaMab, à une surproduction de cette enzyme, ou à une diminution de la perméabilité. Le séquençage des génomes de mutants résistants n’a pas révélé de mutations dans les gènes codant pour les L,D-transpeptidases, mais des mutations ont été trouvées dans des gènes codant pour deux PLP. D’autres mutations se situent dans des gènes codant en particulier pour des protéines non caractérisées. L’acquisition de la résistance pourrait donc dépendre de mutations affectant des facteurs essentiels à l’activité des cibles des βlactamines. Le deuxième objectif était d’étudier et de comparer l’activité in vitro des β-lactamines sur M. abscessus. Des expériences de bactéricidie et d’activité intracellulaire chez le macrophage infecté ont été effectuées pour les souches CIP104536 et ∆blaMab. Parmi les antibiotiques étudiés (amikacine, céfoxitine, imipénème, ceftaroline, et amoxicilline), l’imipénème est le plus efficace sur les deux souches. Sur la souche ∆blaMab, l’association d’imipénème et d’amikacine est bactéricide. En l’absence de BlaMab, l’amoxicilline est aussi efficace que l’imipénème. L’avibactam augmente l’activité de la ceftaroline mais l’inhibition de BlaMab est seulement partielle en intracellulaire. Les résultats obtenus in vitro montrent que l’imipénème est supérieur à la céfoxitine pour des concentrations atteignables dans le sérum. L’inhibition de BlaMab pourrait augmenter l’efficacité de l’imipénème et d’autres composés utilisés pour traiter les infections pulmonaires à M. abscessus. / Mycobacterium abscessus is an important pathogen responsible for pulmonary infections in cystic fibrosis patients or in patients suffering from bronchiectasis. The treatment of infections due to M. abscessus is complicated since this bacterium is naturally resistant to the antituberculous agents. The recommended treatment includes an aminoglycoside, a macrolide (clarithromycin) and a β-lactam (cefoxitin or imipenem), with a success rate of about 50 %. However, strains resistant to clarithromycin are frequently isolated, questioning the use of this antibiotic. M. abscessus naturally produces a broad spectrum β-lactamase (BlaMab) but the mechanisms of action of the β-lactams have not been studied in this species, impairing the optimization of the treatment by these antibiotics. The first objective was to identify and characterize the targets of β-lactams antibiotics in this species. Inhibiting the final stage of the peptidoglycan polymerization, the potential targets of β-lactams are three families of enzymes: the D,D-transpeptidases and D,Dcarboxypeptidases belonging to the family of penicillin-binding proteins (PBP), and the L,D-transpeptidases which are mainly responsible for this final stage in this species. To identify the targets, mutants resistant to β-lactams have been selected from the reference strain M. abscessus CIP104536 and from its β-lactamase-deficient derivative ΔblaMab. For both strains, the emergence of resistance to βlactams has required multiple steps, which is an advantage for the therapeutic use of these antibiotics. For the mutants derived from the strain CIP104536, phenotypic analyzes showed that the resistance to β-lactams is not due to an increase in the catalytic efficiency of BlaMab, to an overproduction of this enzyme, or to a decrease in permeability. Genomes sequencing of the resistant mutants did not reveal mutations in the genes encoding the L,D-transpeptidases, but mutations have been found in genes encoding two PBPs. Other mutations have been detected in genes encoding uncharacterized proteins. Acquisition of resistance could therefore depend on mutations affecting key factors essential for the activity of β-lactams targets. The second objective was to study and compare the in vitro activities of β-lactams against M. abscessus. Bactericidal experiments and intracellular activity in the infected macrophage were performed for the strains CIP104536 and ΔblaMab. Among the antibiotics tested (amikacin, cefoxitin, imipenem, ceftaroline, and amoxicillin), imipenem is the most effective agent against the two strains. Combination of imipenem and amikacin was bactericidal against the ΔblaMab mutant. In the absence of BlaMab, amoxicillin was as active as imipenem. Avibactam increased the intracellular activity of ceftaroline but inhibition of BlaMab was only partial intracellularly. Evaluation of the killing and intracellular activities of β-lactams indicates that imipenem is superior to cefoxitin at clinically achievable drug concentrations. Inhibition of BlaMab could improve the efficacy of imipenem and extend the spectrum of drug potentially useful to treat pulmonary infections.
