UMLS:C0276640 - FACTA Search

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Query: UMLS:C0276640 (TEM)
20,729 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Strains of Escherichia coli (N = 124) and Proteus mirabilis (N = 29) harboring known beta-lactamases were analyzed as to their susceptibility to ampicillin, amoxicillin, and piperacillin alone and in combination with sulbactam, clavulanate, and tazobactam. With TEM 1-producing E. coli, a correlation between specific beta-lactamase activity and the MIC of piperacillin and ampicillin-sulbactam was observed. These strains also showed significant differences in susceptibilities to the various combinations, suggesting that, at least in strains resistant to one combination, several beta-lactam/beta-lactamase inhibitor combinations should be tested in the laboratory. All combinations tested enhanced the activity of the beta-lactam towards TEM 1-producing E. coli, piperacillin-tazobactam being the most active. The drugs were less active to OXA 1 enzymes; solely with piperacillin-tazobactam 90% of strains were within the therapeutic range of the drug. Sulbactam acted synergistically to chromosomally encoded beta-lactamases, whereas amoxicillin-clavulanate was inactive. Piperacillin and piperacillin-tazobactam inhibited all strains producing chromosomally encoded beta-lactamases at concentrations within the therapeutic range of the drugs. In contrast, TEM 2 of P. mirabilis was not sensitive to ampicillin-sulbactam, but to the other combinations; here again piperacillin-tazobactam was the most active.
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PMID:Comparative in vitro activities of amoxicillin-clavulanate, ampicillin-sulbactam and piperacillin-tazobactam against strains of Escherichia coli and proteus mirabilis harbouring known beta-lactamases. 164 71

Five plasmid-mediated beta-lactamases conferring high-level resistance to ceftazidime were isolated from Klebsiella pneumoniae strains in the same hospital. These enzymes had isoelectric points ranging from 5.3 to 6.5 (CAZ-1, 5.55; CAZ-2, 6.0; CAZ-3, 5.3; CAZ-6, 6.5; and CAZ-7, 6.3). All isolates and their Escherichia coli transconjugants were highly resistant to amoxicillin (MICs, greater than 4,096 micrograms/ml), piperacillin (64 to 256 micrograms/ml), cephalothin (32 to 256 micrograms/ml), and ceftazidime (32 to 512 micrograms/ml) but remained moderately susceptible to cefotaxime (0.5 to 8 micrograms/ml). Only CAZ-6- and CAZ-7-producing strains were highly resistant to aztreonam (64 to 128 micrograms/ml). All the isolates remained susceptible to moxalactam and imipenem. The reduced activity of piperacillin, cefotaxime, ceftazidime, or aztreonam was restored by 2 micrograms of clavulanate, sulbactam, tazobactam, or brobactam per ml for E. coli producing CAZ-2, CAZ-3, and CAZ-7. Sulbactam had a lower protective effect than other inhibitors for E. coli harboring CAZ-1 and especially CAZ-6. Except for CAZ-1, which was mediated by a 150-kilobase (kb) plasmid (pCFF14), the other ceftazidimases were mediated by plasmids of 85 kb with EcoRI digestion patterns similar to that of pCFF04 encoding CTX-1 beta-lactamase. A TEM probe hybridized with a 19-kb EcoRI fragment of all these closely related plasmids.
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PMID:Multiplicity of TEM-derived beta-lactamases from Klebsiella pneumoniae strains isolated at the same hospital and relationships between the responsible plasmids. 255 14

Three different types of beta-lactamases--TEM-2 type penicillinase, a typical cephalosporinase of Citrobacter freundii, and a Proteus vulgaris cephalosporinase with broad substrate range--were studied to determine the inactivation and reactivation kinetics for beta-lactamase inhibitors of these enzymes. Sulbactam, cloxacillin sulfone, clavulanic acid, imipenem, and aztreonam were evaluated. On the basis of the kinetic parameters a minimum scheme for the inactivation of these beta-lactamases by each compound was proposed, and the difference in the features of each of these as progressive and competitive inhibitors were evaluated. The relationship between the kinetic parameters and the synergistic effects of the inhibitors in combination with traditional beta-lactam antibiotics on the bacterial strains producing these beta-lactamases was examined. A close relationship between the synergistic effect, expressed as the FIC index, and a proposed parameter, TN x Ki/Km, was demonstrated. The results of this analysis suggest that sulbactam is a beta-lactamase inhibitor applicable to a wide range of beta-lactamase types.
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PMID:Mechanism of beta-lactamase inhibition: differences between sulbactam and other inhibitors. 259 Nov 72

