1.Plasmid-encoded AmpC beta-lactamases: how far have we gone 10 years after the discovery?.
Adolf BAUERNFEIND ; Yunsop CHONG ; Kyungwon LEE
Yonsei Medical Journal 1998;39(6):520-525
The dogma that ampC genes are located exclusively on the chromosome was dominant until about 10 years ago. Since 1989 over 15 different plasmid-encoded AmpC beta-lactamases have been reported from several countries. Most of these enzymes evolved in two clusters. The major cluster includes several enzymes with a high similarity to CMY-2, which is the closest related chromosomal AmpC enzyme of Citrobacter freundii. A second cluster centers around CMY-1. It is less homogeneous and not closely related chromosomal AmpC enzymes. Molecular diversification by amino acid substitutions does not usually translate into a change in the resistance phenotype. At this time, CMY-2 appears to be the most prevalent and widely distributed. Further global increase of prevalence and diversity of plasmidic AmpC beta-lactamases have to be anticipated in the next millenium.
Microbiology/trends
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Plasmids/genetics*
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Structure-Activity Relationship
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Tissue Distribution
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beta-Lactamases/metabolism
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beta-Lactamases/genetics*
2.Study on the prevalence and genotype of commensal Escherichia coli producing AmpC β-lactamase isolated from health chicken.
Jing-yun LI ; Sheng-hui CUI ; Yue MA ; Chang-qin HU ; Shao-hong JIN
Chinese Journal of Epidemiology 2010;31(1):110-111
Animals
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Bacterial Proteins
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genetics
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metabolism
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Chickens
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microbiology
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Escherichia coli
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genetics
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metabolism
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Genotype
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beta-Lactamases
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genetics
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metabolism
3.The mechanism of resistance of Pseudomonas aeruginosa to beta-lactam antibiotics and clinical significance.
Jianxin SONG ; Qiurong RUAN ; Junying QI ; Meiying GAO ; Yiguang WANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2002;22(4):339-342
To study the resistant mechanism and clinical significance of pseudomonas aeruginosa to beta-lactam antibiotics, the outer membrane permeability rate of 30 P. aeruginosa strains to 5 beta-lactam antibiotics was measured and their production of beta-lactamase and the beta-lactamase genes they carried detected. Furthermore, the relationship between the permeability, beta-lactamase and the clinical effects of beta-lactam antibiotics was observed. By using 14C-penicillin and liquid-scintillant isotope assay, the affinity of penicillin binding proteins (PBPS) was measured and their roles in the resistant mechanism studied. It was revealed that the permeability rate was higher in sensitive strains than in resistant ones (P < 0.05). All strains harbored 1-4 beta-lactamase genes and produced beta-lactamase. Higher permeability rate and higher degree of stability to beta-lactamase indicated better clinical therapeutic effects. The affinity of PBPs changed little without regard to the permeability and beta-lactamase. These results suggested that the permeability of outer membrane and beta-lactamase, but not PBPs, played important roles in the resistant mechanism of P. aeruginosa to beta-lactam antibiotics and affected the clinical therapeutic effectiveness of some patients.
Anti-Bacterial Agents
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pharmacology
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Bacterial Outer Membrane Proteins
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metabolism
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Humans
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Microbial Sensitivity Tests
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Permeability
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Pseudomonas aeruginosa
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drug effects
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beta-Lactam Resistance
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genetics
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beta-Lactamases
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metabolism
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beta-Lactams
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pharmacology
4.The mechanism of resistance of Pseudomonas aeruginosa to beta-lactam antibiotics and clinical significance.
Jianxin, SONG ; Qiurong, RUAN ; Junying, QI ; Meiying, GAO ; Yiguang, WANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2002;22(4):339-42
To study the resistant mechanism and clinical significance of pseudomonas aeruginosa to beta-lactam antibiotics, the outer membrane permeability rate of 30 P. aeruginosa strains to 5 beta-lactam antibiotics was measured and their production of beta-lactamase and the beta-lactamase genes they carried detected. Furthermore, the relationship between the permeability, beta-lactamase and the clinical effects of beta-lactam antibiotics was observed. By using 14C-penicillin and liquid-scintillant isotope assay, the affinity of penicillin binding proteins (PBPS) was measured and their roles in the resistant mechanism studied. It was revealed that the permeability rate was higher in sensitive strains than in resistant ones (P < 0.05). All strains harbored 1-4 beta-lactamase genes and produced beta-lactamase. Higher permeability rate and higher degree of stability to beta-lactamase indicated better clinical therapeutic effects. The affinity of PBPs changed little without regard to the permeability and beta-lactamase. These results suggested that the permeability of outer membrane and beta-lactamase, but not PBPs, played important roles in the resistant mechanism of P. aeruginosa to beta-lactam antibiotics and affected the clinical therapeutic effectiveness of some patients.
