Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The activity of the new oral cephalosporin Bay v 3522 was compared to that of six other beta-lactam agents. Bay v 3522 inhibited methicillin-susceptible Staphylococcus aureus and Staphylococcus epidermidis at less than or equal to 2 micrograms/ml, compared to MICs of greater than or equal to 8 micrograms/ml for the other cephalosporins tested. It was more active against Streptococcus pyogenes (MIC less than or equal to 0.06 microgram/ml) than cefuroxime, cefixime, cephalexin and cefaclor. Groups B, C and G streptococci were inhibited at less than or equal to 0.12 microgram/ml, while the MI"90 for Streptococcus bovis and viridans streptococci was 0.5 and 2 micrograms/ml, respectively. The MIC90 for enterococci and Listeria monocytogenes was 8 micrograms/ml. Clostridium perfringens was inhibited by 0.12 microgram/ml, but most Bacteroides spp. were resistant. The MIC90 for beta-lactamase positive Escherichia coli (producing primarily TEM-1) was greater than 64 micrograms/ml and for beta-lactamase negative strains 16 micrograms/ml. The MIC90 for high-level beta-lactamase producing Klebsiella pneumoniae was greater than 64 micrograms/ml versus 4 micrograms/ml for other isolates. The MIC90 for Moraxella catarrhalis was 2 micrograms/ml, for Haemophilus influenzae 1 micrograms/ml, and for Neisseria gonorrhoeae 4 micrograms/ml. Enterobacter cloacae, Citrobacter freundii, Proteus mirabilis, Providencia spp. and Pseudomonas aeruginosa were resistant. Bay v 3522 was destroyed by TEM-1, SHV-1, TEM-3 and P99 beta-lactamases.
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PMID:In vitro activity and beta-lactamase stability of the new oral cephalosporin Bay v 3522. 222 99

The antibacterial activity of cefpodoxime, a new orally active methoxy-imino cephalosporin was evaluated in 470 recent isolates of gram-positive cocci and gram-negative rods from clinical specimens and compared to that of other orally active beta-lactam compounds. Cefpodoxime was highly active against ampicillin-resistant enterobacteria producing the plasmid-mediated TEM-1, TEM-2 or OXA-1 enzymes, as was the case for the other newer compounds. However, it was poorly active against cefuroxime-resistant (MIC greater than or equal to 16 mg/l) E. coli isolates, thus resembling cefetamet and cefixime. It was inactive against isolates exhibiting a production of large amounts of class I beta-lactamase, as was the case with all other compounds studied. Cefpodoxime was highly active against beta-hemolytic streptococci and against Haemophilus influenzae, resembling the related agents. Moreover, its activity against Staphylococcus aureus was comparable to that of cefotaxime and exceeded that of cefetamet and cefixime. Cefpodoxime and the other methoxyimino cephalosporins exhibited a poor affinity to the plasmid-mediated TEM-2 and OXA-1 enzymes. The hydrolysis of cefpodoxime by class I beta-lactamases was barely detectable, whereas it served as a moderate substrate for the enzyme from Klebsiella oxytoca 3951. Cefpodoxime, cefetamet and cefixime were slowly inactivated by the enzyme from Proteus vulgaris 4917 (an enzyme with cefuroximase activity) and much poorer substrates than cefotaxime.
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PMID:Cefpodoxime: comparable evaluation with other orally available cephalosporins. With a note on the role of beta-lactamases. 224 85

Escherichia coli GRI was isolated from an ear exudate of a newborn. The strain was highly resistant to cefotaxime (MIC 128 mg/l). Resistance to cefotaxime and the majority of beta-lactam antibiotics was readily transferred to an Escherichia coli recipient strain. Both the wild type and the transconjugant strains are different in their resistance phenotype from TEM-3 beta-cefotaximase producers by higher MICs to the majority of beta-lactams and lower MICs to ceftazidime. The isoelectric point of the cefotaximase of E. coli GRI was 8.9 in comparison with 6.3 for TEM-3. Thus, the enzyme produced by E. coli GRI represents a new plasmidic (plasmid pMVP-3) broad spectrum beta-lactamase (CTX-M) which may not be closely related to either the TEM- oder SHV-family of extended broad spectrum beta-lactamases.
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PMID:A new plasmidic cefotaximase in a clinical isolate of Escherichia coli. 227 23

