ABSTRACT
Abstract: Objective: To compare the genetic determinants involved in plant colonization or virulence in the reported genomes of K. variicola, K. quasipneumoniae and K. pneumoniae. Materials and methods: In silico comparisons and Jaccard analysis of genomic data were used. Fimbrial genes were detected by PCR. Biological assays were performed with plant and clinical isolates. Results: Plant colonization genes such as cellulases, catalases and hemagglutinins were mainly present in K. variicola genomes. Chromosomal β-lactamases were characteristic of this species and had been previously misclassified. K. variicola and K. pneumoniae isolates produced plant hormones. Conclusions: A mosaic distribution of different virulence- and plant-associated genes was found in K. variicola and in K. quasipneumoniae genomes. Some plant colonizing genes were found mainly in K. variicola genomes. The term plantanosis is proposed for plant-borne human infections.
Resumen: Objetivo: Comparar genes de colonización de plantas o de virulencia en los genomas reportados de K. variicola, K. quasipneumoniae y K. pneumoniae. Material y métodos: Se utilizaron análisis in silico y de Jaccard. Por PCR se detectaron genes de fimbrias. Se realizaron ensayos biológicos con aislados de plantas y clínicos. Resultados: Los genes de colonización de plantas como celulasas, catalasas y hemaglutininas se encontraron principalmente en genomas de K. variicola. Las β-lactamasas cromosómicas son características de la especie y en algunos casos estaban mal clasificadas. K. variicola y K. pneumoniae producen hormonas vegetales. Conclusiones: Se encontró una distribución en mosaico de los genes de asociación con plantas y de virulencia en K. variicola y K. quasipneumoniae. Principalmente en K. variicola se encontraron algunos genes involucrados en la colonización de plantas. Se propone el término plantanosis para las infecciones humanas de origen vegetal.
Subject(s)
Humans , Plants/microbiology , Klebsiella Infections/microbiology , Klebsiella/physiology , Bacterial Proteins/physiology , Bacterial Proteins/genetics , Virulence/genetics , Computer Simulation , Disease Reservoirs , Adaptation, Biological/genetics , Genome, Bacterial , Drug Resistance, Multiple, Bacterial , Gene Ontology , Genes, Bacterial , Klebsiella/enzymology , Klebsiella/genetics , Klebsiella/pathogenicityABSTRACT
Respiratory diseases are common in young horses but little is known about such infections in mule foals. This study aimed to characterize Escherichia coli and Klebsiella sp. isolated from tracheal wash (TW) and fecal samples (FS) of mule foals, with or without cytological evidence of respiratory disease. Strains were analyzed against 13 antimicrobials, for presence of Extended spectrum beta-lactamase (ESBL), and virulence genes. Phylogrouping and Randomic (RAPD)-PCR profiles were used to evaluate their genetic relatedness. E. coli strains from TW and FS showed greatest resistance to tetracycline, while Klebsiella strains were mainly resistant to ampicillin; multidrug resistance and ESBL production were also detected. The blaCTX gene prevailed among the E. coli isolates, while the blaSHV gene was more frequently found in K. pneumoniae. The fimH gene was detected in most of the isolates and multiple virulence factors were identified in three E. coli isolates. Most of the E. coli isolates belonged to the B1 phylogroup, but B2 strains displayed more virulence genes. The RAPD assay revealed genetic diversity among strains and was able to distinguish FS isolates from TW isolates. Knowledge of the bacteria associated with the respiratory tract of mule foals is important in the treatment of sick animals.(AU)
Doenças respiratórias são comuns em potros de equinos, porém pouco se sabe sobre tais infecções em potros de muar. Este estudo buscou caracterizar Escherichia coli e Klebsiella sp. isolados de lavados traqueais (TW) e amostras fecais (FS) de potros de muar com e sem evidências citológicas de doença respiratória. As amostras bacterianas foram testadas contra 13 antimicrobianos, para a presença de genes de resistência estendida às betalactamases (ESBL) e de virulência. Filogrupagem e perfis de PCR randômicos (RAPD) foram usados para avaliar sua relação genética. As amostras de E. coli de TW e FS mostraram maior resistência à tetraciclina, enquanto as amostras de Klebsiella foram mais resistentes à