Detection of cholera (ctx) and zonula occludens (zot) toxin genes in Vibrio cholerae O1, O139 and non-O1 strains

Vibrio cholerae O1 and V. cholerae non-O1 strains isolated from environmental samples collected in São Paulo, Brazil, during cholera epidemics and pre-epidemic periods were examined for the presence of toxin genes. V. cholerae O1 strains isolated from clinical samples in Peru and Mexico, and V. cholerae O139 strains from India were also examined for the presence of ctx (cholera toxin gene) and zot (zonula occludens toxin gene) by polymerase chain reaction (PCR). A modified DNA-extraction method applied in this study yielded satisfactory recovery of genomic DNA from vibrios. Results showed that strains of V. cholerae O1 isolated during the preepidemic period were ctx ^-/zot ^- whereas strains isolated during the epidemic were ctx ⁺/zot ⁺. All V. cholerae non-O1 strains tested in the study were ctx ^-/zot ^-, whereas all V. cholerae O139 strains were ctx ⁺/zot ⁺. Rapid detection of the virulence genes (ctx and zot) can be achieved by PCR and this can serve as an important tool in the epidemiology and surveillance of V. cholerae.     

Molecular Analysis of Vibrio cholerae O1, O139, non-O1, and non-O139 Strains: Clonal Relationships between Clinical and Environmental Isolates

A total of 26 strains of Vibrio cholerae, including members of the O1, O139, and non-O1, non-O139 serogroups from both clinical and environmental sources, were examined for the presence of genes encoding cholera toxin (ctxA), zonula occludens toxin (zot), accessory cholera enterotoxin (ace), hemolysin (hlyA), NAG-specific heat-stable toxin (st), toxin-coregulated pilus (tcpA), and outer membrane protein (ompU), for genomic organization, and for the presence of the regulatory protein genes tcpI and toxR in order to determine relationships between epidemic serotypes and sources of isolation. While 22 of the 26 strains were hemolytic on 5% sheep blood nutrient agar, all strains were PCR positive for hlyA, the hemolysin gene. When multiplex PCR was used, all serogroup O1 and O139 strains were positive for tcpA, ompU, and tcpI. All O1 and O139 strains except one O1 strain and one O139 strain were positive for the ctxA, zot, and ace genes. Also, O1 strain VO3 was negative for the zot gene. All of the non-O1, non-O139 strains were negative for the ctxA, zot, ace, tcpA, and tcpI genes, and all of the non-O1, non-O139 strains except strain VO26 were negative for ompU. All of the strains except non-O1, non-O139 strain VO22 were PCR positive for the gene encoding the central regulatory protein, toxR. All V. cholerae strains were negative for the NAG-specific st gene. Of the nine non-ctx-producing strains of V. cholerae, only one, non-O1, non-O139 strain VO24, caused fluid accumulation in the rabbit ileal loop assay. The other eight strains, including an O1 strain, an O139 strain, and six non-O1, non-O139 strains, regardless of the source of isolation, caused fluid accumulation after two to five serial passages through the rabbit gut. Culture filtrates of all non-cholera-toxigenic strains grown in AKI media also caused fluid accumulation, suggesting that a new toxin was produced in AKI medium by these strains. Studies of clonality performed by using enterobacterial repetitive intergenic consensus sequence PCR, Box element PCR, amplified fragment length polymorphism (AFLP), and pulsed-field gel electrophoresis (PFGE) collectively indicated that the V. cholerae O1 and O139 strains had a clonal origin, whereas the non-O1, non-O139 strains belonged to different clones. The clinical isolates closely resembled environmental isolates in their genomic patterns. Overall, there was an excellent correlation among the results of the PCR, AFLP, and PFGE analyses, and individual strains derived from clinical and environmental sources produced similar fingerprint patterns. From the results of this study, we concluded that the non-cholera-toxin-producing strains of V. cholerae, whether of clinical or environmental origin, possess the ability to produce a new secretogenic toxin that is entirely different from the toxin produced by toxigenic V. cholerae O1 and O139 strains. We also concluded that the aquatic environment is a reservoir for V. cholerae O1, O139, non-O1, and non-O139 serogroup strains.     