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Succès plasmidique : transmission inter-espèce d'un plasmide portant un gène de métallo-bêta-lactamase / Success of a plasmid : interspecies transfer of a plasmid carrying a metallo-b-lactamase-encoding geneDrieux, Laurence 30 May 2012 (has links)
Les métallo-b-lactamases (MBL) acquises constituent une menace sanitaire par risqué d’impasse thérapeutique dans les infections causées par les bacilles à Gram négatif, en particulier lorsque ces bactéries produisent une b-lactamase à spectre étendu (BLSE). La MBL VIM-1 est une carbapénémase qui hydrolyse toutes les β-lactamines, à l’exception des monobactames. Cette enzyme a émergé en Grèce où elle est désormais endémique chez les entérobactéries. Six souches de bacilles à Gram négatif produisant une carbapénémase ont été isolées chez un même patient qui avait été rapatrié de Grèce. Trois de ces souches, Providencia stuartii (Ps), Proteus mirabilis (Pm) et Escherichia coli (Ec), produisaient la MBL VIM-1 et la BLSE SHV-5. Dans chacune de ces trois souches, les gènes blaVIM-1 et blaSHV-5 étaient portés par un plasmide transférable par conjugaison in vitro. Les plasmides extraits des transconjugants présentaient le même profil de restriction et portaient un intégron de classe 1 identique dans lequel le gène blaVIM-1 était intégré. Nous avons émis l’hypothèse qu’un plasmide codant pour VIM-1 et SHV-5 avait été transféré de la souche Ps vers les souches Pm et Ec dans le tube digestif du patient et avons reproduit ce transfert in vivo dans un modèle de souris gnotoxéniques. Au cours de cette expérience, le plasmide codant pour VIM-1 et SHV-5 a été transféré avec succès de la souche Ps vers la souche réceptrice E. coli J53, en dehors de toute pression de sélection par les antibiotiques. Nous avons ensuite analysé la séquence complète du plasmide pTC2 extrait d’un transconjugant obtenu par conjugaion in vivo. Ce plasmide de type co-intégrat (IncA/C, IncR) de 180kb possédait un squelette de type IncA/C et une région de multirésistance (MDR1) au sein de laquelle était intégré un fragment de type IncR de 13kb. L’analyse de cette séquence nous a permis d’identifier un système de transfert de type IncA/C complet et intact et différents types de systèmes de maintien, à la fois au sein du squelette IncA/C et au sein du fragment IncR. La région mosaïque MDR1 contenait neuf séquences d’insertion (sept copies de l’IS26, une IS1 et une IS6100), 10 gènes de résistance aux antibiotiques et l’opéron mer de résistance au mercure qui étaient intégrés dans des transposons unitaires, des transposons composites ou des intégrons. Le plasmide pTC2 cumule des propriétés qui font de lui un véhicule performant de la résistance aux antibiotiques : un large spectre d’hôte, de bonnes capacités de transfert, de bonnes capacités de maintien dans une population bactérienne, une grande plasticité de sa région MDR1 et une grande variété de gènes de résistance. / Acquired metallo-b-lactamases (MBLs) represent a threat for the treatment of infections caused by Gram-negative bacteria, particularly by enterobacteria that already produce extended-spectrum b-lactamases (ESBL). VIM-1 MBL, which is a carbapenemase that can hydrolyze all classes of β-lactam antibiotics except monobactams, has emerged in Greece and is now commonly found in Enterobacteriaeae. Six carbapenemase-producing strains of Gram-negative bacilli were isolated from a unique patient transferred from Greece to a French hospital. Three of these strains, Providencia stuartii (Ps), Proteus mirabilis (Pm) and Escherichia coli (Ec) strains, were shown to produce the MBL VIM-1 and the ESBL SHV-5. In each of these three strains, the blaVIM-1 gene was carried by a plasmid transferable by in vitro conjugation. The plasmids extracted from the transconjugants displayed a unique restriction profile and harboured identical VIM-1-containing class 1 integrons. Considering the hypothesis that this VIM-1 plasmid had probably been transferred from the Ps strain to the Ec and Pm strains, we performed in vivo conjugation assays in the digestive tract of gnotobiotic mice colonized with E. coli J53, to demonstrate that the VIM-1 plasmid harboured by strain Ps was transferable in vivo, in absence of antibiotic pressure. We determined the complete nucleotide sequence of the VIM-1-encoding plasmid pTC2, which was isolated in a Greek Providencia stuartii multiresistant strain. This 180-kb plasmid was found to be a multireplicon plasmid (IncA/C, IncR), with a large IncA/C backbone and a mosaic multidrug resistance (MDR1) region, in which was inserted a 13-kb IncR fragment. A CD-search-based annotation of the plasmid allowed the identification of a complete IncA/C-type transfer system and of several putative maintenance modules, either on the IncA/C backbone, and on the IncR fragment. The complex MDR1 region contained nine insertion sequences (seven copies of the IS26, one IS1 and one IS6100), 10 resistance genes and a mercury resistance operon integrated either into unit transposons, composite transposons or integrons. The broad-host range, the transfer capacities, the stability, the high plasticity of the MDR1 region combined to the variety of resistance genes make pTC2 a superspreader of resistance determinants.