ampicilina; multirresistência e produção de ESBL também foram detectadas. O gene blaCTX foi mais frequente entre E. coli, enquanto o gene blaSHV foi mais encontrado entre K. pneumoniae. O gene fimH foi detectado na maioria dos isolados de E. coli, enquanto múltiplos genes de virulência foram identificados em três isolados de E. coli. A maioria dos isolados de E. coli pertenceu ao filogrupo B1, porém somente isolados do filogrupo B2 apresentaram mais genes de virulência. Os ensaios de RAPD demonstraram a diversidade genética entre as amostras e distinguiram amostras TW e FS. O conhecimento de bactérias associadas a infecções de trato respiratório de potros de muar é importante no tratamento de animais doentes.(AU)
Subject(s)
Animals , Drug Resistance, Microbial , Equidae/microbiology , Escherichia coli/genetics , Escherichia coli/pathogenicity , Klebsiella/genetics , Klebsiella/pathogenicity , Respiratory Tract Diseases/veterinary , VirulenceABSTRACT
Resumen Introducción. La infección de las vías urinarias es la más frecuente en pacientes diabéticos, y es un factor determinante de la morbilidad y la mortalidad en este grupo de pacientes. El aumento de la resistencia de los microorganismos adquiridos en la comunidad a los antibióticos comúnmente utilizados para combatirla es alarmante. Objetivo. Determinar el perfil de sensibilidad a los antibióticos de los microorganismos responsables de infecciones urinarias adquiridas en la comunidad en pacientes diabéticos atendidos en algunos hospitales de Colombia. Materiales y métodos. Se hizo un estudio descriptivo de un subgrupo de pacientes diabéticos en el marco de una investigación en adultos con infección de origen comunitario de las vías urinarias. Durante un año, se recolectaron aislamientos de Escherichia coli, Klebsiella spp. y Proteus mirabilis en nueve hospitales de Colombia y se determinó su perfil de sensibilidad mediante métodos microbiológicos y moleculares, para establecer la presencia de betalactamasas de espectro extendido del tipo AmpC y de carbapenemasas del tipo KPC. Resultados. Se recolectaron 68 aislamientos (58 de E. coli, nueve de Klebsiella spp. y uno de P. mirabilis). Cuatro (6,9 %) de los aislamientos de E. coli expresaron dichas betalactamasas, en dos (3,4 %) de ellos, pertenecientes al grupo filogenético B2 y al clon ST131, se detectaron las betalactamasas TEM-1 y CTM-X-15. En otros cuatro (6,9 %) aislamientos de E. coli se encontró el fenotipo AmpC, y en tres de ellos se produjeron las betalactamasas TEM-1 y CMY-2. Un aislamiento de K. pneumoniae expresó la carbapenemasa KPC-3. Conclusión. Se confirmó la presencia de cepas productoras de betalactamasas de espectro extendido y carbapenemasas en microorganismos responsables de infección urinaria adquirida en la comunidad en pacientes diabéticos.
Abstract Introduction: Urinary tract infection is the most common pathology in diabetic patients, and an important determinant of morbidity and mortality among them. The increasing resistance of uropathogens acquired in the community to commonly used antibiotics is alarming. Objective: To identify the profile of antibiotic susceptibility of uropathogens responsible for community-acquired infections among diabetic patients in hospitals in Colombia. Materials and methods: We conducted a descriptive study in a subgroup of diabetic patients in the framework of a larger study in adults with urinary tract infection acquired in the community. Over one year, we collected Escherichia coli, Klebsiella spp. and Proteus mirabilis isolates from nine hospitals in Colombia. Their susceptibility profile was determined using microbiological and molecular methods to establish the presence of extended-spectrum AmpC betalactamases and KPC carbapenemases. Results: We collected 68 isolates (58 E. coli, nineKlebsiella spp. and oneProteus mirabilis). Four (6.9%) of the E. coli isolates expressed extended spectrum betalactamases,two (3.4%) of thembelonged to the phylogenetic group B2 andto ST131 clone and expressed the TEM-1 and CTM-X-15 betalactamases. The AmpC phenotype was found in four(6.9%) of the E. coli isolates, three of which producedTEM-1 and CMY-2 betalactamases. One K. pneumoniaeisolate expressed the KPC-3 carbapenemase. Conclusion: The presence of extended spectrum betalactamases and carbapenemases in uropathogens responsible for community-acquired infection was confirmed in diabetic patients.