Anti-Bacterial Agents/*pharmacology
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Bacterial Outer Membrane Proteins/metabolism
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Microbial Sensitivity Tests
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Permeability
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Pseudomonas aeruginosa/*drug effects
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beta-Lactam Resistance/*genetics
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beta-Lactamases/metabolism
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beta-Lactams/*pharmacology
5.Emergence of Klebsiella pneumoniae carbapenemase-producing Proteus mirabilis in Hangzhou, China.
Zi-ke SHENG ; Jun-jie LI ; Guo-ping SHENG ; Ji-fang SHENG ; Lan-juan LI
Chinese Medical Journal 2010;123(18):2568-2570
BACKGROUNDCarbapenems are used to treat severe infections caused by multi-drug-resistant organisms, however, the emergence of carbapenem-resistant bacterial isolates is becoming an increasing therapeutic challenge. Since the first Klebsiella (K.) pneumoniae carbapenemase (KPC)-producing K. pneumoniae was reported in 2001, KPC-producing isolates have been found increasingly, specially in Enterobacteriaceae. The aim of this study was to characterize the mechanisms of a carbapenem-resistant Proteus (P.) mirabilis.
METHODSA carbapenem-resistant P. mirabilis isolate was recovered from pleural drainage fluid of a patient admitted to surgical intensive care unit. Antimicrobial susceptibility testing of the isolate was performed by disk diffusion according to Clinical and Laboratory Standards Institute guidelines, and subsequent minimal inhibitory concentrations were determined with the E-test. Amplification of the bla(KPC) gene generated a positive band and the PCR products were sequenced subsequently. The plasmid of the isolate was extracted and was successfully transformed into Escherichia (E.) coli DH5α.
RESULTSThe P. mirabilis isolate was resistant to all detected antimicrobial agents except tigecycline. KPC-2 was confirmed by DNA sequence analysis. The transformant E. coli was resistant to carbapenems. Further study demonstrated that upstream and downstream regions of bla(KPC-2) were identical to that observed in K. pneumoniae submitted to GenBank from China in 2007.
CONCLUSIONCarbapenem resistance in the P. mirabilis isolate in this study is mainly due to production of KPC-2.
Anti-Bacterial Agents ; pharmacology ; Bacterial Proteins ; metabolism ; China ; Klebsiella pneumoniae ; enzymology ; Proteus mirabilis ; drug effects ; enzymology ; beta-Lactamases ; metabolism
7.Multiplex PCR for Rapid Detection of Genes Encoding Class A Carbapenemases.
Sang Sook HONG ; Kyeongmi KIM ; Ji Young HUH ; Bochan JUNG ; Myung Seo KANG ; Seong Geun HONG
Annals of Laboratory Medicine 2012;32(5):359-361
In recent years, there have been increasing reports of KPC-producing Klebsiella pneumoniae in Korea. The modified Hodge test can be used as a phenotypic screening test for class A carbapenamase (CAC)-producing clinical isolates; however, it does not distinguish between carbapenemase types. The confirmation of type of CAC is important to ensure optimal therapy and to prevent transmission. This study applied a novel multiplex PCR assay to detect and differentiate CAC genes in a single reaction. Four primer pairs were designed to amplify fragments encoding 4 CAC families (SME, IMI/NMC-A, KPC, and GES). The multiplex PCR detected all genes tested for 4 CAC families that could be differentiated by fragment size according to gene type. This multiplex PCR offers a simple and useful approach for detecting and distinguishing CAC genes in carbapenem-resistant strains that are metallo-beta-lactamase nonproducers.
Bacterial Proteins/*genetics/metabolism
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DNA Primers/metabolism
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Databases, Genetic
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Humans
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Klebsiella Infections/microbiology
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Klebsiella pneumoniae/genetics/isolation & purification/metabolism
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*Multiplex Polymerase Chain Reaction
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beta-Lactamases/*genetics/metabolism
8.Multidrug-Resistant Acinetobacter spp.: Increasingly Problematic Nosocomial Pathogens.
Kyungwon LEE ; Dongeun YONG ; Seok Hoon JEONG ; Yunsop CHONG
Yonsei Medical Journal 2011;52(6):879-891
Pathogenic bacteria have increasingly been resisting to antimicrobial therapy. Recently, resistance problem has been relatively much worsened in Gram-negative bacilli. Acinetobacter spp. are typical nosocomial pathogens causing infections and high mortality, almost exclusively in compromised hospital patients. Acinetobacter spp. are intrinsically less susceptible to antibiotics than Enterobacteriaceae, and have propensity to acquire resistance. A surveillance study in Korea in 2009 showed that resistance rates of Acinetobacter spp. were very high: to fluoroquinolone 67%, to amikacin 48%, to ceftazidime 66% and to imipenem 51%. Carbapenem resistance was mostly due to OXA type carbapenemase production in A. baumannii isolates, whereas it was due to metallo-beta-lactamase production in non-baumannii Acinetobacter isolates. Colistin-resistant isolates were rare but started to be isolated in Korea. Currently, the infection caused by multidrug-resistant A. baumannii is among the most difficult ones to treat. Analysis at tertiary care hospital in 2010 showed that among the 1,085 isolates of Acinetobacter spp., 14.9% and 41.8% were resistant to seven, and to all eight antimicrobial agents tested, respectively. It is known to be difficult to prevent Acinetobacter spp. infection in hospitalized patients, because the organisms are ubiquitous in hospital environment. Efforts to control resistant bacteria in Korea by hospitals, relevant scientific societies and government agencies have only partially been successful. We need concerted multidisciplinary efforts to preserve the efficacy of currently available antimicrobial agents, by following the principles of antimicrobial stewardship.