HRE 664, a new penem antibiotic, inhibited 90% of Escherichia coli, Klebsiella, Citrobacter diversus, Proteus mirabilis, Proteus vulgaris, Salmonella, Shigella, Providencia, Aeromonas, and Morganella at less than or equal to 2 micrograms/ml but was considerably less active than cefotaxime, ceftazidime, and imipenem. It did not inhibit Pseudomonas aeruginosa (MIC greater than 128 micrograms/ml). HRE 664 inhibited Enterobacter spp., Citrobacter freundii, and Serratia marcescens at 1-8 micrograms/ml, two- to fourfold higher MICs than imipenem. HRE 664 inhibited methicillin-susceptible Staphylococcus aureus and Staphylococcus epidermidis at less than or equal to 0.12 micrograms/ml, but methicillin-resistant S. aureus and S. epidermidis were resistant. Group A, C, and G streptococci and Streptococcus pneumoniae were inhibited by 0.06 micrograms/ml. Bacteroides and Clostridium species were inhibited by 0.25 micrograms/ml comparable to imipenem. HRE 664 was not hydrolyzed by beta-lactamases TEM-1, TEM-2, TEM-3, TEM-5, SHV-1, PSE-1, PSE-4, OXA-2, OXA-3, K-1, P99, Morganella, P. vulgaris, and S. aureus PC-1 but was hydrolyzed by the beta-lactamase of Xanthomonas maltophilia.
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PMID:In vitro activity of HRE 664, a penem antibiotic. 227 81

We compared the in vitro activity and beta-lactamase stability of MDL 19,592, an orally absorbed cephalosporin, with that of cephalexin and cefaclor. It inhabited Staphylococcus aureus at less than or equal to 4 micrograms/ml, Streptococcus pyogenes at 0.25 microgram/ml, sero groups B, C and G streptococci at 1 microgram/ml, and Streptococcus pneumoniae at 2 micrograms/ml. It was slightly more active than cefaclor and cephalexin. MDL 19,592 did not significantly inhibit Enterobacteriaceae, enterococci, Listeria monocytogenes, Pseudomonas aeruginosa, and Acinetobacter spp. strains (MIC greater than or equal to 32 micrograms/ml). MDL 19,592 was not hydrolyzed by the plasmid beta-lactamases TEM-1 and SHV-1 of Klebsiella but was hydrolyzed by the TEM-3, Staphylococcus aureus beta-lactamase, and the chromosomal-mediated Enterobacter cloacae P99 enzymes.
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PMID:Antibacterial activity and beta-lactamase stability of MDL 19,592, an oral cephalosporin. 251 27

We studied the beta-lactamase activity characteristics of a penicillin G resistant N. meningitidis strain (MIC = 8 micrograms/ml) isolated from a septicemic process, in an eleven month old girl, attended in the Sabadell Hospital (Barcelona). The beta-lactamase substrate profile was broad-spectrum (it hydrolyses penicillin G and cephaloridine) and the nitrocefin hydrolysis was inhibited by clavulanic acid. The analytical isoelectric focusing of the enzyme showed that the isoelectric point of the main band and, the secondary bands, were compatible with those of the type TEM-1 standard enzyme. We also obtained a positive DNA-DNA hybridization with the TEM-1 beta-lactamase (pBR322 plasmid).
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PMID:[Type TEM beta-lactamase activity in a Neisseria meningitidis strain]. 251 79

