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:C1855645 (KPC)
1,473 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Carbapenems have been the most successful beta-lactam antibiotics in evading bacterial resistance. Nevertheless, acquired carbapenemases are increasingly reported, mostly in Pseudomonas and Acinetobacter isolates but occasionally also in Enterobacteriaceae. They include beta-lactamases of classes B (IMP and VIM), D (OXA-23 to -27) and A (IMI, KPC, NMC and SME). Major outbreaks of producers have occurred in a few centers and, in the US, there has been progressive erosion of carbapenem activity against Acinetobacter species, maybe due to carbapenemases. Acquired carbapenemases are still sufficiently rare not to have placed widespread constraints on chemotherapy, but there is reasonable concern that they will become a greater problem in the future. This is a good argument for continued caution with carbapenem use, and for extending this prudence to the oral and long half-life carbapenems shortly to become available. Most carbapenemase producers are broadly resistant to beta-lactams, and many are also resistant to fluoroquinolones and aminoglycosides. Clinicians facing infections caused by carbapenemase producers consequently are forced to use 'unusual' antibiotics such as polymyxins, isepamicin, minocycline and sulbactam (Pfizer Inc), which has inherent activity against A baumannii. Carbapenemase inhibitors might be developed in the future, despite difficulties in choosing the range of enzymes to target and obtaining broad-spectrum inhibition. For now, the best pharmaceutical strategy seems to lie in the development of novel antimicrobial classes with anti-Gram-negative activity, rather than in overcoming carbapenemases directly.
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PMID:The impact of carbapenemases on antimicrobial development and therapy. 1202 49

Carbapenem-hydrolyzing beta-lactamases of several Ambler molecular classes have been reported as the source of acquired beta-lactam antibiotic resistance in Gram negative bacteria. The metallo-enzymes of Ambler class B are the most prevalent enzymes in this case. These clavulanic-acid resistant enzymes have a large spectrum of hydrolysis including penicillins, cephalosporins (third and fourth generations), carbapenems but not monobactams. They are responsible for acquired resistance in several Gram negative species of clinical relevance in human medicine. IMP-1 was the first reported as acquired in Japan, mostly from Serratia marcescens and Pseudomonas aeruginosa isolates, and has been detected in Europe recently. Several variants of IMP-1 (IMP-2 to -9) have been characterized, possessing 85 to 99% amino acid identity, mostly from P. aeruginosa isolates. In addition, VIM-1 to -3 beta-lactamases have also been described, first in Europe (Italy, France, and Greece) and now in Korea. The VIM series shares 30% amino acid identity with the IMP-series. Most of these class B enzymes have genes that are integron- and plasmid-located. Finally, a few Ambler class A (SME-1, NMC-A, IMI-1, KPC-1) and class D (OXA-23 to -27) beta-lactamases involved in carbapenem hydrolysis have been reported also from rare isolates of Gram-negative rods. This review underlines the worldwide spread of carbapenem-hydrolyzing beta-lactamases as representing an important threat for efficacy of antibiotics in the near future.
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PMID:Acquired carbapenem-hydrolyzing beta-lactamases and their genetic support. 1202 55

Carbapenem antibiotics have been used to counteract resistant strains of bacteria harboring beta-lactamases and extended-spectrum beta-lactamases. Four enzymes from the class A group of beta-lactamases, NMC-A, IMI-1, SME-1, and KPC-1, efficiently hydrolyze carbapenem antibiotics. Sequence comparisons and structural information indicate that cysteines at amino acid residues 69 and 238, which are conserved in all four of these enzymes, form a disulfide bond that is unique to these beta-lactamases. To test whether this disulfide bond is required for catalytic activity, the codons for residues Cys69 and Cys238 were randomized individually and simultaneously by PCR-based mutagenesis to create random replacement libraries for these positions. Mutants that were able to confer resistance to ampicillin, imipenem, or cefotaxime were selected from these libraries. The results indicate that positions Cys69 and Cys238 are critical for hydrolysis of all of the antibiotics tested, suggesting that the disulfide bond is generally required for this enzyme to catalyze the hydrolysis of beta-lactam antibiotics.
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PMID:Amino acid sequence requirements at residues 69 and 238 for the SME-1 beta-lactamase to confer resistance to beta-lactam antibiotics. 1260 42

