Rapid and Specific Polymerase Chain Reaction-Enzyme Linked Immunosorbent Assay for Detection of Escherichia coli LT Toxin From Clinical Isolates (original) (raw)
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American Journal of Tropical Medicine and Hygiene, 2014
Enterotoxigenic Escherichia coli (ETEC), the leading bacterial pathogen of travelers' diarrhea, is routinely detected by an established DNA hybridization protocol that is neither sensitive nor quantitative. Quantitative real-time polymerase chain reaction (qPCR) assays that detect the ETEC toxin genes eltA, sta1, and sta2 in clinical stool samples were developed and tested using donor stool inoculated with known quantities of ETEC bacteria. The sensitivity of the qPCR assays is 89%, compared with 22% for the DNA hybridization assay, and the limits of detection are 10,000-fold lower than the DNA hybridization assays performed in parallel. Ninety-three clinical stool samples, previously characterized by DNA hybridization, were tested using the new ETEC qPCR assays. Discordant toxin profiles were observed for 22 samples, notably, four samples originally typed as ETEC negative were ETEC positive. The qPCR assays are unique in their sensitivity and ability to quantify the three toxin genes in clinical stool samples.
Journal of Clinical Microbiology, 2007
Enterotoxigenic Escherichia coli (ETEC) is one of the main causes of childhood diarrhea in developing countries and in travelers. However, this pathogen has often not been reported in surveys of diarrheal pathogens, due to lack of simple standardized methods to detect ETEC in many laboratories. ETEC expresses one or both of two different enterotoxin subtypes: heat-stable toxins, a heat-labile toxin (LT), and more than 22 different colonization factors (CFs) that mediate adherence to the intestinal cell wall. Here we compare established phenotypic and genotypic detection methods and newly developed PCR detection methods with respect to sensitivity, specificity, positive predictive value, and ease of performance. The methods include GM1-enzyme-linked immunosorbent assay and dot blot techniques using specific monoclonal antibodies (MAbs) for phenotypic detection of the toxins and CFs, respectively, as well as different PCR and DNA/DNA hybridization techniques, including new PCR assays,...
Brazilian Journal of Microbiology, 2007
The heat-labile toxin (LT) is a key virulence-associated factor associated with the non-invasive secretory diarrhea caused by enterotoxigenic Escherichia coli (ETEC) strains either in humans or domestic animals. Several LT detection methods have been reported but quantification of the toxin produced by wild-type ETEC strains is usually performed by the GM1 ganglyoside enzyme-linked immunosorbent assay (GM1 ELISA). In this study we conducted the optimization of an alternative LT-quantification method, the antibody-capture ELISA (cELISA). Detailed analysis of the appropriate dilutions of capture and detecting LT-specific antibodies significantly improved the sensitivity of the method. Additionally, testing of different LT extraction techniques indicated that sonic disruption of the bacterial cells enhanced LT recovery yields, in contrast to the usual procedure based on addition of polymyxin B to the culture medium as well as extraction methods based on chloroform or Triton X-100. Moreover, the present data indicate that performance of the LT extraction method based on polymyxin B treatment can vary among wild ETEC strains.
Toxicon : official journal of the International Society on Toxinology, 2018
Enterotoxigenic Escherichia coli (ETEC) is the main bacterial cause of dehydrating infant diarrhoea in less-developed countries. Labile toxin (LT) is the major virulent factor of ETEC. Easy diagnostic tests are necessary to reduce the number of cases. Immunological methods have some drawbacks and also have important limitations. For that reason, a Liquid Chromatography coupled to UV detector technique (LC-UV) has been optimize to a rapid identification and quantification of LT from bacteria cultures. It is also important to know optimal conditions for LT and with this purpose several enterotoxigenic E. coli strains have been studied to determine the influence of glucose concentration and different culture media on LT production. LC-UV technique demonstrated to be a good method for LT quantification showing values of 15 ng/mL and 45 ng/mL for limits of detection and quantification respectively. LT quantification revealed that toxin production is directly related to the concentration ...
Journal of Bacteriology, 2008
The natural diversity of the elt operons, encoding the heat-labile toxin LT-I (LT), carried by enterotoxigenic Escherichia coli (ETEC) strains isolated from humans was investigated. For many years, LT was supposed to be represented by a rather conserved toxin, and one derivative, produced by the reference H10407 strain, was intensively studied either as a virulence factor or as a vaccine adjuvant. Amplicons encompassing the two LT-encoding genes (eltA and eltB) of 51 human-derived ETEC strains, either LT ؉ (25 strains) only or LT ؉ /ST ؉ (26 strains), isolated from asymptomatic (24 strains) or diarrheic (27 strains) subjects, were subjected to restriction fragment length polymorphism (RFLP) analysis and DNA sequencing. Seven polymorphic RFLP types of the H10407 strain were detected with six (BsaI, DdeI, HhaI, HincII, HphI, and MspI) restriction enzymes. Additionally, the single-nucleotide polymorphic analysis revealed 50 base changes in the elt operon, including 21 polymorphic sites at eltA and 9 at eltB. Based on the deduced amino acid sequences, 16 LT types were identified, including LT1, expressed by the H10407 strain and 23 other strains belonging to seven different serotypes, and LT2, expressed by 11 strains of six different serotypes. In vitro experiments carried out with purified toxins indicated that no significant differences in GM1-binding affinity could be detected among LT1, LT2, and LT4. However, LT4, but not other toxin types, showed reduced toxic activities measured either in vitro with cultured cells (Y-1 cells) or in vivo in rabbit ligated ileal loops. Collectively, these results indicate that the natural diversity of LTs produced by wild-type ETEC strains isolated from human hosts is considerably larger than previously assumed and may impact the pathogeneses of the strains and the epidemiology of the disease.