The susceptibility of isolates or Enterobacteriaceae to orally absorbed beta-lactams (amoxicillin, cephalexin, cefaclor, cefuroxime, and cefixime), was maximum for the iminomethoxy-aminothiazolyl-cephalosporin but variable according to bacterial species. For E. coli, P. mirabilis, Salmonella, Shigella, K. pneumoniae, K. oxytoca (group 1) MIC50 were congruent to 0.06 mg/l, and MIC90 congruent to 0.12 mg/l. Finally for C. freundii, E. aerogenes, E. cloacae, S. marcescens, M. morganii, MIC50 were higher, congruent to 1, and MIC90 16 mg/l. The slight increase reported between MIC50 ans MIC90 of cefixime against isolates belonging to group 1 was related to stability towards beta-lactamases (TEM, SHV) unlike groups 2 and 3, where the drug was less stable to chromosomal type 1 enzyme. The discovery of extended-spectrum beta-lactamases (ESB) (e.g. SHV-2, CTX-1 or TEM-3), mainly in K. pneumoniae, led to further investigations of the behavior of cefixime. The in vitro activity of cefixime (CFM), amoxicillin (AMX) combined or not with clavulanate (AMC, 2 mg/l), ticarcillin (TIC), cephalothin (CF), cefotaxime (CTX), ceftazidime (CAZ) and aztreonam (AZM) was determined by the agar dilution method (inoculum 10(5) cfu/ml) against clinical isolates: E. coli (26), K. pneumoniae (42), K. oxytoca (9), Salmonella (3) producing several types of beta-lactamases, chromosomal (cephalosoporinase, broad-spectrum) or plasmid-encoded (TEM-1, TEM-2, CTX-1, SHV-2, SHV-3, SHV-4). The geometric mean MIC values of AMX, AMC, TIC, CF, CTX, CAZ, AZM and CFM were as follows: greater than 480, 21.6, greater than 285, 45.6, 0.53, 1.12, 0.51, and 0.77 respectively. An MIC increase of oxyimino beta-lactams (CTX, CAZ, AZM, CFM) was observed against over-producing isolates of K. oxytoca and isolates producing ESB (CTX-1, SHV-2, SHV-3, SHV-4). The comparative behavior of cefixime was determined after transfer by conjugation to E. coli K-12. Sixty-one derivatives were constructed producing TEM-1, TEM-2, SHV-1, CTX-1, TEM-4, CAZ-2, SHV-2, SHV-3, SHV-4, the MICs of cefixime were stable against derivatives producing a penicillinase (TEM-1, TEM-2, SHV-1), but not against those producing an ESB. The MIC increases of undigestible beta-lactams ranged from 1 to 135 fold (CFM), 40 to 200 fold (CTX) 12 to 232 fold (CAZ), and 4 to 240 fold (AZM).
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PMID:[Antibacterial effect of cefixime in the presence of the type of beta-lactamases produced by Enterobacteriaceae]. 253 May 32

Four major mechanisms cause resistance to beta-lactams in Pseudomonas aeruginosa: (i) cell wall impermeability gives broad-spectrum intrinsic resistance to all beta-lactams except imipenem, (i) loss of D-group outer membrane proteins correlates with narrow spectrum imipenem resistance, (iii) plasmid mediated beta-lactamases compromise antipseudomonal penicillins, cefoperazone and cefsulodin, and (iv) chromosomal beta-lactamase hyper-production compromises most beta-lactams except carbenicillin and imipenem. Meropenem was tested in vitro against P. aeruginosa isolates, mutants and transconjugants with these mechanisms. Meropenem had impaired activity (MIC 1-2 mg/l compared to 0.25 mg/l for sensitive isolates) for organisms with broad-spectrum intrinsic resistance. MICs of meropenem also were elevated (to 1-2 mg/l) for mutants with D2-protein-deficiency-associated imipenem resistance. Most plasmids encoding TEM, OXA or PSE beta-lactamases did not increase the MIC (0.12 mg/l) of meropenem for P. aeruginosa PU21. Decreased susceptibility (MIC 4 mg/l), however, was observed when plasmids coding the uncommon NPS-1, PSE-2 and OXA-3 enzymes were present in this strain. MICs of meropenem remained identical for chromosomal beta-lactamase-inducible P. aeruginosa strains and their enzyme-derepressed and basal mutants, indicating that the chromosomal beta-lactamase could not protect against the new carbapenem, regardless of its mode of expression.
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PMID:Comparative activity of meropenem against Pseudomonas aeruginosa strains with well-characterized resistance mechanisms. 255 57

