DIRECT FLUORESCENT ANTIBODY-DIRECT VIABLE COUNT AND POLYMERASE CHAIN REACTION DETECTION LIMIT FOR THE IDENTIFICATION OF VIBRIO CHOLERAE O1 IN MUSSELS (MYTILUS EDULIS)

Vibrio cholerae O1 is natural to the aquatic environment and can cause gastrointestinal infections when it is consumed from contaminated bivalves. Under unfavorable conditions, this bacterium enters into a viable but nonculturable state. Immunofluorescence and polymerase chain reaction (PCR) methods were a useful alternative for detecting this microorganism without a pre-enrichment step. We investigated the detection limit of the direct fluorescent antibody (DFA)-direct viable count (DVC) and PCR techniques for the identification of V. cholerae O1 in mussel ( Mytilus edulis ) samples. When 10³ cfu/mL V. cholerae O1 were inoculated in samples, 10²–10³ bacteria mL⁻¹ were determined by immunofluorescence tests and 67% of the samples were positive by PCR assay. No significant difference ( T statistic value = 6.5, P =  0.2049) between DFA and DFA-DVC procedures was observed. No presence of endogenous V. cholerae O1 was detected .

PRACTICAL APPLICATIONS

Vibrios are considered the major cause of identifiable illness and death from shellfish consumption. In Argentina, the viable but nonculturable (VBNC) forms of Vibrio cholerae O1 were identified in samples of water and plankton. Because of these facts, it is relevant to research the presence of V. cholerae O1 in aquatic bivalves. Immunofluorescence and polymerase chain reaction methods are a useful alternative to traditional enrichment testing for detecting both culturable and VBNC forms of V. cholerae O1. In this work, it was demonstrated that these methods were sensitive and efficient for detecting V. cholerae O1 in mussels without a pre-enrichment step. Moreover, they can be a useful tool for the rapid detection of this pathogen in the seafood industry.     

A gene for the enterotoxin zonula occludens toxin is present in Vibrio mimicus and Vibrio cholerae O139

Abstract The presence of the zonula occludens toxin (ZOT) gene, which encodes an enterotoxin produced by serotype O1 strains of the pathogenic bacterium, Vibrio cholerae , in addition to cholera toxin, was investigated in selected strains of V. mimicus and the new pandemic V. cholerae non-O1 serotype O139. The zot gene was detected by polymerase chain reaction (PCR) amplification, using sets of primers based on the sequence of the V. cholerae O1 zot sequence. PCR amplification of genomic DNAs of both cholera toxin gene ( ctx ) positive and ctx⁻ strains of V. mimicus detected the presence of zot gene. An Acc -I- Eco RV V. cholerae zot gene fragment designed to overlap PCR products was used as a probe. Southern hybridization studies confirmed that the PCR fragments from V. mimicus and V. cholerae O139 were strongly homologous to the V. cholerae O1 zot gene. The zot gene was found with 3 to 5 strains of V. mimicus of which only one strain harbored the ctx gene. The presence of a zot gene in ctx⁻ toxigenic V. mimicus indicates a possible role of ZOT in the toxigenicity of this species. We conclude that, in addition to ctx, V. mimicus and V. cholerae O139 have the potential to produce ZOT.     

Cholera phages from open reservoirs of the Lake Issyk-Kul basin and their taxonomy]

In the water of open water bodies in the basin of Lake Issyk-Kul the presence of Vibrio cholerae belonging to group O1 and other groups and V. cholerae phages of known serotypes, as well as phages of a new type having no serological and morphological analogs in the current classification of V. cholerae phages, has been established. On the basis of analysis of inaccuracies appearing in the determination of the specificity of V. cholerae phages their systematization within the adequate unified classification of vibriophages is proposed.     

