Prediction of the Evolution of Ceftazidime Resistance in Extended-Spectrum β-Lactamase CTX-M-9

Delmas, Julien; Robin, Frédéric; Carvalho, Fernando Aécio de Amorim; Mongaret, Céline; Bonnet, Richard

doi:10.1128/aac.50.2.731-738.2006

Cited by 34 publications

(31 citation statements)

References 41 publications

(45 reference statements)

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“…Mutation at codon 167 resulted in Glycine ? Arginine substitution in the constituent omega loop (161 to 179 codon), situated at the floor of catalytic active site of CTX-M enzyme [26]. Both codons 242 and 259 encode amino acids constituent of a/b domain of CTX-M protein.…”

Section: Discussionmentioning

confidence: 99%

High Prevalence and Significant Association of ESBL and QNR Genes in Pathogenic Klebsiella pneumoniae Isolates of Patients from Kolkata, India

et al. 2012

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Pathogenic Klebsiella pneumoniae, resistant to beta-lactam and quinolone drugs, is widely recognized as important bacteria causing array of diseases. The resistance property is obtained by acquisition of plasmid encoded bla-TEM , bla SHV , bla CTX-M , QNRA, QNRB and QNRS genes. The aim of this study was to document the prevalence and association of these resistant genes in K. pneumoniae infecting patients in India. Approximately 97 and 76.7 % of the 73 K. pneumoniae isolates showed resistance towards betalactam and quinolone drugs respectively. Bla genes were detected in 74 % of K. pneumoniae isolates; with prevalence in the following order: bla TEM [ bla SHV [ bla CTXM . QNR genes were detected in 67 % samples. Chi-square analysis revealed significant association between presence of bla and qnr genes in our study (P value = 0.000125). Sequence analysis of some bla TEM , bla SHV , bla CTX-M and QNRB PCR products revealed presence of bla TEM1 (GenBank accession: JN193522), bla TEM116 (JN193523 and JN193524), bla SHV11 , bla CTXM72 variants (JF523199) and QNRB1 (JN193526 and JN193527) in our samples.

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Section: Discussionmentioning

confidence: 99%

High Prevalence and Significant Association of ESBL and QNR Genes in Pathogenic Klebsiella pneumoniae Isolates of Patients from Kolkata, India

et al. 2012

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“…coli BL21(DE3) cells (Novagen) containing the pET 9a (ϩ) expression vector were grown in superoptimal broth (SOB) containing 50 g/ml kanamycin (11,16). These cells were grown with agitation at 37°C until an optical density at 600 nm of 0.8 was attained.…”

Section: Methodsmentioning

confidence: 99%

“…The bla CTX-M-9 gene was cloned into the pET9a (ϩ) plasmid vector (Novagen) as described previously and was maintained in E. coli BL21(DE3) cells (11,16).…”

Section: Methodsmentioning

confidence: 99%

Exploring the Inhibition of CTX-M-9 by β-Lactamase Inhibitors and Carbapenems

Bethel

Taracila

Shyr

et al. 2011

Antimicrob Agents Chemother

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Currently, CTX-M ␤-lactamases are among the most prevalent and most heterogeneous extended-spectrum ␤-lactamases (ESBLs). In general, CTX-M enzymes are susceptible to inhibition by ␤-lactamase inhibitors. However, it is unknown if the pathway to inhibition by ␤-lactamase inhibitors for CTX-M ESBLs is similar to TEM and SHV ␤-lactamases and why bacteria possessing only CTX-M ESBLs are so susceptible to carbapenems. Here, we have performed a kinetic analysis and timed electrospray ionization mass spectrometry (ESI-MS) studies to reveal the intermediates of inhibition of CTX-M-9, an ESBL representative of this family of enzymes. CTX-M-9 ␤-lactamase was inactivated by sulbactam, tazobactam, clavulanate, meropenem, doripenem, ertapenem, and a 6-methylidene penem, penem 1. CTX-M enzymes are becoming one of the most prevalent extended-spectrum ␤-lactamases (ESBLs) (3,8,9,(30)(31)(32) in the world. The widespread dissemination of CTX-M ␤-lactamases, especially Escherichia coli ST131 possessing CTX-M-15, has had a significant impact on the treatment of hospital-and community-acquired infections caused by E. coli and other enteric bacilli (6, 7, 13, 23, 36, 41, 44-49, 55, 59).As class A family ␤-lactamases, CTX-Ms are the most genetically heterogeneous (5 major divisions, CTX-M-1, -2, -8, -25, and -9-like groups) (1, 24, 35, 44-46, 58, 60). Most CTX-M enzymes expressed in E. coli provide a high level of resistance to the oxyimino-cephalosporins, cefotaxime and ceftriaxone, and variable levels of resistance to cefepime and cefpirome (3,43). Depending on the type of CTX-M expressed by the isolates, the MICs of ceftazidime are also increased (43). In addition, the MICs of combinations of clavulanate with amoxicillin or ticarcillin vary, and in some cases, low-level resistance has been observed (3).As a consequence of their clinical importance, the reaction mechanism of CTX-M ESBLs has been the subject of intense study (10-12, 14, 16, 42). However, the molecular properties and characteristics of CTX-M that determine the level of susceptibility and resistance to ␤-lactam-␤-lactamase inhibitor combinations and carbapenems are still unknown. Of the currently available inhibitors, tazobactam is the most active (50% inhibitory concentrations [IC 50 s] are 2 to 10 nM for tazobactam and 9 to 90 nM for clavulanate), and sulbactam is the least active (IC 50 s are 0.1 to 4.5 M) (3).In order to develop more effective and broader-spectrum ␤-lactamase inhibitors (18), detailed kinetic and biochemical measurements are needed to reveal the important intermediates in the inactivation of the CTX-M family. In TEM-1 and SHV-1, Arg244 is important in the mechanism of inactivation of carbapenems (imipenem and meropenem), clavulanic acid, sulbactam, and tazobactam (27,28,51,53,63). CTX-M-9 does not contain Arg244, and mutagenesis of a potential corresponding position, Arg276, does not firmly establish this amino acid as an "Arg244 equivalent" (42). Given the differences among class A enzymes, we wondered what the intermediates of inactivation by ...