Subject(s)
Adult , Humans , Urinary Tract Infections/microbiology , Community-Acquired Infections/microbiology , Drug Resistance, Multiple, Bacterial , Diabetes Complications/microbiology , Proteus mirabilis/drug effects , Proteus mirabilis/genetics , Bacterial Proteins/genetics , Urinary Tract Infections/epidemiology , beta-Lactamases/genetics , Colombia/epidemiology , Community-Acquired Infections/epidemiology , Drug Resistance, Multiple, Bacterial/genetics , Diabetes Complications/epidemiology , Escherichia coli/drug effects , Escherichia coli/enzymology , Escherichia coli/genetics , Genes, Bacterial , Klebsiella/drug effects , Klebsiella/enzymology , Klebsiella/geneticsABSTRACT
Abstract Mercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human health by escaping to the environment via various natural and anthropogenic activities. Non-biodegradability of mercury pollutants has necessitated the development and implementation of economic alternatives with promising potential to remove metals from the environment. Enhancement of microbial based remediation strategies through genetic engineering approaches provides one such alternative with a promising future. In this study, bacterial isolates inhabiting polluted sites were screened for tolerance to varying concentrations of mercuric chloride. Following identification, several Pseudomonas and Klebsiella species were found to exhibit the highest tolerance to both organic and inorganic mercury. Screened bacterial isolates were examined for their genetic make-up in terms of the presence of genes (merP and merT) involved in the transport of mercury across the membrane either alone or in combination to deal with the toxic mercury. Gene sequence analysis revealed that the merP gene showed 86–99% homology, while the merT gene showed >98% homology with previously reported sequences. By exploring the genes involved in imparting metal resistance to bacteria, this study will serve to highlight the credentials that are particularly advantageous for their practical application to remediation of mercury from the environment.
Subject(s)
Humans , Klebsiella/metabolism , Membrane Transport Proteins/genetics , Membrane Transport Proteins/metabolism , Mercury/metabolism , Pseudomonas/metabolism , Water Pollutants, Chemical/metabolism , Drug Tolerance , Genes, Bacterial , India , Klebsiella/drug effects , Klebsiella/genetics , Molecular Sequence Data , Mercury/toxicity , Pseudomonas/drug effects , Pseudomonas/genetics , Sequence Analysis, DNA , Sequence Homology , Water Pollutants, Chemical/toxicityABSTRACT
OBJECTIVE: Quinolone resistance is usually caused by various chromosomal mutations, but has been more recently associated with plasmids which carry the qnr determinant. The aim of this study is to investigate the prevalence of qnr genes in clinical isolates of Enterobacteriaceae in Jamaica. METHODS: A total of 255 non-duplicate fluoroquinolone-resistant Enterobacteriaceae clinical isolates, comprising 232 Escherichia coli, 20 Klebsiella species and three Enterobacter spp were collected between October 2007 and November 2008 from hospitalized patients in Jamaica. The presence of the qnr gene was screened by PCR using specific primers for qnrA, qnrB and qnrS in extracted plasmid DNA. RESULTS: Eighty-three (32.5%) of these isolates were qnr-positive, of which 47.0% housed the qnrA gene only, 1.2% qnrB and 9.6% qnrS only. Another 36.1% possessed both qnrA and qnrS genes. Approximately 30% of the quinolone-resistant E coli isolates harboured the qnr gene while 50% Klebsiella spp and all Enterobacter spp were positive. CONCLUSION: The emergence of qnr-mediated quinolone resistance among clinical Enterobacteriaceae isolates is described for the first time in Jamaica.
OBJETIVO: La resistencia a la quinolona es generalmente causada por varias mutaciones cromosomáticas, pero más recientemente ha sido asociada con plásmidos portadores del determinante qnr. El objetivo de este estudio fue investigar la prevalencia de genes qnr en los aislados clínicos de Enterobacteriaceae en Jamaica. MÉTODOS: Un total de 255 aislados clínicos no duplicados de Enterobacteriaceae resistentes a la fluoroquinolona, incluyendo 232 de Escherichia coli, 20 especies de Klebsiella y tres Enterobacter spp, fueron recogidos entre octubre de 2007 y noviembre de 2008, de pacientes hospitalizados en Jamaica. La presencia del gen qnr fue tamizada mediante marcadores PCR, usando primers específicos para qnrA, qnrB y qnrS en el ADN plásmido extraído. RESULTADOS: Ochenta y tres (32.5%) de éstos aislados fueron qnr-positivos. De ellos, 47.0% alojaban solamente el gen qnrA, 1.2% el qnrB y 9.6% el qnrS solamente. Otro 36.1% poseía tanto genes qnrA cuanto genes qnrS. Aproximadamente 30% de los aislados E. coli resistentes a la quinolona, albergaban el gen qnr mientras que 50% de Klebsiella spp y todas las Enterobacter spp fueron positivas. CONCLUSIÓN: Se describe por primera vez el surgimiento de la resistencia a las quinolonas mediada por qnr en Jamaica.