Method of DNA extraction and application of multiplex polymerase chain reaction to detect toxigenic Vibrio cholerae O1 and O139 from aquatic ecosystems

Vibrio cholerae is a free-living bacterium found in water and in association with plankton. V. cholerae non-O1/non-O139 strains are frequently isolated from aquatic ecosystems worldwide. Less frequently isolated are V. cholerae O1 and V. cholerae O139, the aetiological agents of cholera. These strains have two main virulence-associated factors, cholera toxin (CT) and toxin co-regulated pilus (TCP). By extracting total DNA from aquatic samples, the presence of pathogenic strains can be determined quickly and used to improve a microbiological risk assessment for cholera in coastal areas. Some methods suggested for DNA extraction from water samples are not applicable to all water types. We describe here a method for DNA extraction from coastal water and a multiplex polymerase chain reaction (PCR) for O1 and O139 serogroups. DNA extraction was successfully accomplished from 117 sea water samples collected from coastal areas of Perú, Brazil and the USA. DNA concentration in all samples varied from 20 ng to 480 micro g micro l-1. The sensitivity of the DNA extraction method was 100 V. cholerae cells in 250 ml of water. The specificity of multiplex O1/O139 PCR was investigated by analysing 120 strains of V. cholerae, Vibrio and other Bacteria species. All V. cholerae O1 and O139 tested were positive. For cholera surveillance of aquatic environments and ballast water, total DNA extraction, followed by V. cholerae PCR, and O1/O139 serogroup and tcpA/ctxA genes by multiplex PCR offers an efficient system, permitting risk analysis for cholera in coastal areas.     

Direct detection of Vibrio cholerae and ctxA in Peruvian coastal water and plankton by PCR

Seawater and plankton samples were collected over a period of 17 months from November 1998 to March 2000 along the coast of Peru. Total DNA was extracted from water and from plankton grouped by size into two fractions (64 micro m to 202 micro m and >202 micro m). All samples were assayed for Vibrio cholerae, V. cholerae O1, V. cholerae O139, and ctxA by PCR. Of 50 samples collected and tested, 33 (66.0%) were positive for V. cholerae in at least one of the three fractions. Of these, 62.5% (n = 32) contained V. cholerae O1; ctxA was detected in 25% (n = 20) of the V. cholerae O1-positive samples. None were positive for V. cholerae O139. Thus, PCR was successfully employed in detecting toxigenic V. cholerae directly in seawater and plankton samples and provides evidence for an environmental reservoir for this pathogen in Peruvian coastal waters.     

VGJ phi, a novel filamentous phage of Vibrio cholerae, integrates into the same chromosomal site as CTX phi

We describe a novel filamentous phage, designated VGJ phi, isolated from strain SG25-1 of Vibrio cholerae O139, which infects all O1 (classical and El Tor) and O139 strains tested. The sequence of the 7,542 nucleotides of the phage genome reveals that VGJ phi has a distinctive region of 775 nucleotides and a conserved region with an overall genomic organization similar to that of previously characterized filamentous phages, such as CTX phi of V. cholerae and Ff phages of Escherichia coli. The conserved region carries 10 open reading frames (ORFs) coding for products homologous to previously reported peptides of other filamentous phages, and the distinctive region carries one ORF whose product is not homologous to any known peptide. VGJ phi, like other filamentous phages, uses a type IV pilus to infect V. cholerae; in this case, the pilus is the mannose-sensitive hemagglutinin. VGJ phi-infected V. cholerae overexpresses the product of one ORF of the phage (ORF112), which is similar to single-stranded DNA binding proteins of other filamentous phages. Once inside a cell, VGJ phi is able to integrate its genome into the same chromosomal attB site as CTX phi, entering into a lysogenic state. Additionally, we found an attP structure in VGJ phi, which is also conserved in several lysogenic filamentous phages from different bacterial hosts. Finally, since different filamentous phages seem to integrate into the bacterial dif locus by a general mechanism, we propose a model in which repeated integration events with different phages might have contributed to the evolution of the CTX chromosomal region in V. cholerae El Tor.     