The combination of piperacillin and the beta-lactamase inhibitor tazobactam (formerly YTR 830) was studied to determine optimal disk concentrations and dilution testing conditions. In addition, the potency of the combination was compared to that of piperacillin alone. The spectrum of piperacillin was greatly expanded by the addition to tazobactam principally against beta-lactamase producing strains of Haemophilus influenzae, Escherichia coli, Morganella morganii, Proteus vulgaris, Providencia stuartii, Shigella spp., Neisseria gonorrhoeae, and Staphylococcus spp. Tazobactam was active alone against Branhamella catarrhalis (minimum inhibitory concentration [MIC] 50, less than or equal to 1 microgram/ml), gonococci (MIC 50, 0.5-4 micrograms/ml), and N. meningitidis (MIC 50, less than or equal to 1 microgram/ml). Studies with beta-lactamase-producing type strains showed tazobactam to have high affinity for plasmid-mediated enzymes (TEM-1 and 2, SHV-1, HMS-1, and some CARB or OXA types) and not chromosomal beta-lactamases. Piperacillin/tazobactam inhibited 93% of fluoro-quinolone resistant strains at less than or equal to 64/8 micrograms/ml but failed to suppress the growth of 15 strains producing stably depressed cephalosporinases. Comparisons of piperacillin/tazobactam results determined with 100/10-, 100/20-, and 100/30-micrograms disks established the 100/10-micrograms disk as most usable. Among five different MIC combinations the ratio of eight parts piperacillin to one part tazobactam or fixed concentration tests at greater than or equal to 4 micrograms tazobactam/ml were preferred, each producing very low occurrences (less than or equal to 1.6%) of false-resistance or -susceptibility when compared to disk test results. MICs determined by agar and broth microdilution methods were essentially the same. The recommended breakpoints for piperacillin/tazobactam MICs were identical to those now found in the NCCLS susceptibility testing standards with the following exceptions: (1) for tests with H. influenzae and Staphylococcus spp.--susceptible at greater than or equal to 21 mm (MIC less than or equal to 16/2 micrograms/ml) and resistant less than or equal to 20 mm (MIC less or equal to 32/4 micrograms/ml); and (2) all remaining nonspeudomonas isolates would be interpreted by the NCCLS piperacillin enteric bacilli susceptibility criteria. This newer beta-lactamase inhibitor combination appears to be worthy of further in vivo trials guided by these or similar tentative in vitro susceptibility testing parameters.
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PMID:Studies to optimize the in vitro testing of piperacillin combined with tazobactam (YTR 830). 256 Apr 22

Concern has been expressed that clavulanate can antagonize ticarcillin against enterobacteria and pseudomonads that have inducible expression of chromosomal 'Class I' beta-lactamases. It is suggested that clavulanate-induced enzyme inactivates ticarcillin, which itself is a feeble inducer. We confirmed that this mechanism applied, showing that antagonism was abolished in beta-lactamase-basal mutants of inducible strains. Antagonism has been reported in double disc tests with strains of Pseudomonas aeruginosa, Enterobacter cloacae, Citrobacter freundii, Serratia spp. and indole-positive Proteeae. Only with some strains of Ent. cloacae and Morganella morganii, however, did the presence of 1-32 mg/l clavulanate elevate the MIC of ticarcillin by more than one or two dilutions in chequerboard studies. Clavulanate was synergistic with ticarcillin against Proteus vulgaris strains, being a potent inhibitor of the unusual Class I enzyme of this species. Induction-determined antagonism was not reduced in Ent. cloacae transconjugants that produced the plasmid-mediated TEM-1 beta-lactamase, despite the ability of this enzyme to bind clavulanate. Our results suggest that Ent. cloacae and M. morganii strains should be confirmed not to be more sensitive to ticarcillin alone than to ticarcillin/clavulanate, before the latter combination is used clinically. Otherwise, it appears that beta-lactamase induction is unlikely to cause significant antagonism. It is emphasized that induction is reversible, causing, at worst, a transient resistance. It should not be confused with the selection of stably-derepressed mutants that can occur, for example, in the clinical use of newer cephalosporins.
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PMID:Clavulanate and beta-lactamase induction. 260 17


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