Cholera toxin gene polymerase chain reaction for detection of non-culturable Vibrio cholerae O1

Cholera enterotoxin is a major antigenic determinant for virulence of Vibrio cholerae O1 which can enter into a viable but non-culturable (N-C) state, not detectable by conventional culture methods, yet remain capable of producing enterotoxin and potentially pathogenic. PCR was applied in the current study to detect the chilera toxin (ctx) gene of N-C cells, thus eliminating the necessity of culture. Sets of oligonucleotide primers were designed, based on the ctxAB operon of V. cholerae O1, to detect the presence of the ctx gene. DNA from both culturable and N-C cells of V. cholerae O1 was amplified by PCR using sets of primers flanking 302-, 564- and 777-bp fragments of the ctx gene. The PCR method employed was capable of detecting the ctx gene in N-C V. cholerae in aquatic microcosms and in diarrheal stool samples from three patients who had distinct clinical symptoms of cholera but were culture-negative for V. cholerae O1 and non-O1 and enterotoxigenic Escherichia coli. Forty cycles of a two-step reaction (30 s each at 94 and 60°C) were optimal and more time efficient than a three-step PCR described previously. The procedure, from the point of heating microcosms or broth culture samples to observation on gels, requires < 4 h to complete.J.A.K. Hasan, A. Huq, M.A.R. Chowdhury, and R.R. Colwell are with the Department of Microbiology, University of Maryland, College Park, MD, USA. M. Shahabuddin is with the National Institute of Health. Bethesda, MD, USA. L. Loomis is with New Horizons Diagnostics Corporation, Columbia, MD, USA.     

Binding efficiencies of carbohydrate ligands with different genotypes of cholera toxin B: molecular modeling, dynamics and docking simulation studies

Vibrio cholerae produces cholera toxin (CT) that consists of two subunits, A and B, and is encoded by a filamentous phage CTXΦ. The A subunit carries enzymatic activity that ribosylates ADP, whereas the B subunit binds to monosialoganglioside (GM1) receptor in epithelial cells. Molecular analysis of toxigenic V. cholerae strains indicated the presence of multiple ctxB genotypes. In this study, we employed a comparative modeling approach to define the structural features of all known variants of ctxB found in O139 serogroup V. cholerae. Modeling, molecular dynamics and docking simulations studies suggested subtle variations in the binding ability of ctxB variants to carbohydrate ligands of GM1 (galactose, sialic acid and N-acetyl galactosamine). These findings throw light on the molecular efficiencies of pathogenic isolates of V. cholerae harboring natural variants of ctxB in causing the disease, thus suggesting the need to consider ctxB variations when designing vaccines against cholera.     

Isolation,identification, and characterization of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> from the Danube River in Slovakia

The occurrence of Vibrio cholerae, an important aquatic pathogen, was assessed in the surface water of the Danube River near Bratislava. The isolates were distinguished by biochemical tests and grouped by ARDRA to three clusters corresponding to three species (V. cholerae, Vibrio metschnikovii, and Aeromonas spp.). The identification of V. cholerae was confirmed by multiplex PCR using primer pairs targeted to ompW gene (membrane protein), ctxA gene (toxicity gene), and toxR gene (regulatory gene). None from the isolated V. cholerae from surface water contained ctxA gene; seven of them possessed toxR gene. Serotyping of V. cholerae isolates with polyvalent O antiserum and O/139 antiserum was negative. All isolates of V. cholerae were susceptible to chloramphenicol, rifampicin, tetracycline, variable to ampicillin, and resistant to kanamycin and streptomycin.     