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Detecção de beta-lactamase de espectro estendido em membros da família EnterobateriaceaeRodrigues, Lilian de Oliveira [UNESP] 15 August 2005 (has links) (PDF)
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rodrigues_lo_me_arafcf.pdf: 364674 bytes, checksum: 25ad80987f7d2eb4d8bf537154a09922 (MD5) / Universidade Estadual Paulista (UNESP) / A produção de beta-lactamase de espectro estendido (ESBL) em membros da família Enterobacteriaceae pode conferir resistência a cefalosporinas de amploespectro, aztreonam e penicilinas. Devido a esse fenômeno, a detecção exata dos produtores de ESBL é essencial para a seleção apropriada da antibioticoterapia. Para detectar a produção de beta-lactamase de espectro estendido (ESBL) em bacilos Gram-negativos, foi usado um teste de triagem com os discos de aztreonam (ATM), ceftazidima (CAZ), cefotaxima (CTX) e ceftriaxona (CRO) sobre 300 cepas, das quais trinta e cinco eram suspeitas da presença de ESBL. A produção de ESBL foi demonstrada por três métodos fenotípicos confirmatórios de fácil utilização. Os três testes fenotípicos para confirmar a produção de ESBL incluíram o teste do sinergismo (double disk), E-test? ESBL e disco combinado. Os discos utilizados no teste do sinergismo e do disco combinado foram: aztreonam (30?g-ATM), cefotaxima (30?g-CTX), ceftazidima (30?g-CAZ), cefpodoxima (10?g-CPD) ceftriaxone (30?g-CRO) e amoxicilina+ácido clavulânico(30?g-AMC), cefotaxima+ácido clavulânico (30?g-10?g), ceftazidima+ácido clavulânico (30?g- 10?g), cefpodoxima+ácido clavulânico (10?g-1? g). Para E-test foram utilizadas fitas contendo as cefalosporinas: ceftazidima versus ceftazidima/ácido clavulânico; cefotaxima versus cefotaxima/ácido clavulânico. Os testes fenotípicos confirmaram a presença de ESBL em cinco cepas de enterobactérias (1,66%). Todos os métodos são de fácil execução, contudo o método do Etest requer experiência para interpretar os resultados. Os três testes oferecem uma solução viável para confirmar a produção de ESBL no laboratório clínico. / The production of extended spectrum beta-lactamase (ESBL) in the members of the family Enterobacteriaceae can check resistance to cephalosporins of extended-spectrum, aztreonam and penicilins. Due to this phenomenon, the exact detection of the producers of ESBL are essential for the appropriate selection of antimicrobial therapy. To detect the production of extended spectrum beta-lactamase (ESBL) in Gram-negative bacilli, a test of screening was used with the discs of aztreonam (ATM), ceftazidime (CAZ), cefotaxime (CTX) e ceftriaxone (CRO) in 300 strains, of which thirty-five were suspicious of the presence of ESBL. The production of ESBL was demonstrated by three phenotypic methods confirmed of easy utilization. The three phenotypic tests to confirm the production of ESBL included the test of sinergy (double disk), E-test? ESBL and combination disk. The disks used on the test sinergy and the combination disk were: aztreonam (30?g-ATM), cefotaxime (30?g-CTX), ceftazidime (30?g-CAZ), cefpodoxime (10?g-CPD) ceftriaxone (30?g- CRO) e amoxicillin+clavulanic acid (30?g-AMC), cefotaxime+clavulanic acid (30?g- 10? g), ceftazidime+clavulanic acid (30?g-10? g), cefpodoxime+clavulanic acid (10?g- 1? g). For E-test, were utilized strips containing the cephalosporins: ceftazidime and ceftazidime/clavulanic acid; cefotaxime and cefotaxime/clavulanic acid. The phenotypic tests confirmed the presence of ESBL in five strains Enterobacteriaceae (1,66%). All of the methods are of easy execution; however, the method of Etest requires experiment to interpret the results. The three tests offer a viable solution to confirm the production of ESBL on a clinic laboratory.
