In vitro evaluation of BRL 42715, a novel beta-lactamase inhibitor

Coleman, Kenneth; Griffin, David Ray; Page, J. W. J.; Upshon, P. A.

doi:10.1128/aac.33.9.1580

Cited by 93 publications

(42 citation statements)

References 21 publications

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“…1, compound 16), is an effective inhibitor of class A, C, and D ␤-lactamases (119, 250). IC 50 s of BRL 42715 were 10-to 100-fold lower than those of clavulanate, tazobactam, and sulbactam for class A TEM-1 and SHV-1, class C P99, class D OXA-1, and the S. aureus ␤-lactamase NCTC 11561 (87). However, BRL 42715 was a substrate for class B metallo-␤-lactamases from Aeromonas hydrophila and S. maltophilia and for BcII (250).…”

Section: Penemsmentioning

confidence: 86%

“…However, BRL 42715 was a substrate for class B metallo-␤-lactamases from Aeromonas hydrophila and S. maltophilia and for BcII (250). In susceptibility testing, BRL 42715 concentrations of 0.25 g/ml or lower were able to restore amoxicillin MICs to Ͻ16 g/ml for TEM-1-and OXA-1-producing organisms (87). Further, amoxicillin-BRL 42715 combinations were more effective than amoxicillin-clavulanate for E. coli, K. pneumoniae, H. influenzae, S. aureus, and N. gonorrhoeae strains producing plasmid-mediated ␤-lactamases (mostly TEM and SHV expressors) and for K. oxytoca, Proteus vulgaris, and P. mirabilis strains producing chromosomal ␤-lactamases.…”

Section: Penemsmentioning

confidence: 99%

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Three Decades of β-Lactamase Inhibitors

Drawz¹,

2010

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SUMMARYSince the introduction of penicillin, β-lactam antibiotics have been the antimicrobial agents of choice. Unfortunately, the efficacy of these life-saving antibiotics is significantly threatened by bacterial β-lactamases. β-Lactamases are now responsible for resistance to penicillins, extended-spectrum cephalosporins, monobactams, and carbapenems. In order to overcome β-lactamase-mediated resistance, β-lactamase inhibitors (clavulanate, sulbactam, and tazobactam) were introduced into clinical practice. These inhibitors greatly enhance the efficacy of their partner β-lactams (amoxicillin, ampicillin, piperacillin, and ticarcillin) in the treatment of seriousEnterobacteriaceaeand penicillin-resistant staphylococcal infections. However, selective pressure from excess antibiotic use accelerated the emergence of resistance to β-lactam-β-lactamase inhibitor combinations. Furthermore, the prevalence of clinically relevant β-lactamases from other classes that are resistant to inhibition is rapidly increasing. There is an urgent need for effective inhibitors that can restore the activity of β-lactams. Here, we review the catalytic mechanisms of each β-lactamase class. We then discuss approaches for circumventing β-lactamase-mediated resistance, including properties and characteristics of mechanism-based inactivators. We next highlight the mechanisms of action and salient clinical and microbiological features of β-lactamase inhibitors. We also emphasize their therapeutic applications. We close by focusing on novel compounds and the chemical features of these agents that may contribute to a “second generation” of inhibitors. The goal for the next 3 decades will be to design inhibitors that will be effective for more than a single class of β-lactamases.

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Section: Penemsmentioning

confidence: 86%

Section: Penemsmentioning

confidence: 99%

Three Decades of β-Lactamase Inhibitors

Drawz¹,

2010

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“…Eight strains produced a 3-lactamase which comigrated with OXA-1 and showed resistance to the combination of amoxicillin with different ,B-lactamase inhibitors, except BRL42715, as previously described (8). It was previously shown that the OXA-1 enzyme was not as well inhibited as TEM-1 by different 1-lactamase inhibitors (8,13,15). For clavulanate, as shown again in this study, this could be explained by a lesser affinity of OXA-1 than that of TEM-1 (6).…”

Section: Discussionmentioning

confidence: 99%

Emergence of clinical isolates of Escherichia coli producing TEM-1 derivatives or an OXA-1 beta-lactamase conferring resistance to beta-lactamase inhibitors