Doripenem (S-4661), a new parenteral carbapenem, was tested against over 250 clinical isolates, mutants, and transconjugants of Enterobacteriaceae and Acinetobacter spp., selected or derived for their beta-lactamase expression characteristics. Imipenem, meropenem, and ertapenem were tested as comparators, along with cephalosporins and piperacillin-tazobactam, by using National Committee for Clinical Laboratory Standards agar dilution methodology. Doripenem MICs were from 0.03 to 0.25 microg/ml for Klebsiella isolates, irrespective of the presence of extended-spectrum beta-lactamases (ESBLs) or plasmid-mediated AmpC or hyperproduced K1 beta-lactamase. Similarly, MICs of doripenem for both AmpC-inducible and -derepressed Enterobacter isolates were 0.06 to 0.5 microg/ml. ESBL production did not raise the MICs of doripenem for Escherichia coli transconjugants, and studies with known expression mutants confirmed that neither inducible nor depressed AmpC beta-lactamase expression was protective in Enterobacter cloacae, Citrobacter freundii, Serratia marcescens, or Morganella morganii. In all of these respects, doripenem resembled meropenem and imipenem, whereas the MICs of ertapenem were raised (but still < or =1 microg/ml) for many ESBL-producing klebsiellas and AmpC-derepressed E. cloacae and C. freundii strains. Resistance to all carbapenems, including doripenem (MICs of mostly 16 to 64 microg/ml, compared with 0.25 to 1 microg/ml for typical strains), was seen in Acinetobacter isolates with metallo-beta-lactamases or OXA-carbapenemases. Isolates of Klebsiella and Serratia spp. with IMP, KPC, and SME beta-lactamases also were resistant to doripenem (MICs, 8 to >64 microg/ml) and to other carbapenems, although the continued apparent susceptibility (MICs, < or =0.5 microg/ml) of E. coli derivatives with cloned IMP-1 and NMC-A beta-lactamases suggested that carbapenem resistance might require other factors besides the enzymes.
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PMID:Comparative activities of doripenem versus isolates, mutants, and transconjugants of Enterobacteriaceae and Acinetobacter spp. with characterized beta-lactamases. 1504 35

Between March and July 2002, total of 612 clinical isolates of Serratia marcescens, Enterobacter cloacae, and Citrobacter freundii (201 S. marcescens, 228 E. cloacae, and 183 C. freundii) were collected from 13 clinical laboratories in a nationwide distribution. Imipenem and meropenem minimum inhibitory concentrations (MICs) were determined using the agar dilution method according to the National Committee for Clinical Laboratory Standards guidelines. For the isolates with a decreased susceptibility to carbapenems (MICs of >or=2 microg/mL), isoelectric focusing, polymerase chain reaction (PCR) amplification of the carbapenemase genes (bla(IMP-1), bla(VIM-2), bla(SME-1), bla(OXA-23), bla(OXA-25), bla(KPC-1)), and sequencing were performed. The prevalence of S. marcescens, E. cloacae, and C. freundii with a decreased susceptibility to imipenem was 17.9% (36/201), 0.4% (1/228), and 0.5% (1/183), respectively, and to meropenem, it was 11.4% (23/201), 0% (0/228), and 0.5% (1/183), respectively. The bla(VIM-2) was the only carbapenemase detected, and was found in 0.5% (1/201) of S. marcescens and 0.5% (1/183) of C. freundii isolate.
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PMID:Prevalence of decreased susceptibility to carbapenems among Serratia marcescens, Enterobacter cloacae, and Citrobacter freundii and investigation of carbapenemases. 1599 52