A plasmid-encoded beta-lactamase conferring extended broad spectrum resistance including cephamycins was identified in a Klebsiella pneumoniae strain isolated from a patient's wound. Strains harbouring the plasmid pMVP-1 were resistant to penicillins, cephalosporins of all generations (parenteral and new oral compounds) cephamycins, aztreonam, tetracycline, chloramphenicol, sulfonamides and to all aminoglycosides modified by AAC-(6)-I-transferase. beta-lactams still active against these strains were temocillin, ceftazidime, cefpirome, carumonam and the carbapenems imipenem and meropenem. The new cephamycinase (CMY-1) was more strongly inhibited by sulbactam in the majority of combinations than by clavulanic acid or tazobactam. MICs of ceftazidime and carumonam were not reduced by inhibitors in the wild type and the transconjugant. A transferable plasmid (pMVP-1) of about 9.6 x 10(7) dalton was demonstrated by gel-electrophoresis. In the wild type and the transconjugant a beta-lactamase with an isoelectric point of 8.0 was identified. This enzyme CMY-1 is different from the other extended broad spectrum beta-lactamases (TEM-3 to TEM-10, SHV-2 to SHV-5). The incidence of this enzyme may be underestimated, since resistance to cephamycins in Klebsiella and Escherichia coli has so far been regarded as almost exclusively chromosomally encoded and sensitivity of CMY-1 to clavulanic acid is low. Therefore, screening for CMY-1 beta-lactamases by the usual double disk test including clavulanic acid is not sensitive enough to detect CMY-1 producers. Sulbactam (e.g. in combination with ampicillin) disks and a cephamycin should therefore be used as well when screening for super extended broad spectrum (SEBS-) beta-lactamases.
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PMID:Extended broad spectrum beta-lactamase in Klebsiella pneumoniae including resistance to cephamycins. 268 49

Five plasmid-mediated beta-lactamases conferring a high level of resistance to ceftazidime were isolated from Klebsiella pneumoniae strains. These ceftazidimases (CAZ) differed in their isoelectric point (from 5.3 to 8.2) and were encoded by large self-transferable plasmids of 85 kb (CAZ-2, CAZ-3) or greater than or equal to 150 kb (CAZ-1, CAZ-4, CAZ-5). The 85 kb plasmids seemed closely related to pCFF04 encoding CTX-1 enzyme and belonged to the same incompatibility group 7 or M. These beta-lactamases hydrolysed all beta-lactams with the exception of cephamycins and carbapenems. For CAZ-1, CAZ-2 and CAZ-3 producers, MICs of ceftazidime (32-256 mg/l) were higher than MICs of cefotaxime (0.12-2 mg/l) and aztreonam (1-16 mg/l). For the strains producing the beta-lactamases CAZ-4 and CAZ-5, MICs of aztreonam were the highest (greater than or equal to 256 mg/l). The impaired activities of cephalosporins and monobactams were restored equally well by 2 mg/l of clavulanate, sulbactam and CL-298741 for CAZ-2 producing strains (wild type and transconjugant). Sulbactam (2 mg/l) had a lower protective effect than other inhibitors on ceftazidime for CAZ-1 and CAZ-3 producing K. pneumoniae. The protective effect of sulbactam (2 mg/l) was lower than that of the other inhibitors on all beta-lactams for CAZ-4 and CAZ-5 producers. The enzymes CAZ-1, CAZ-2 and CAZ-3 derived from TEM beta-lactamase whereas CAZ-4 and CAZ-5 derived from SHV-1 enzyme.
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PMID:Comparative study of five plasmid-mediated ceftazidimases isolated in Klebsiella pneumoniae. 269 30