Zhou

Bordon

Sirot

et al. 1994

Antimicrob Agents Chemother

116

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Sixteen Escherichia coli clinical isolates which were resistant to ampicillin and amoxicillin-clavulanate but susceptible to cephalothin were studied. Eight strains showed the presence of a ,I-lactamase which comigrates with reference OXA-1 enzyme. The eight other strains produced different TEM-1 derivatives which had in common a higher Km for penicillins and a higher 50%o inhibitory concentration for the P-lactamase inhibitors.By oligotyping and sequencing of PCR products, it was shown that Ser (AGC) (TEM-30; also called TRI-1) in three strains and Cys (TGC) (TEM-31; also called TRI-2) in one strain were substituted for , that Leu (CTG) (TEM-33) and Val (GTG) (TEM-34) in one strain each were substituted for , and that in other mutants the two latter substitutions occurred together with the substitution of Asp (GAT) for Asn-272 (AAT). Therefore, different sets of amino acid substitutions of TEM-1 can be found in clinical isolates and lead to resistance to P-lactamase inhibitors.Resistance to aminopenicillins has become very frequent in Escherichia coli and is observed in France in up to 30 to 50% of the E. coli strains isolated in the hospital as well as in the community (25). This resistance is generally due to the presence of plasmid-mediated ,-lactamases, among which TEM P-lactamases are the most frequently found (22,25). This is one reason that combinations of ,B-lactam antibiotics with inhibitors of P-lactamases are now extensively used. Therefore, it is not surprising that many investigators have reported the emergence of clinical isolates of E. coli resistant to some of these combinations (3,4,26,28,31,32,(34)(35)(36). At least two major mechanisms are evoked to explain this resistance: either overproduction of the TEM P-lactamase or a modification of the kinetic properties of the TEM 1-lactamase due to some amino acid substitution (4,20,32,36). In this work, we have studied the mechanism of resistance in 16 clinical isolates of E. coli resistant to the combination of amoxicillin and clavulanate but susceptible to cephalothin. MATERIALS AND METHODSBacterial strains, medium, and antibiotics. Sixteen clinical isolates of amoxicillin-clavulanate-resistant and cephalothinsusceptible E. coli were collected during a 1-year period (1991 to 1992) from different units and different patients in two hospitals (Hopital Broussais and Hopital Saint-Joseph Identification of the TEM 13-lactamase. After separation on a sodium dodecyl sulfate-15% polyacrylamide gel of the proteins present in the crude P-lactamase preparations of the different strains, polyclonal anti-TEM antibodies (kindly provided by J. Davies) and immunoblotting were used to identify the 1-lactamase as previously described (1).Oligotyping and sequencing of DNA amplified by PCR. Colony hybridizations were performed as follows. Nylon filters (0.45-,um pore size) (Hybond-N; Amersham) were placed on Mueller-Hinton agar and inoculated with 10 ,ul of 18-h broth cultures. After 6 h of incubation, colonies were lysed and DNA was fixed as described previously (1...

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“…The following antibiotics were obtained from the respective manufacturers: amoxicillin, Gruenenthal GmbH, Stolberg, Germany; ceftazidime, cefuroxime, clavulanate, and BRL 42715, GlaxoSmithKline GmbH & Co. KG, Munich, Germany; cefotaxime, Hoechst AG, Frankfurt/Main, Germany; cefepime and aztreonam, Bristol-Myers Squibb, Munich, Germany; cefoxitin and imipenem, Merck Sharp & Dohme, Munich, Germany; faropenem, Bayer AG, Wuppertal, Germany; meropenem, AstraZeneca GmbH, Plankstadt, Germany; nalidixic acid, reserpine, rifampin, and sodium azide, Sigma-Aldrich Chemie GmbH, Steinheim, Germany; piperacillin and tazobactam, Wyeth Pharma GmbH, Münster, Germany; chloramphenicol, Boehringer, Mannheim, Germany. The ␤-lactamase inhibitors clavulanate, tazobactam, and BRL 42715 (7,16) were used at a fixed concentration of 4 g/ml, and the efflux pump inhibitor reserpine was used at a fixed concentration of 20 g/ml. MICs were determined by an agar dilution technique on MuellerHinton agar inoculated with 10 4 CFU/spot with a multipoint inoculator following Clinical and Laboratory Standards Institute (formerly National Institute for Clinical and Laboratory Standards) guidelines (18).…”