Vibrio cholerae O139 produces a protease which is indistinguishable from the haemagglutinin/protease of Vibrio cholerae O1 and non-O1

Abstract Haemaglutinin/protease (HA/P) is one of the virulence factors of Vibrio cholerae O1 and pathogenic strains of V. cholerae non-O1. In this study, we examined protease activity of a new serogroup of Vibrio cholerae recently designated as O139 synonym Bengal. The protease activity was produced by all eight isolates of V. cholerae O139 from Bangladeshi patients. Purification and partial characterization of the protease from V. cholerae O139 demonstrated the purified protease (O139-P) was indistinguishable from that previously reported for HA/P of V. cholerae non-O1 (NAG-HA/P) and V. cholerae O1 (Vc-HA/P). These results prove that V. cholerae O139 produces a protease belonging to solHA/P, and suggest that the protease is another virulence factor found in newly emerged V. cholerae O139, as in V. cholerae O1.     

Isolation of Vibrio cholerae O139 synonym Bengal from the aquatic environment in Bangladesh: implications for disease transmission.

Currently, Bangladesh is experiencing an epidemic of acute watery diarrhea caused by Vibrio cholerae O139. Surface waters were collected and cultured for vibrious following enrichment. Twelve percent (11 of 92) of samples yielded V. cholerae O139, and all of them were positive for cholera toxin. The data suggest that V. cholerae O139 is easily culturable from surface water samples.     

The incidence of Vibrio cholerae in water, animals and birds in Kent, England

Between 1976 and 1979 several surveys were carried out in Kent, England, to establish the incidence of Vibrio cholerae in the aquatic environment. Vibrio cholerae occurred sporadically in all types of water during the summer but only in very low numbers in water containing <5 mmol Na⁺/litre. Highest numbers of up to 700 colony-forming units/ml appeared regularly in static brackish water containing 25–200 mmol Na⁺/litre. They were not introduced by sewage contamination of the water and there was no correlation between the counts of Escherichia coli and V. cholerae. A wide range of serovars including O1 was isolated. Vibrio cholerae was not isolated from sheep faeces but was detected in 6% of cloacal swabs taken from gulls caught at times when V. cholerae could not be isolated from water. It was concluded that: the presence of these organisms in the environment in Kent does not present any significant risk to health; aquatic birds may be vectors of V. cholerae; V. cholerae occurs naturally in static brackish water.     

Biofilm acts as a microenvironment for plankton-associated Vibrio cholerae in the aquatic environment of Bangladesh

The role of biofilm as a microenvironment of plankton-associated Vibrio cholerae was investigated using plexiglass as a bait. A total of 72 biofilm samples were tested using culture, direct fluorescent antibody (DFA) and molecular techniques following standard procedures. Culturable V. cholerae (smooth and rugose variants) were isolated from 33% of the samples. V. cholerae O1 were detected by FA technique throughout the year except April and June. All V. cholerae O1 isolates were positive for tcpA, ctxA and ace genes while V. cholerae non-O1, non-O139 isolates lacked these genes. V. cholerae O1 (both Inaba and Ogawa) strains had identical ribotype pattern (R1), but V. cholerae non-O1, non-O139 had different ribotype patterns. All V. cholerae O1 strains were resistant to vibrio-static compound (O/129). All V. cholerae O1 except one were resistant to trimethoprime-sulphamethoxazole, streptomycin, nalidixic acid and furazolidone but sensitive to ciprofloxacin, and tetracycline. This study indicates that plexiglass can act as a bait to form biofilm, a microenvironment that provides shelter for plankton containing V. cholerae in the aquatic environment of Bangladesh.     

Role of cyanobacteria in the persistence of Vibrio cholerae O139 in saline microcosms

Recently, a new strain of cholera, Vibrio cholerae O139, has emerged as an epidemic strain, but there is little information about its environmental reservoir. The present investigation was aimed to determine the role of cyanobacteria in the persistence of V. cholerae O139 in microcosms. An environmental isolate of V. cholerae O139 and three cyanobacteria (Anabaena sp., Nostoc sp., and Hapalosiphon sp.) were used in this study. Survival of culturable V. cholerae O139 in microcosms was monitored using taurocholate-tellurite gelatin agar medium. Viable but nonculturable V. cholerae O139 were detected using a fluorescent antibody technique. Vibrio cholerae O139 could be isolated for up to 12 days in a culturable form in association with cyanobacteria but could not be isolated in the culturable form after 2 days from control water without cyanobacteria. The viable but nonculturable V. cholerae O139 could be detected in association with cyanobacteria for up to 15 months. These results, therefore, suggest that cyanobacteria can act as a long-term reservoir of V. cholerae O139 in an aquatic environment.     