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“…This mutation is found in the naturally occurring enzymes of the CTX-M-2 and CTX-M-9 clusters (CTX-M-35 and CTX-M-19) and, as shown by Welsh et al (30), can be readily selected with CAZ following the in vitro mutagenesis of CTX-M-2. It is interesting to note that our in vitro experiments as well as similar studies by other authors (10,19,24,30) yielded only the Pro3Ser mutation at position 167, whereas a variety of substitutions at this position have been found in the naturally occurring CTX-M ceftazidimases (e.g., Thr in CTX-M-23 and CTX-M-42, Ser in CTX-M-52, and Gln in CTX-M-54). Although the reason for this remains unclear, it may be at least partially explained by the fact that a nucleotide transition required for the Pro167Ser substitution is more likely to occur in almost all types of mutators, including the mutD5 strain used in our experiments and the mutS strains employed in the other studies (19,24).…”

Section: Resultsmentioning

confidence: 80%

“…Recently, however, several CTX-M variants have been reported to contain point mutations at amino acid position 167 or 240 (Ambler's numbering scheme [1]) in association with increased CAZ-hydrolyzing activity, which leads to a higher level of CAZ resistance (2,3,5,8,21,22,25,27,28). Substitutions of these amino acids in CTX-M enzymes have been shown in both clinical isolates (3,8,25,28) and mutants selected in vitro by CAZ exposure (10,22,24,30). In recent studies by Karisik et al (19) and Novais et al (24), it has been demonstrated that mutations at position 167 in CTX-M-3, which lead to increased CAZ resistance, are readily selected in vitro when mutator host strains are used.…”

mentioning

confidence: 99%

Convergent In Vivo and In Vitro Selection of Ceftazidime Resistance Mutations at Position 167 of CTX-M-3 β-Lactamase in Hypermutable Escherichia coli Strains

Stepanova

Pimkin

Nikulin

et al. 2008

Antimicrob Agents Chemother

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We report on a novel CTX-M extended-spectrum ␤-lactamase (ESBL), designated CTX-M-42, with enhanced activity toward ceftazidime. CTX-M-42 was identified in a hypermutable Escherichia coli nosocomial isolate (isolate Irk2320) and is a Pro167Thr amino acid substitution variant of CTX-M-3. By molecular typing of ESBL-producing E. coli strains previously isolated in the same hospital ward, we were able to identify a putative progenitor (strain Irk1224) of Irk2320, which had a mutator phenotype and harbored the CTX-M-3 ␤-lactamase. To reproduce the natural evolution of CTX-M-3, we selected for ceftazidime resistance mutations in bla CTX-M-3 gene in vitro both in clinical isolate Irk1224 and in laboratory-derived hypermutable (mutD5) strain GM2995. These experiments yielded CTX-M-3 Pro167Ser and CTX-M-3 Asn136Lys mutants which conferred higher levels of resistance to ceftazidime than to cefotaxime. CTX-M-3 Asn136Lys had a level of low activity toward ampicillin, which may explain its absence from clinical isolates. We conclude that the selection of CTX-M-42 could have occurred in vivo following treatment with ceftazidime and was likely facilitated by the hypermutable background.

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Prediction of the Evolution of Ceftazidime Resistance in Extended-Spectrum β-Lactamase CTX-M-9

Cited by 34 publications

References 41 publications

High Prevalence and Significant Association of ESBL and QNR Genes in Pathogenic Klebsiella pneumoniae Isolates of Patients from Kolkata, India

High Prevalence and Significant Association of ESBL and QNR Genes in Pathogenic Klebsiella pneumoniae Isolates of Patients from Kolkata, India

Exploring the Inhibition of CTX-M-9 by β-Lactamase Inhibitors and Carbapenems

Convergent In Vivo and In Vitro Selection of Ceftazidime Resistance Mutations at Position 167 of CTX-M-3 β-Lactamase in Hypermutable Escherichia coli Strains

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