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The Diversity Found Among Carbapenem-Resistant BacteriaCard, Galen Edward 01 July 2018 (has links)
This work will look at two factors that add to the diversity of carbapenem resistant bacteria. First, it focuses on the diversity of carbapenemase resistance plasmids. 446 plasmids were characterized by size, gene content and replicon groups. We identified that on average, over 30% of the encoded proteins on each plasmid have an unknown function. Plasmid sizes ranged from 1.6kb to 500kb, with an average of around 100kb and median of 80kb. Additionally, six replicon groups account for 80% of all the carbapenemase resistance plasmids. We also highlight the lack of data available for carbapenemase carrying plasmids from bacterial genera other than Escherichia and Klebsiella, and plasmids that carry the New Delhi metallo-β- lactamase or the Verona-integron encoded metallo-β-lactamase. Second, we characterized the β-lactamase diversity of a single carbapenemase resistant Klebsiella pneumoniae. This isolate encodes six distinct β-lactamases, all of which are functional, and three of which are redundant. Additionally, we determined that the CTX-M-15 cephalosporinase imparts a greater fitness when grown in aztreonam (a monobactam) than ceftazidime (a cephalosporin). Finally, we show that individually, these β-lactamases do not account for the elevated levels of resistance seen in the parent strain, indicating that the passive resistance mechanisms (i.e. efflux pumps, altered membrane porins) may play a larger role than originally thought.
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Etude des facteurs structuraux influençant la carbonatation de la lysine 70 chez la beta-lactamase OXA-10 de Pseudomonas aeruginosa/Study of structural factors influencing the lysine 70 carboxylation of OXA-10 beta-lactamaseVercheval, Lionel 21 January 2010 (has links)
Throughout this thesis, we studied the biochemical and structural impact of the essential residues on the activity of class D beta-lactamases. The production of these enzymes plays a major role in the bacterial resistance. Our work is subdivided in two parts : the study of the post-translational modification of lysine 70 and the screening of new potential inhibitors for the class D β-lactamases.
The first part concerns the impact of the residues tryptophan 154 and valine 117 located in the hydrophobic core. Our data indicate that the mutation of tryptophan 154 in alanine or glycine lead to a large decrease of the catalytic efficiencies of the beta-lactamase. The apo-enzyme structures of these mutants show that the lysine 70 is not carboxylated. This absence of carboxylate group induces a modification of the hydrogen network of the active site. The analysis of the complex structure of W154A-benzylpenicillin demonstrates that the deacylation step is clearly the most affected by the mutation. The mutation of tryptophan 154 in histidine leads to a slight decrease of catalytic efficiencies because the imidazol group of histidine mimics the indole group of tryptophan 154. The apo-enzyme structure reveals that lysine 70 is partially carboxylated and stabilized by an hydrogen bond between the carboxylate group and the imidazol group.
In the case of the V117T mutant, a strong increase of the catalytic constant values is observed at 50 mM in NaHCO3. The structure of this mutant at pH 8.0 shows that the lysine 70 is partially carboxylated in the monomer A.