Journal of Immunological Methods, 1994
The development of a new approach to the diagnosis of infectious diarrhoea, caused by ?scherichia coil heat-stable enterotoxin (ST), was preceded by a preliminary study. The pu~ of the latter was to establish whether three preparations of ST produced by a human isolate of enterotoxigenic E. coli (STa), obtained at different steps of the purification procedure (involving Amberlite XAD2 resin chromatography (P31, a gel filtration chromatography on a Biogel P4 (P21 or a disc gel electrophoresis (P1)), could be employed to titrate antisera to STa using an ST-biotin enzyme-linked immunosorbent assay (ELISA). The solid-phase STa was obtained by first coupling the toxin to biotinyI-N-hydroxTsuecinimide and then binding this conjugate to avidin adsorbed to flat-bottomed polystyrene microtitre plates. Using these reagents, the assay conditions were examined. Checkerboard tests determined optimal biotin-P3, P2 or P1 toxin conjugate concentrations to be used as the immunosorbent for P3, P2 and Pl antiserum titration. The immunosorbent prepared with STa purified only on Amberlite XAD2 resin was unable to differentiate significantly between P3, P2 or Pl antisera, lmmunosorbent prepared with P2 or P1 detected widely differing titres between the three antisera and gave more sensitive results. Only small but questionable differences were observed between P2 and Pl toxin preparations.
Journal of clinical microbiology, 1988
On the basis of the published nucleotide sequences of the genes that code for the heat-labile toxin LTh and the heat-stable toxins STaI and STaII of human enterotoxigenic Escherichia coli, a 34-mer and two 33-mer oligonucleotide probes were synthesized. To compare their relative efficacies in the detection and differentiation of enterotoxigenic E. coli, a colony hybridization technique using these probes and a GM1 ganglioside enzyme-linked immunosorbent assay using monoclonal anti-LT and anti-ST antibodies were used with 76 strains of E. coli with known enterotoxin profiles. For further evaluation of probe specificity, the enterotoxigenic bacteria Vibrio cholerae O1 and non-O1 and Yersinia enterocolitica were examined with the colony hybridization technique. The sensitivity of colony hybridization compared favorably with that of GM1 ganglioside enzyme-linked immunosorbent assay, and the two assays showed a high level of concordance in specific detection and differentiation of E. col...
A PCR–ELISA for detecting Shiga toxin-producing Escherichia coli
Microbes and Infection, 2002
A sensitive and specific PCR-ELISA was developed to detect Escherichia coli O157:H7 and other Shiga toxin-producing E. coli (STEC) in food. The assay was based on the incorporation of digoxigenin-labeled dUTP and a biotin-labeled primer specific for Shiga toxin genes during PCR amplification. The labeled PCR products were bound to streptavidin-coated wells of a microtiter plate and detected by an ELISA. The specificity of the PCR was determined using 39 bacterial strains, including STEC, enteropathogenic E. coli, E. coli K12, and Salmonella. All of the STEC strains were positive, and non-STEC organisms were negative. The ELISA detecting system was able to increase the sensitivity of the PCR assay by up to 100-fold, compared with a conventional gel electrophoresis. The detection limit of the PCR-ELISA was 0.1-10 CFU dependent upon STEC serotypes, and genotypes of Shiga toxins. With the aid of a simple DNA extraction system, PrepMan, the PCR-ELISA was able to detect ca. 10 5 CFU of STEC per gram of ground beef without any culture enrichment. The entire procedure took about 6 h. Because of its microtiter plate format, PCR-ELISA is particularly suitable for large-scale screening and compatible with future automation.
Toxins, 2013
Enterotoxigenic Escherichia coli (ETEC) produce heat-labile (LT) and/or heat-stable enterotoxins (ST). Despite that, the mechanism of action of both toxins are well known, there is great controversy in the literature concerning the in vitro production and release of LT and, for ST, no major concerns have been discussed. Furthermore, the OPEN ACCESS majority of published papers describe the use of only one or a few ETEC isolates to define the production and release of these toxins, which hinders the detection of ETEC by phenotypic approaches. Thus, the present study was undertaken to obtain a better understanding of ST and LT toxin production and release under laboratory conditions. Accordingly, a collection of 90 LT-, ST-, and ST/LT-producing ETEC isolates was used to determine a protocol for toxin production and release aimed at ETEC detection. For this, we used previously raised anti-LT antibodies and the anti-ST monoclonal and polyclonal antibodies described herein. The presence of bile salts and the use of certain antibiotics improved ETEC toxin production/release. Triton X-100, as chemical treatment, proved to be an alternative method for toxin release. Consequently, a common protocol that can increase the production and release of LT and ST toxins could facilitate and enhance the sensitivity of diagnostic tests for ETEC using the raised and described antibodies in the present work.