The acquired resistance against the wide-spectrum and highly stable beta-lactams including third-generation cephalosporins (3GC) and carbapenems is constinuously increasing and widespead with the discovery of various plasmid-encoded, or genes cassette or integrons coding for a novel beta-lactamase, always a major mechanism of resistance. To explain resistance against 3GC, with the continuing story with TEM and SHV mutated enzymes, several types of ESBL (class A) emerge the CTX-M type, at least CTX-M-40, but also other non predominant types intitled BES, GES, PLA, PER, VEB. The wider resistance including 3GC, cephamycins and beta-lactamase inhibitor is correlated to synthesis of transferable cephalosporinases (class C) usually located in the chromosome but mobilized from Enterobacter spp., Citrobacter freundii, Hafnia alvei, Morganella morganii, Aeromonas caviae. Such genes encoded the following types: ACC-1, ACT-1, CFE-1, CMY group, DHA-1, FOX group, MIR-1, MOX-1. Finally the resistance against carbapemens e.g. imipenem originally restricted to Pseudomonas aeruginosa, then to Acinetobacter baumannii and finally to enterobacteria is related to production of novel enzymes (classes B, D and A) denominated IMP, VIM SME, GIM, OXA, KPC. A striking exemple of evolution towards more and more resistance is given by Salmonella, even from animal origins, a great threat fo public health. So far it appears necessary to perform molecular approaches to identify such enzymatic production. Finally because the absence of real new drugs, the discovery of some progenitors of the gene beta-lactamase, a strict control of beta-lactam antibiotics must be provide not only in medecine or veterinary field but also in agriculture, including aquaculture for example.
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PMID:[Beta-lactamases of Gram negative bacteria: never-ending clockwork!]. 1642 Sep 89

Among 8885 Enterobacteriaceae tested in the 1999 to 2005 period as part of the USA Meropenem Yearly Susceptibility Test Information Collection (MYSTIC) Program, 51 strains with increased imipenem and meropenem MIC values (> or =2 microg/mL) were detected. bla(KPC) was identified from 28 Klebsiella pneumoniae from 3 medical centers in the New York City area (8 ribotypes), 2 Klebsiella oxytoca from Arkansas (same ribotype), 7 Citrobacter freundii (6 from New York [5 ribotypes] and 1 from Delaware), 4 Enterobacter spp. from New York (2 species, different ribotypes), 3 Escherichia coli (2 from New York and 1 from Ohio, same ribotype), and 1 Serratia marcescens (New York). Sequencing confirmed KPC-2 or -3 in all of the strains. S. marcescens strains harboring SME-1 (2 isolates, same ribotype) and SME-2 (1 isolate) were identified from medical centers in Illinois and Washington state, respectively. Our results indicate that bla(KPC-2/3) has emerged widely (New York City area, Arkansas, Delaware, and Ohio) among Enterobacteriaceae isolated in the MYSTIC Program participant sites (2000-2005) and continues to be isolated from multiple species, as a result of clonal expansion and horizontal gene transfer. The escalating occurrence (0.35%) of serine carbapenemases could compromise the role of carbapenems and other beta-lactams in USA clinical practice although observed in only a few locations to date.
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PMID:Emergence of serine carbapenemases (KPC and SME) among clinical strains of Enterobacteriaceae isolated in the United States Medical Centers: report from the MYSTIC Program (1999-2005). 1702 Jul 98

Enterobacteria produce elementary chromosomal enzymes, Beta-lactamases of class A: TEM and SHV (Escherichia coli, Klebsiella pneumoniae). These can give rise to plasmid-coded broad-spectrum Beta-lactamases (ESBL) discovered in 1980 (E. coli, K. pneumoniae, Enterobacter cloacae). The first cefotaximase (CTX-M, MEN-1) was reported in Europe in 1990. This enzyme is far more active against cefotaxime than against ceftazidime and aztreonam. Chromosomal hyperpoduction of K1 Beta-lactamase differs from all other ESBLs due its sensitivity to ceftazidime (Klebsiella oxytoca). However, not all enterobacteria are resistant only because of ESBLs, but also as a result of the action of chromosomally or plasmid coded AmpC Beta-lactamase of class C (MIR-1, CMY-1, BIL-1, FOX-1, MOX-1, DHA-1, ACC-1), resistant to Beta-lactamase inhibitors and to cefoxitin (Enterobacter spp., Proteus vulgaris, Citrobacter freundii, Morganelle spp., Serratia spp.). With the loss of outside-membrane porins (OMP) they can become resistant to carbapenem an tibiotics. The 100% resistance of enterobacteria to carbapenems that so far exists in this country is elsewhere in the world compromised by the incidence of carbapenem-hydrolysing plasmid-determined Beta-lactamase of class B (IMP-1, VIM-1) and of class A (KPC-1) in K. pneumoniae, (SME-1) in Serratia marcescens and (IMI-1, NMC-A) in E. clocae. Carbapenemases in enterobacteria are only effective in the presence of impermeability and other resistance mechanisms.
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PMID:[Development of Beta-lactamase resistance in enterobacteria]. 1705 71