The determination of individual rate constants of acylation and deacylation steps indicates that the deacylation is the limiting step for the class D beta-lactamase. The k2/k3 ratio is similar between the V117T mutant and the wild-type enzyme. The mutation of lysine 70 in alanine or cysteine leads to a large decrease of the deacylation constants inducing a poorly efficient enzyme. The obtaining of the K70C-Ampicillin complex by X-ray cristallography and the trapping of acyl-enzyme by reaction with fluorescent ampicillin are supplemental proofs that the deacylation step is the limiting rate.
By crystallographic and kinetic studies, we demonstrate that the chloride inhibition of the class D beta-lactamases is due to a competition between the carboxylate group of lysine 70 and the chloride ions. At high concentration in bicarbonate, this inhibition is abolished for the wild-type enzyme.
The second part of this work concerns the screening of the citrate and aminophosphonate derivated molecules for the class D beta-lactamases. In the case of OXA-10, a citrate molecule is strongly stabilized by hydrogen bonds in the active site. The benzyl esters derivatives of citrate inhibits OXA-10(KI = 20 µM) but the hydrophobic substituents are necessary to obtain a good inhibition.
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Development of β-Lactamase as a Tool for Monitoring Conditional Gene Expression by a Tetracycline-Riboswitch in Methanosarcina acetivoransDemolli, Shemsi, Geist, Miriam M., Weigand, Julia E., Matschiavelli, Nicole, Süß, Beatrix, Rother, Michael 06 February 2014 (has links) (PDF)
The use of reporter gene fusions to assess cellular processes such as protein targeting and regulation of transcription or translation is established technology in archaeal, bacterial, and eukaryal genetics. Fluorescent proteins or enzymes resulting in chromogenic substrate turnover, like β-galactosidase, have been particularly useful for microscopic and screening purposes. However, application of such methodology is of limited use for strictly anaerobic organisms due to the requirement of molecular oxygen for chromophore formation or color development. We have developed β-lactamase from Escherichia coli (encoded by bla) in conjunction with the chromogenic substrate nitrocefin into a reporter system usable under anaerobic conditions for the methanogenic archaeon Methanosarcina acetivorans. By using a signal peptide of a putative flagellin from M. acetivorans and different catabolic promoters, we could demonstrate growth substrate-dependent secretion of β-lactamase, facilitating its use in colony screening on agar plates. Furthermore, a series of fusions comprised of a constitutive promoter and sequences encoding variants of the synthetic tetracycline-responsive riboswitch (tc-RS) was created to characterize its influence on translation initiation in M. acetivorans. One tc-RS variant resulted in more than 11-fold tetracycline-dependent regulation of bla expression, which is in the range of regulation by naturally occurring riboswitches. Thus, tc-RS fusions represent the first solely cis-active, that is, factor-independent system for controlled gene expression in Archaea.
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Evolutionary analysis of the β-lactamase families / Analyse évolutive des familles de β-lactamaseKeshri, Vivek 05 July 2018 (has links)
Les antibiotiques β-lactamines sont parmi les médicaments antimicrobiens les plus anciens et les plus utilisés. L'enzyme bactérienne β-lactamase hydrolyse l'antibiotique β-lactame en cassant la structure de base "anneau β-lactame". Pour identifier les nouvelles β-lactamases, une étude complète a été réalisée dans diverses bases de données biologiques telles que Human Microbiome Project, env_nr et NCBI nr. L'analyse a révélé que les séquences ancestrales putatives et les recherches de profil HMM jouaient un rôle important dans l'identification de la base de données homologue et métagénomique à distance dans l'enzyme β-lactamase existante comme matière noire. Les larges analyses phylogénétiques des β-lactamases existantes et nouvellement identifiées représentent les nouveaux clades dans les arbres. En outre, l'activité d'hydrolyse des antibiotiques β-lactamines de séquences nouvellement identifiées (provenant d'archées et d'humains) a été étudiée en laboratoire, ce qui montre l'activité de la β-lactamase. La deuxième phase de l'étude a été entreprise pour examiner l'évolution fonctionnelle des β-lactamases. Premièrement, des séquences de protéines ß-lactamase 1155 ont été extraites de la base de données ARG-ANNOT et des valeurs CMI la littérature correspondante. Les résultats ont révélé que l'activité fonctionnelle de la β-lactamase évoluait de manière convergente au sein de la classe moléculaire. La troisième phase de cette thèse représente le développement d'une base de données intégrative de β-lactamases. La base de données publique actuelle de β-lactamases a des informations limitées, par conséquence, une base de données intégrative a été développée. / The