Three concentrations of the penicillanic acid sulfone, sulbactam were tested in combination with cefoperazone against 632 recent clinical bacterial isolates. Cefoperazone was effective alone (less than or equal to 16 micrograms/mL) against 95% of Enterobacteriaceae and combined with 4 micrograms/mL sulbactam inhibited 99.5% of strains. This coverage of enteric bacilli was superior to timentin (99.1%), ceftazidime (98.2%), and tobramycin (90.9%). The minimum inhibitory concentrations (MICs) of cefoperazone-susceptible strains also were markedly decreased by sulbactam (overall MIC90s, 8.0 micrograms/mL for cefoperazone and 1.0 microgram/mL for cefoperazone and 4.0 micrograms/mL for sulbactam). Sulbactam also expanded the spectrum of cefoperazone against Acinetobacter species, some rare Pseudomonas species, and Bacteroides fragilis group species. Sulbactam had direct antimicrobial activity against the acinetobacters and Pseudomonas acidovorans, but the increased activity of cefoperazone-sulbactam against some other Pseudomonas species and anaerobes was attributed to beta-lactamase inhibition. The cefoperazone MICs against beta-lactamase producing Staphylococcus species also were lowered to the level of enzyme-deficient strains. Cefoperazone bactericidal activity was improved by 4.0 micrograms/mL sulbactam, and no antagonism was observed. beta-lactamase hydrolysis studies confirmed a slow hydrolysis of cefoperazone only by TEM beta-lactamases and a high-grade resistance to enzyme breakdown by sulbactam. Differential beta-lactamase affinity studies for cefoperazone and sulbactam showed potential efficacy and applications to plasmid-mediated TEM and OXA enzymes and only marginal effective sulbactam inhibition of Pseudomonas and Klebsiella species enzymes. Disk diffusion studies on 556 strains confirmed the applicability of the cefoperazone 75-micrograms disk to testing routine isolates other than enterococci and methicillin-resistant Staphylococcus aureus. The addition of 4.0 micrograms sulbactam/mL in a fixed concentration to dilution test systems and 15 micrograms sulbactam to the 75 micrograms cefoperazone disk were recommended for in vitro tests. Susceptibility and resistant interpretive criteria for the disk and dilution tests can be applied with confidence. Only 0.4% false-susceptibility errors and a 97.5% absolute interpretive agreement were achieved using the 75 micrograms cefoperazone/15 micrograms sulbactam disk.
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PMID:The cefoperazone-sulbactam combination. In vitro qualities including beta-lactamase stability, antimicrobial activity, and interpretive criteria for disk diffusion tests. 299 61

Cefoperazone was tested against 554 clinical isolates alone and with sulbactam in three combinations. The addition of sulbactam in low concentrations (less than or equal to 4 micrograms/ml) improved the spectrum of cefoperazone principally against gram-negative bacilli such as Acinetobacter species, some Pseudomonas species, and beta-lactamase-positive Enterobacteriaceae. Nearly all of the spectrum increase was achieved at a sulbactam level of less than or equal to 2 micrograms/ml. Sulbactam was found to be an effective antimicrobial agent against Acinetobacter species (MIC50, 1.0 microgram/ml), Pseudomonas acidovorans (MIC50, 2.0 micrograms/ml), Neisseria gonorrhoeae (MIC50, less than or equal to 0.5 microgram/ml), and N. meningitidis (MIC50, less than or equal to 0.5 microgram/ml). Sulbactam had a higher affinity and binding constant for the plasmid-mediated beta-lactamases such as TEM-1 and TEM-2 compared to cefoperazone (greater than or equal to 10-fold difference). This finding was important as cefoperazone can be hydrolyzed at a moderate rate by the highly efficient TEM enzymes (less than 2% of clinical Escherichia coli isolates). Sulbactam increased the susceptibility (less than or equal to 16 micrograms/ml) of 220 isolates of Enterobacteriaceae to cefoperazone from 88.6 to 96.3% when 4.0 micrograms/ml of sulbactam was added. The cefoperazone antimicrobial activity was also increased against the nonenteric bacilli from a 69.5 to a 87.4% total inhibition. MICs among cefoperazone-susceptible gram-negative and gram-positive strains were routinely decreased 2- to 32-fold, as calculated from MIC90 results. Therefore, sulbactam should predictably increase the antimicrobial spectrum and clinical effectiveness of cefoperazone against nosocomial and other pathogens such as the plasmid-containing enteric bacilli, Bacteroides species and Acinetobacter species, and possibly provide the opportunity to reduce dosage schedules for infecting species already susceptible to cefoperazone alone.
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PMID:In vitro antimicrobial activity of cefoperazone-sulbactam combinations against 554 clinical isolates including a review and beta-lactamase studies. 299 94