Acinetobacter/classification/*drug effects/genetics/metabolism
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Anti-Bacterial Agents/pharmacology
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Bacterial Proteins/metabolism
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Drug Resistance, Multiple, Bacterial/genetics
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beta-Lactamases/metabolism
9.Analysis of the carbapenemase-producing mechanism of Enterobacteriaceae with decreased susceptibility to carbapenems.
Tingting WANG ; Dongdong LI ; Chuanmin TAO ; Yi XIE ; Mei KANG ; Zhixing CHEN
Journal of Southern Medical University 2013;33(11):1600-1604
OBJECTIVETo analyze the distribution of Enterobacteriaceae isolated from West China Hospital, investigate the antibiotic resistance profile of Enterobacteriaceae with decreased susceptibility to carbapenems and explore the molecular mechanism.
METHODSForty-five Enterobacteriaceae strains resistant or with reduced susceptibility to carbapenems were isolated from patients in West China Hospital. The antimicrobial susceptibility and carbapenemase-producing phenotypes of the bacteria were examined and specific PCR were performed to determine the molecular mechanism.
RESULTSOf the 45 isolates, 17, 21 and 36 were resistant or intermediate strains to imipenem, meropenem and ertapenem, respectively. The majority of these isolates showed resistance to cephalosporins. The modified Hodge test resulted in the highest positivity rate (77.8%), followed by EDTA disc test (57.8%) and PBA disc test (22.2%). BlaTEM, blaSHV and blaCTX-M were detected in 60.0%, 53.3% and 15.6% of these strains with reduced susceptibility. The rate of strains carrying 2 or more genes was 44.4%, and the detection rate of blaIMP was 48.9%. BlaKPC was identified in 4 (8.9%) high-level resistant strains and confirmed to locate on the plasmid.
CONCLUSIONProduction of carbapenemase contributes to reduced susceptibility of carbapenems in Enterobacteriaceae. The presence of blaKPC, MBL and ESBL, and their possible combinations can be the main factor contributing to carbapenem resistance or reduced susceptibility in Enterobacteriaceae. The KPC-2 carbapenemase gene located on the plasmids we found in this study can cause potential horizontal transmission across strains.
Anti-Bacterial Agents ; pharmacology ; Bacterial Proteins ; genetics ; metabolism ; Carbapenems ; pharmacology ; Cephalosporins ; pharmacology ; Enterobacteriaceae ; drug effects ; enzymology ; genetics ; Gene Amplification ; Imipenem ; pharmacology ; Microbial Sensitivity Tests ; Polymerase Chain Reaction ; Thienamycins ; pharmacology ; beta-Lactam Resistance ; beta-Lactamases ; genetics ; metabolism ; beta-Lactams ; pharmacology
10.Metallo-beta-Lactamase-Producing Pseudomonas spp. in Korea: High Prevalence of Isolates with VIM-2 Type and Emergence of Isolates with IMP-1 Type.
Kyungwon LEE ; Ae Ja PARK ; Moon Yeun KIM ; Hee Joo LEE ; Ji Hyun CHO ; Jung Oak KANG ; Dongeun YONG ; Yunsop CHONG
Yonsei Medical Journal 2009;50(3):335-339
PURPOSE: Two Korean nationwide studies showed that metallo-beta-lactamases (MBLs)-producing-Pseudomonas spp. are not rare. The aim of this study was to assess the trends of MBL-producing isolates among imipenem-resistant isolates of Pseudomonas spp. MATERIALS AND METHODS: Imipenem-resistant clinical isolates were collected from 23 hospitals and one commercial laboratory participating in the KONSAR program in 2005. Polymerase chain reaction (PCR) was used to detect MBL genes. RESULTS: Alleles of MBL genes were detected in 10.8% of 415 Pseudomonas aeruginosa and 66.7% of 12 P. putida isolates from 18 of 24 hospitals/laboratory. Among the 14 IMP-1-like and 39 VIM-2-like MBLs, emergence of IMP-6 was detected for the first time. CONCLUSION: Prevalence of MBL-producing P. aeruginosa has not significantly increased, but IMP-6 emerged in P. aeruginosa.
Anti-Bacterial Agents/pharmacology
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Electrophoresis, Gel, Pulsed-Field
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Humans
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Imipenem/pharmacology
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Korea
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Polymerase Chain Reaction
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Pseudomonas Infections/*microbiology
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Pseudomonas aeruginosa/drug effects/genetics/*metabolism
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beta-Lactamases/genetics/*metabolism