β-lactam antibiotics are one of the oldest and widely used antimicrobial drugs. The bacterial enzyme β-lactamase hydrolyzes the β-lactam antibiotic by breaking the core structure “β-lactam ring”. To identify the novel β-lactamases a comprehensive investigation was performed in different biological databases such as Human Microbiome Project, env_nr, and NCBI nr. The analysis revealed that putative ancestral sequences and HMM profile searches played a significant role in the identification of remote homologous and uncovered the existing β-lactamase enzyme in the metagenomic database as dark-matter. The comprehensive phylogenetic analyses of extant and newly identified β-lactamase represent the novel clades in the trees. Further, the β-lactam antibiotic hydrolysis activity of newly identified sequences (from archaea and human) was investigated in laboratory, which shows β-lactamase activity.The second phase of the investigation was undertaken to examine the functional evolution of β-lactamases. First, 1155 β-lactamase protein sequences were retrieved from ARG-ANNOT database and MIC values from the corresponding literature. The results revealed that the functional activity of β-lactamase evolved convergently within the molecular class.The third phase of this thesis presents development of an integrative β-lactamase database. The existing public database of β-lactamase has limited information, therefore, an integrative database was developed.
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Detecção de metalo beta lactamase em Pseudomonas aeruginosa isoladas de pacientes hospitalizados / Detecção de metalo beta lactamase em Pseudomonas aeruginosa isoladas de pacientes hospitalizados / Detecção de metalo beta lactamase em Pseudomonas aeruginosa isoladas de pacientes hospitalizados / Detecção de metalo beta lactamase em Pseudomonas aeruginosa isoladas de pacientes hospitalizadosGONÇALVES, Diana Christina Pereira Santos 18 February 2009 (has links)
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Previous issue date: 2009-02-18 / P. aeruginosa is frequently isolated in hospitals and the clinical importance has been
increased due to gravity of infections. The metallo-beta-lactamase (MBL) production is an
emergent mechanism of resistance in P. aeruginosa. The study aimed to determine the
antimicrobial susceptibility profile of P. aeruginosa isolated of patients admitted in a hospital
in Goiânia, to verify the MBL production by diffusion test and detect MBL genes by PCR
technique. A total of 75 samples were evaluated, isolated of various clinical samples, in the
period of January/2005 to January/2007. The biochemical identification was performed by
automation technique system (API 20E ®) and antimicrobial susceptibility profile by Kirby-
Bauer method. The 75 P. aeruginosa presented multi-drug resistance and, the resistance
profile was: 90.7% to ceftazidime: 30.7% to aztreonam, 97.3% to ciprofloxacin; 48.0% of
resistance to piperacilin/tazobactam, 88.0% to cefepime; amicacin, gentamicin and
tobramicina whit resistance profile of 78.7%, 84.0% and 77.4%, respectively. The MBL
production by difusion disc method was 46.7% (35/75). The gene blaSPM-1 was detected in 39
(52.0%) and gene blaIMP-1 in three (4.0%) isolates. The high frequency of P. aeruginosa
resistant and MBL production alert to necessity of control the dissemination of bacteria
multi-drug resistant in hospital, as well as the adoption of preventive actions and explanation
of the health workers about rational use of antibiotics. / P. aeruginosa é frequentemente isolada em ambientes hospitalares e sua importância clínica
têm aumentado devido à gravidade das infecções. A produção de metalo-beta-lactamase
(MBL) é um mecanismo de resistência emergente entre P. aeruginosa. O estudo teve como
objetivo determinar o perfil de suscetibilidade antimicrobiana de P. aeruginosa isoladas de
pacientes internados em um hospital de Goiânia, realizar a triagem fenotípica para verificar a
produção de MBL e detectar genes que codificam MBL pela técnica de PCR. Foram
avaliadas 75 amostras, isoladas de diversos sítios, no período de janeiro de 2005 a janeiro de
2007. A identificação bioquímica foi realizada pelo sistema API 20E e o antibiograma pelo
método de Kirby-Bauer. Todos os 75 isolados de P. aeruginosa apresentaram
multirresistência, 82,7% foram resistentes ao imipenem; ceftazidima 90,7%; aztreonam
30,7%; ciprofloxacina 97,3%; 48,0% de resistência a piperacilina/tazobactam, 88,0% ao
cefepime; amicacina, gentamicina e tobramicina, com resistência de 78,7%, 84,0% e 77,4%,
respectivamente. A produção de MBL pelo método de disco aproximação foi detectada em
46,7% (35/75). O gene blaSPM-1 foi detectado em 39 (52,0%) e o blaIMP-1 em três (4,0%)
amostras através da técnica de PCR. A frequência elevada de P. aeruginosa multirresistentes
e produtoras de MBL alerta para necessidade de controle da disseminação de resistência no
ambiente hospitalar, bem como a adoção de medidas preventivas e esclarecimento das
equipes de saúde sobre uso racional dos antimicrobianos.