Emergence and dissemination of Enterobacteriaceae isolates harboring carbapenemases in various geographic regions represents a significant threat to the management of nosocomial infections. Enterobacteriaceae isolates from the SENTRY Antimicrobial Surveillance Program (2000-2004) demonstrating decreased susceptibility to imipenem and meropenem (minimum inhibitory concentration [MIC], > or =2 mg/L) were evaluated for the production of metallo-beta-lactamases and serine carbapenemases using disk approximation and polymerase chain reaction (PCR) tests. Carbapenemase-producing strains were epidemiologically typed by automated riboprinting and pulsed-field gel electrophoresis (PFGE) to establish clonality. Among 37,557 Enterobacteriaceae (5 genus groups) evaluated, 119 (0.32%) had increased carbapenem MIC values, and a carbapenemase was identified in 51 (42.9%) of these strains. KPC-2 and KPC-3 were the most frequently occurring carbapenemases (24 isolates, 20.2%) in the United States and were detected in Klebsiella spp, Citrobacter spp., Enterobacter spp., and Serratia marcescens strains isolated in New York, Arkansas, and Virginia. SME-2-producing S. marcescens were isolated in the New York City area, Texas, and Ohio, while NMC-A was found in one E. cloacae strain from New York. In contrast, metallo-beta-lactamases were prevalent in Europe. IMP-1-producing E. cloacae (11 isolates) were detected in Turkey, while VIM-1-producing strains were found in Italy (Enterobacter spp.) and Greece (Klebsiella pneumoniae). Clonal dissemination of carbapenemase-producing strains was observed in several medical centers on both continents. The occurrence of carbapenemases in various Enterobacteriaceae remains rare but appears to be spreading geographically (not in Latin America), mainly with metallo-beta-lactamases being found in Mediterranean Europe and KPC enzymes in the New York City area.
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PMID:Occurrence and characterization of carbapenemase-producing Enterobacteriaceae: report from the SENTRY Antimicrobial Surveillance Program (2000-2004). 1722 6

Carbapenems, such as imipenem and meropenem, are most often used to treat infections caused by enterobacteria that produce extended-spectrum beta-lactamases, and the emergence of enzymes capable of inactivating carbapenems would therefore limit the options for treatment. Carbapenem resistance in Enterobacteriaceae is rare, but class A beta-lactamases with activity against the carbapenems are becoming more prevalent within this bacterial family. The class A carbapenemases can phylogenetically be segregated into six different groups of which four groups are formed by members of the GES, KPC, SME, IMI/NMC-A enzymes, while SHV-38 and SFC-1 each separately constitute a group. The genes encoding the class A carbapenemases are either plasmid-borne or located on the chromosome of the host. The bla(GES) genes reside as gene cassettes on mainly class I integrons, whereas the bla(KPC) genes and a single bla(IMI-2) gene are flanked by transposable elements on plasmids. Class A carbapenemases hydrolyse penicillins, classical cephalosporins, monobactam, and imipenem and meropenem, and the enzymes are divided into four phenotypically different groups, namely group 2br, 2be, 2e and 2f, according to the Bush-Jacoby-Medeiros classification system. Class A carbapenemases are inhibited by clavulanate and tazobactam like other class A beta-lactamases.
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PMID:Class A carbapenemases. 1759 89


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