beta-Lactamases constitute the major defense mechanism of pathogenic bacteria against beta-lactam antibiotics. When the beta-lactam ring of this antibiotic class is hydrolyzed, antimicrobial activity is destroyed. Although beta-lactamases have been identified with clinical failures for over 40 years, enzymes with various abilities to hydrolyze specific penicillins or cephalosporins are appearing more frequently in clinical isolates. One approach to counteracting this resistance mechanism has been through the development of beta-lactamase inactivators. beta-Lactamase inhibitors include clavulanic acid and sulbactam, molecules with minimal antibiotic activity. However, when combined with safe and efficacious penicillins or cephalosporins, these inhibitors can serve to protect the familiar beta-lactam antibiotics from hydrolysis by penicillinases or broad-spectrum beta-lactamases. Both of these molecules eventually inactivate the target enzymes permanently. Although clavulanic acid exhibits more potent inhibitory activity than sulbactam, especially against the TEM-type broad-spectrum beta-lactamases, the spectrum of inhibitory activities are very similar. Neither of these inhibitors acts as a good inhibitor of the cephalosporinases. Clavulanic acid has been most frequently combined with amoxicillin in the orally active Augmentin and with ticarcillin in the parenteral beta-lactam combination Timentin. Sulbactam has been used primarily to protect ampicillin from enzymatic hydrolysis. Sulbactam has been used either in the orally absorbed prodrug form as sultamicillin or as the injectable combination ampicillin-sulbactam. Synergy has been demonstrated for these combinations for most members of the Enterobacteriaceae, although those organisms that produce cephalosporinases are not well inhibited. Synergy has also been observed for Neisseria gonorrhoeae, Haemophilus influenzae, penicillinase-producing Staphylococcus aureus, and anaerobic organisms. These antibiotic combinations have been used clinically to treat urinary tract infections, bone and soft-tissue infections, gonorrhea, respiratory infections, and otitis media. Gastrointestinal side effects have been reported for Augmentin and sultamicillin; most side effects with these agents have been mild. Although combination therapy with beta-lactamase inactivators has been used successfully, the problem of resistance development to two agents must be considered. Induction of cephalosporinases can occur with clavulanic acid. Permeability mutants could arise, especially with added pressure from a second beta-lactam.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Beta-lactamase inhibitors from laboratory to clinic. 306 Feb 40

The beta-lactamases of six strains of Acinetobacter baumannii were investigated using analytical isoelectric focusing, and the MIC values for 16 beta-lactam antibiotics determined against the strains. Three strains produced a chromosomal cephalosporinase (pI > 8.5), one strain a CARB-5 beta-lactamase (pI = 6.35), one strain a TEM-1 penicillinase (pI = 5.4) as well as a cephalosporinase (pI > 8.5), and one carbapenem-resistant strain a beta-lactamase with a pI > 8.5. Ceftazidime, cefepime, cefpirome, imipenem and meropenem were found to be the most effective beta-lactams against five strains. Sulbactam was active against four of the strains at 1-4 mg/L and showed enhanced killing effects with cefpirome.
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PMID:In-vitro activity of cephalosporins alone and combined with sulbactam against various strains of Acinetobacter baumannii with different antibiotic resistance profiles. 864 58

Ceftazidime-resistant Escherichia coli and Klebsiella pneumoniae (49 and 102 isolates, respectively) were collected from Barnes-Jewish Hospital, St. Louis, Mo., from 1992 to 1996. They were uniformly resistant to ceftazidime, generally resistant to aztreonam, and variably susceptible to cefotaxime. Four representative E. coli strains and 15 Klebsiella strains were examined. From one to four beta-lactamases were produced per strain, with three possible enzymes related to ceftazidime resistance: enzymes with pI values of 5.6, 6.1, or 7.6. By pulsed-field gel electrophoresis there were at least 13 different Klebsiella strain types and 3 different E. coli strain types, indicating that the outbreak was not clonal. After cloning and sequencing of the beta-lactamase-encoding genes, the enzyme with a pI of 5.6 was identified as TEM-10. The enzyme with a pI of 6.1 was a novel TEM variant (TEM-43) with Lys at 104, His at 164, and Thr at 182. TEM-43 showed broad-spectrum hydrolytic activity against all penicillins, with the highest hydrolysis rate for ceftazidime compared to those for the other expanded-spectrum cephalosporins. Aztreonam was also a good substrate for TEM-43, with hydrolytic activity similar to that of ceftazidime and affinity higher than that of ceftazidime. The TEM-43 beta-lactamase was well inhibited by clavulanic acid and tazobactam at concentrations of < 10 nM. Sulbactam was less effective than the other inhibitors. The Thr182 mutation previously reported in an inhibitor-resistant beta-lactamase did not cause the TEM-43 enzyme to become resistant to any of the inhibitors.
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PMID:Ceftazidime-resistant Klebsiella pneumoniae and Escherichia coli isolates producing TEM-10 and TEM-43 beta-lactamases from St. Louis, Missouri. 966 Oct 2

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