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Epidémiologie des Entérobactéries productrices de beta-lactamases à spectre élargi dans les unités à risque du CHU de LiègeChristiaens, Geneviève 28 May 2008 (has links)
The University Hospital of Liège has 955 beds in 8 intensive care units, 15 medical wards, 10 surgical wards and 1 paediatric ward. Approximately 36,000 patients are admitted each year, giving a total of 265,000 patient-days hospitalization.
Extended-spectrum beta-lactamase-producing Enterobacteriaceae (E-ESBL) constitute, along with methicillin-resistant Staphylococcus aureus (MRSA), the main multi-resistant bacteria recovered in our hospital.
The aims of the present study were to:
- evaluate the epidemiology of E-ESBL
- evaluate the impact of an infection control programme to reduce the spread of E-ESBL
in the University Hospital of Liège.
In order to do this, several studies were carried out between 2001 and 2007:
1. Determination of the high risk units in the CHU (2001)
The high risk units were determined by comparing the incidence rates of each type of unit. Two types of high risk unit were identified in this way: the Intensive Care Units (ICUs) and the Onco-Haematology Unit.
2. Epidemiology of E-ESBL in the Onco-Haematology unit (2002-2003 and 2005-2006)
Digestive tract colonization by E-ESBL was found to be relatively high (7.3%) and this explains the high incidence of E-ESBL in Onco-Haematology in comparison with the rest of the hospital. However, the clinical gravity associated with exposure to the risk factor (digestive tract colonization by E-ESBL) was found to be relatively weak.
3. Importance of digestive tract colonization by E-ESBL in General ICUs (2002-2003)
Digestive tract colonization by E-ESBL was found to be relatively common (8.8%) and faecal carriage of E-ESBL was found to be a good marker for infection with E-ESBL at another body site. Even though the number of infected patients was found to be low, the risk of infection due to E-ESBL was multiplied by 14.7 in a group of digestive carriers of E-ESBL with regard to a group of non carriers. Our data also showed that Enterobacter aerogenes is the most frequent species producing extended-spectrum beta-lactamase (ESBL) and that TEM-24 is the most prevalent ESBL produced by E-ESBL species in our ICUs. No CTX-M-type genes were identified. With regard to antibiotic susceptibility, meropenem and cefepime appeared to be the most active agents against the majority of isolates.
4. Impact of an infection control programme to reduce the spread of E-ESBL (2006-2007)
A surveillance programme was carried out to evaluate the implementation of infection control procedures including surveillance of ESBL-producing strains, utilization of computer alerts for E-ESBL positive patients and the application of contact precautions for colonized or infected patients. Infection control compliance observations were performed by trained referring nurses.
During the 2 years of application, one or more E-ESBL were identified in 500 patients.