Section: Methodsmentioning

confidence: 99%

Novel Carbapenem-Hydrolyzing Oxacillinase OXA-62 from Pandoraea pnomenusa

Schneider

Queenan

Bauernfeind

2006

Antimicrob Agents Chemother

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Pandoraea spp. are gram-negative, glucose nonfermenting rods detectable in blood cultures and sputa of cystic fibrosis patients. They are resistant to various antibiotic groups, with imipenem being the only active ␤-lactam. We isolated an imipenem-resistant (MIC, 64 g/ml) Pandoraea pnomenusa strain from a cystic fibrosis patient. Cloning and sequencing identified two ␤-lactamases of Bush group 2d, namely, the known OXA-33, located on an integron, and the novel carbapenem-hydrolyzing oxacillinase OXA-62. OXA-62 is only distantly related to other oxacillinases (OXA-50 being closest with 43% amino acid identity). It hydrolyzes penicillins, oxacillin, imipenem, and meropenem but not expanded-spectrum cephalosporins. The bla OXA-62 gene is chromosome located. No transposable elements were found in its genetic neighborhood. With OXA-62-specific primers, bla OXA-62 could be identified in all P. pnomenusa strains and appears to be species specific. This additional mechanism of carbapenem resistance further complicates the treatment of infections caused by P. pnomenusa.The genus Pandoraea was established by Coenye et al. in 2000 (6) as a result of reanalyzing strains not definitely identified to the species level which were phenotypically closest to Burkholderia cepacia, Ralstonia pickettii, or Ralstonia paucula. The genus Pandoraea includes five named species (Pandoraea apista, P. norimbergensis, P. pnomenusa, P. pulmonicola, and P. sputorum) and four unnamed genomospecies (9). Pandoraea sp. strains have been isolated from patients with septicemia and respiratory tract infections (mostly cystic fibrosis), as well as from food, water, and soil (6,9,14,17,21).Antibiotic therapy of infections caused by Pandoraea spp. is impaired by their resistance to multiple antibiotics, including penicillins, cephalosporins, cefoxitin, meropenem, aminoglycosides, and chloramphenicol. Their resistance to fluoroquinolones is variable. Only tetracycline, trimethoprim-sulfamethoxazole, and imipenem were found to be active against the majority of isolates (9,14,17,21). We recently cultured a P. pnomenusa strain from a cystic fibrosis patient. For this multiresistant strain, the MIC of imipenem was unusually high. A novel carbapenemhydrolyzing oxacillinase, OXA-62, turned out to be involved in the mechanism of resistance to imipenem.(Part of this work was presented at the 43rd Interscience Conference on Antimicrobial Agents and Chemotherapy [abstr. C1-666 and C2-2180].) MATERIALS AND METHODSStrains and plasmids. The strains used in this study are characterized in Table 1. The Pandoraea spp. were isolated from sputa of cystic fibrosis patients between 1997 and 2004 in different centers in Germany, partly as Burkholderia spp. not identifiable to the species level. They were identified by phenotypic (API 20 NE [BioMérieux, Marcy l'Etoile, France] and additional biochemical tests) and genotypic methods (PCR with species-specific oligonucleotides) with Pandoraea sp. type strains obtained from the Laboratorium voor Microbiologie (Universiteit Ghe...

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In vitro evaluation of BRL 42715, a novel beta-lactamase inhibitor

Cited by 93 publications

References 21 publications

Three Decades of β-Lactamase Inhibitors

Three Decades of β-Lactamase Inhibitors

Emergence of clinical isolates of Escherichia coli producing TEM-1 derivatives or an OXA-1 beta-lactamase conferring resistance to beta-lactamase inhibitors

Novel Carbapenem-Hydrolyzing Oxacillinase OXA-62 from Pandoraea pnomenusa

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