多重PCR方法检测霍乱弧菌的研究

霍乱弧菌是霍乱的病原体,可以分为O1群、O139群和非O1/非O139群。O1群和O139群霍乱弧菌产生的霍乱肠毒素(也称霍乱毒素)是产生霍乱的主要原因,也只有O1群和O139群霍乱弧菌可引起霍乱。其他群的霍乱弧菌毒性不高,但在食品中也不允许被检出。实验以霍乱胶原酶基因和霍乱毒素基因为目的基因,试图建立一种PCR方法对霍乱弧菌进行检测研究,结果表明此方法可以用于食品中的霍乱弧菌检测。     

多重实时PCR检测产毒素性霍乱弧菌和副溶血弧菌

设计引物和探针,优化多重实时PCR条件,以同时检测霍乱弧菌霍乱毒素基因ctxA、副溶血弧菌种特异性基因gyrB和耐热肠毒素基因tdh。该多重实时PCR方法检测产毒素性的O1群(3株)和O139群(44株)霍乱弧菌菌株、不产毒素的O1群(12株)和O139群(6株)及非O1非O139群(7株)霍乱弧菌菌株的ctxA,阳性和阴性结果与普通PCR检测结果100%符合;检测副溶血弧菌种特异性gyrB,116株副溶血弧菌均阳性,而9株其它细菌和72株霍乱弧菌均阴性;检测tdh的阳性和阴性结果也与普通PCR结果完全一致。另外还建立了检测副溶血弧菌菌株trh1和trh2的单重实时PCR方法。     

Toxigenic Vibrio cholerae in the aquatic environment of Mathbaria, Bangladesh

Toxigenic Vibrio cholerae, rarely isolated from the aquatic environment between cholera epidemics, can be detected in what is now understood to be a dormant stage, i.e., viable but nonculturable when standard bacteriological methods are used. In the research reported here, biofilms have proved to be a source of culturable V. cholerae, even in nonepidemic periods. Biweekly environmental surveillance for V. cholerae was carried out in Mathbaria, an area of cholera endemicity adjacent to the Bay of Bengal, with the focus on V. cholerae O1 and O139 Bengal. A total of 297 samples of water, phytoplankton, and zooplankton were collected between March and December 2004, yielding eight V. cholerae O1 and four O139 Bengal isolates. A combination of culture methods, multiplex-PCR, and direct fluorescent antibody (DFA) counting revealed the Mathbaria aquatic environment to be a reservoir for V. cholerae O1 and O139 Bengal. DFA results showed significant clumping of the bacteria during the interepidemic period for cholera, and the fluorescent micrographs revealed large numbers of V. cholerae O1 in thin films of exopolysaccharides (biofilm). A similar clumping of V. cholerae O1 was also observed in samples collected from Matlab, Bangladesh, where cholera also is endemic. Thus, the results of the study provided in situ evidence for V. cholerae O1 and O139 in the aquatic environment, predominantly as viable but nonculturable cells and culturable cells in biofilm consortia. The biofilm community is concluded to be an additional reservoir of cholera bacteria in the aquatic environment between seasonal epidemics of cholera in Bangladesh.     