A total of 2268 internal messages regarding the identification of E-ESBL were sent within the hospital, among which 91.84 % were received (at least 1 for every patient). An alert was associated with 406 patients, who were always hospitalized as the identification of the E-ESBL by the laboratory was obtained. A total of 257 registration forms were filled in by the referring nurses, resulting in a survey compliance of 63%. This survey showed that door signs identifying positive patients, hydro-alcoholic solution and gloves were present in 90% of the cases, but that gowns were only present in 59%. The overall incidence of nosocomial acquisition of E-ESBL between 2006 and 2007 was 0.92/1000 patient-days, more or less the same as in 2002.
In relation to this research, several questions remain:
- Even though the rates of digestive tract colonization with E-ESBL in the 2 types of high risk unit were found to be more or less the same (7.3 and 8.8%), the impact on infections due to E-ESBL was very different.
- Are the infections due either to E-ESBL endogenous infections (owing notably to the use of broad spectrum antibiotics) or to secondary infections (resulting from cross-transmission) or to both?
The implementation of an infection control programme to limit the spread of E-ESBL has been based on the limitation of the cross-transmission of these micro-organisms. An enhanced barrier precautions policy has been in place in our institution for 2 years, and we have seen no erosion in compliance.
We should not however lose sight of the fact that, whatever the institutional policy for the management of multi-resistant bacteria, the correct application of standard precautions for all patients is the first measure to limit the cross-transmission of all micro-organisms.
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SHV β-lactamases : DNA diagnostics and evolutionHammond, David Scott January 2006 (has links)
TEM and SHV β-lactamases are the most prevalent β-lactamases among Gram-negative bacteria. The introduction and widespread use of expanded-spectrum antibiotics, particularly third generation cephalosporins, has led to the evolution of bacterial strains expressing extended spectrum β-lactamases (ESBLs). ESBLs emerge by genetic point mutation from non-extended spectrum precursors. It was found that multiple β-lactamase families within single isolates complicate the process of detecting the resistance status of isolate using non-quantitative DNA diagnostic methods. Preliminary phenotypic characterisation of probable β-lactamase enzyme family types present in 100 isolates from the Asia-Pacific and South African locales showed that single isolates frequently contained multiple β-lactamase families. SHV, TEM, AMPC and CTX-M β-lactamase families were detected in these isolates using PCR detection methods. Ninety-eight percent of all isolates tested contained as least one β-lactamase gene, with up to four to β-lactamase gene families found to co-exist in single isolates. Kinetic PCR methods for interrogating the polymorphic sites at blaSHV codons 238 & 240 and blaTEM codons 164, 238, 240 as well as promoter polymorphism were developed. A high proportion of blaSHV 238 and 240 mutant alleles was found to correlate with cefotaxime, ceftazidime and aztreonam resistance levels. In an attempt to understand the molecular basis for the co-existence of multiple blaSHV alleles within single isolates, the blaSHV promoter region was cloned from one ESBL expressing isolate. Experimental results showed that blaSHV can exist downstream of two different promoters within a single isolate. Both promoters have previously been reported, and differ by the presence or absence of IS26, which results in a change in the transcription initiation site. The blaSHV gene copy numbers in cis with the different promoters were measured, and it was found that the copy number of the IS26::blaSHV promoter was positively correlated with resistance levels. Cloning and analysis of PCR products showed that different blaSHV variants existed in cis with promoters in individual isolates. However, mutant genes were more abundant downstream of the IS26 promoter. There were no ESBL+ isolates without this promoter. It was concluded that blaSHV in cis with the IS26 promoter is located on an amplifiable replicon, and the presence of the IS26 insertion may facilitate the acquisition of an ESBL+ phenotype. To further confirm the role of IS26 in resistance acquisition, ESBL negative isolates were subjected to serial passage in vitro evolution experiments and fluctuation assays. Results confirm that the insertion of the IS26 element upstream of blaSHV is positively correlated with the ability to exhibit an ESBL phenotype, when such isolates also contain the critical G238S substitution. It was also found that IS26 can catalyse the duplication and mobilisation of blaSHV within an isolate. Fluctuation experiments have shown that the frequency at which such genomic events occur resulting in ESBL phenotypes is extremely low and requires many generations of selection under sub-lethal conditions. A survey of a geographically diverse set of isolates has shown that IS26-blaSHV was found in all of the bacterial populations surveyed. However, it does not appear to be exclusively associated with SHV-mediated ESBL production.
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