Subject(s)
Humans , Bacterial Proteins/genetics , Enterobacteriaceae/drug effects , Fluoroquinolones/pharmacology , Drug Resistance, Bacterial/genetics , Enterobacteriaceae/genetics , Escherichia coli/genetics , Jamaica , Klebsiella/genetics , Plasmids/geneticsABSTRACT
BACKGROUND & OBJECTIVE: Phenotyping is commonly used for detection of extended spectrum beta lactamase (ESBL) production in gram-negative isolates. ESBLs are mainly coded for by three important genes, namely bla(TEM), bla(SHV) and bla(CTX-M). In this study we used a multiplex PCR as a rapid method to identify two common genes (bla(CTX-M) & bla(SHV)) responsible for extended spectrum beta lactamase production in members of Enterobacteriaceae family isolated from different clinical samples from a specialty hospital at Chennai. METHODS: A total of 260 non repetitive clinical isolates from 240 patients (some patients had more than one organism also), was selected for the study. Of these 33 were from sputum, 64 from urine, 46 from blood, 28 from pus aspirates, 58 from endotracheal secretions and 31 from other miscellaneous specimens. Phenotypic identification for ESBL production was confirmed by double disk synergy test (DDST) and phenotypic confirmatory double disk test (PCDDT) according to CLSI guidelines. Multiplex PCR for bla(CTX-M) and bla(SHV) was performed for the ESBL positive isolates. RESULTS: bla(SHV) like genes were found in 6 of 42 E.coli (14%), 7 of 46 Enterobacter species (15%), 28 of 62 Klebsiella species (45%) and bla(SHV) was not detected in any of the 50 isolates of non-fermenting gram-negative isolates. (Pseudomonas and Acinetobacter species) bla(CTX-M) like genes were found in 21 of 42 E. coli (50%), 13 of 46 Enterobacter species (28%), 25 of 62 (40%) Klebsiella species and 1 of 50 nonfermenting gram-negative bacilli (2%). INTERPRETATION & CONCLUSION: Our study demonstrated rapid detection of bla(SHV) and bla(CTX-M) in isolates belonging to Enterobacteriaceae and other non-fermenting clinical isolates using multiplex PCR. This genotypic method provided a rapid and efficient differentiation of ESBLs in the laboratory.
Subject(s)
Blood/microbiology , Enterobacter/genetics , Escherichia coli/genetics , Genotype , Gram-Negative Bacteria/genetics , Humans , India , Klebsiella/genetics , Microbiological Techniques , Phenotype , Polymerase Chain Reaction/methods , Sputum/microbiology , Suppuration/microbiology , Urine/microbiology , beta-Lactamases/geneticsABSTRACT
OBJECTIVE: In this work we report the molecular characterization of beta-lactam antibiotics resistance conferred by genes contained in plasmids from enterobacteria producing extended-spectrum beta-lactamases (ESBL). MATERIAL AND METHODS: Fourteen enterobacterial clinical isolates selected from a group of strains obtained from seven different hospitals in Mexico during 1990-1992 and 1996-1998 were analyzed at the Bacterial Resistance Laboratory (National Institute Public Health, Cuernavaca). Molecular characterization included PFGE, IEF of beta-lactamases, bacterial conjugation, PCR amplification and DNA sequencing, plasmid extraction and restriction. RESULTS: Isolates were genetically unrelated. ESBL identified were SHV-2 (5/14) and SHV-5 (9/14) type. Cephalosporin-resistance was transferable in 9 of 14 (64 percent) clinical isolates with only one conjugative plasmid, DNA finger printing showed a similar band pattern in plasmids. CONCLUSIONS: The dissemination of cephalosporin resistance was due to related plasmids carrying the ESBL genes.
OBJETIVO: En este trabajo se reporta la caracterización molecular de la resistencia a antibiótico beta-lactámicos conferida por genes contenidos en plásmidos de enterobacterias productoras de beta-lactamasas de espectro extendido (BLEEs). MATERIAL Y MÉTODOS: Catorce aislamientos clínicos de enterobacterias fueron seleccionados por conveniencia de un banco de cepas obtenidas de siete diferentes hospitales de México durante los periodos 1990-1992 y 1996-1998 y fueron procesados en el Laboratorio de Resistencia Bacteriana (Instituto Nacional de Salud Pública, Cuernavaca). En la caracterización se empleó PFGE, IEF para beta-lactamasas, conjugación bacteriana, amplificación por PCR y secuenciación de DNA, extracción y restricción de plásmidos. RESULTADOS: Las 14 cepas fueron no relacionadas genéticamente. Se identificaron BLEEs tipo SHV-2 (5/14) y SHV-5 (9/14). La resistencia a cefalosporinas fue transferida por conjugación en 9 de 14 (64 por ciento) aislamientos clínicos mediante un plásmido que mostró un patrón de restricción similar entre ellos. CONCLUSIÓN: Se sugiere que la diseminación de la resistencia a cefalosporinas fue debida a plásmidos relacionados que contienen los genes que codifican BLEEs.