Rapid and sensitive detection of Vibrio cholerae by loop-mediated isothermal amplification targeted to the gene of outer membrane protein ompW

Aims:  The present study was aimed to develop a loop-mediated isothermal amplification (LAMP) assay for rapid and specific detection of Vibrio cholerae .
Methods and Results:  A set of five designed primers that recognized specifically the V. cholerae ompW gene was used. The optimized time and temperature conditions for the LAMP assay were 75 min at 65°C, respectively. The LAMP method accurately identified 16 isolates of V. cholerae but did not detect 28 non- cholerae Vibrio isolates and 37 non- Vibrio bacterial isolates. The sensitivity of LAMP for V. cholerae detection in pure cultures was 2·2 × 10³ CFU ml⁻¹ or equivalent to 8 CFU per reaction. In the case of spiked shrimp samples without enrichment, the detection limit for V. cholerae was 2·2 × 10⁴ CFU g⁻¹ or equivalent to 20 CFU per reaction, while that of PCR was 100 CFU per reaction.
Conclusion:  The developed LAMP assay targeting ompW gene was rapid, specific and sensitive for V. cholerae detection.
Significant and Impact of the study:  The developed LAMP assay appears to be precise, accurate and a valuable tool for detection of V. cholerae . This assay can replace laborious biochemical tests for the identification of V. cholerae in contaminated food sample.     

Characterization of a clinical Vibrio cholerae O139 isolate from Mexico

Pathogenic strains of Vibrio cholerae O139 possess the cholera toxin A subunit (ctxA) gene as well as the gene for toxin co-regulated pili (tcpA). We report the isolation of a ctxA-negative, tcpA-negative V. cholerae O139 strain (INDREI) from a patient in Mexico diagnosed with gastrointestinal illness. Certain phenotypic characteristics of this strain were identical to those of V. cholerae O1 biotype El Tor. Unlike ctxA-positive V. cholerae O139 strains, this strain was sensitive to a wide panel of antibiotics, including ampicillin, chloramphenicol, ciprofloxacin, gentamicin, furazolidone, nalidixic acid, nitrofurantoin, tetracycline, trimethoprim-sulfamethoxazole, and streptomycin, but was resistant to polymyxin B. Ribotype and pulsed-field gel electrophoresis profiles of INDRE1 differed from those of ctxA-positive V. cholerae O139 and other V. cholerae strains. Phenotypic characteristics of the Mexico strain were similar to those reported for V. cholerae O139 isolates from Argentina and Sri Lanka.     

O1群和O139群霍乱弧菌主要抗原研究进展

霍乱弧菌是引起人和动物烈性肠道传染病霍乱的病原体。在霍乱弧菌的200多个血清群中,只有O1群和O139群霍乱弧菌能引起霍乱。快速准确检测O1群和O139群霍乱弧菌是霍乱防治的关键。表面抗原在O1群和O139群霍乱弧菌检测中发挥着重要作用。简要综述了O1群和O139群霍乱弧菌的脂多糖、霍乱肠毒素、外膜蛋白W、毒素共调菌毛和甘露糖敏感血凝素等5种主要抗原的研究进展。     

Preliminary structure determination of the capsular polysaccharide of Vibrio cholerae O139 Bengal Al1837.

Vibrio cholerae O139 Bengal has recently been identified as a cause of epidemic cholera in Asia. In contrast to V. cholerae O1, V. cholerae O139 Bengal has a polysaccharide capsule. As determined by high-performance anion-exchange chromatography and 1H nuclear magnetic resonance analysis, the capsular polysaccharide of V. cholerae O139 Bengal strain Al1837 has six residues in the repeating subunit; this includes one residue each of N-acetylglucosamine, N-acetylquinovosamine (QuiNAc), galacturonic acid (GalA), and galactose and two residues of 3,6-dideoxyxylohexose (Xylhex). The proposed structure is [formula: see text]     

Characterization of a Vibrio cholerae phage isolated from the coastal water of Peru

A Vibrio cholerae bacteriophage, family Myoviridae, was isolated from seawater collected from the coastal water of Lima, Peru. Genome size was estimated to be 29 kbp. The temperate phage was specific to V. cholerae and infected 12/13 V. cholerae O1 strains and half of the four non-O1/non-O139 strains tested in this study. Vibrio cholerae O139 strains were resistant to infection and highest infection rates were obtained in low nutrient media amended with NaCl or prepared using seawater as diluent.