Toxigenic Vibrio cholerae from environmental sources associated with the cholera outbreak after ‘AILA’ cyclone in West Bengal,India

Aims: West Bengal experienced a devastating storm named ‘AILA’ in its coastal and southern districts. We attempted to understand the transmission dynamics emphasizing on potable water to detect the presence of toxigenic strains of Vibrio cholerae, followed by the natural devastation. Methods and Results: A total of 33 water samples (from tap, tube well and ponds) were analysed. From them, 11 (33·3%) samples were found to be contaminated with V. cholerae, among which 5 (45%) isolates were V. cholerae O1 biotype Ogawa. Antibiogram profile reveals that most of the V. cholerae O1 isolates were highly sensitive against fluroquinolone group of antibiotics, but less sensitive against cefuroxime (50%), cefotaxime (40·9%), ceftriaxone (38·63%), trimethoprim (37·3%), streptomycin (29·2%) and furazolidon (4·54%). Three (36%) V. cholerae isolates were found to be ctxB positive (2 ctxB classical). Conclusions: Potable water plays a crucial role in cholera transmission. Natural disasters like the reported one aided with feacal–oral contamination enhance the possibilities of drinking water contamination. Significance and Impact of the Study: The application of the modified technique, making use of the enrichment subsequently followed by culture and PCR, will help us to detect the presence of toxigenic V. cholerae contamination in different aquatic environment. Moreover, natural extremes have a direct role in increase of salinity level, followed by higher predominance of V. cholerae along with their toxicity development in terms of genetic modification.     

Successful Application of Enzyme-Labeled Oligonucleotide Probe for Rapid and Accurate Cholera Diagnosis in a Clinical Laboratory

Two cholera cases were diagnosed using an enzyme-labeled oligonucleotide probe (ELONP) hybridization test for detection of cholera toxin gene (ctx) in a clinical laboratory at Osaka Airport Quarantine Station. The ELONP test with suspicious colonies of Vibrio cholerae O1 grown on TCBS or Vibrio agar plates gave positive result for ctx within 3 hr. We also tried to apply the ELONP test for direct detection of ctx in their stool and their non-selective culture. Specimens from Case #1, which contained 5.9 × 10⁵ CFU/g of V. cholerae O1 in the stool, cultured for 7–8 hr or longer in alkaline peptone water or Marine broth at 37C, became positive for ctx. On the other hand, specimens from Case #2, which contained 8.7 × 10⁸ CFU/ml (of V. cholerae O1 in the stool), gave positive result in this stool itself without any further culture. These data suggest that the ELONP test provides successfully a more rapid and accurate means of identifying “toxigenic” V. cholerae O1 in a clinical laboratory.     

Pandemic Serotypes of Vibrio cholerae Isolated from Ships’ Ballast Tanks and Coastal Waters: Assessment of Antibiotic Resistance and Virulence Genes (tcpA and ctxA)

There is concern that ships’ ballasting operations may disseminate Vibrio cholerae to ports throughout the world. Given evidence that the bacterium is indeed transported by ships, we isolated pandemic serotypes O1 and O139 from ballast tanks and characterized them with respect to antibiotic resistance and virulence genes ctxA and tcpA. We carried out concurrent studies with V. cholerae isolated from coastal waters. Of 284 isolates, 30 were serotype O1 and 59 were serotype O139. These serotypes were overrepresented in ballast tanks relative to the coastal waters sampled. All locations, whether coastal waters or ballast tanks, yielded samples from which serotype O1, O139, or both were isolated. There were three groups among the 62 isolates for which antibiotic characterization was conclusive: those exhibiting β-lactamase activity and resistance to at least one of the 12 antibiotics tested; those negative for β-lactamase but having antibiotic resistance; those negative for β-lactamase and registering no antibiotic resistance. When present, antibiotic resistance in nearly all cases was to ampicillin; resistance to multiple antibiotics was uncommon. PCR assays revealed that none of the isolates contained the ctxA gene and only two isolates, one O139 and one O1, contained the tcpA gene; both isolates originated from ballast water. These results support the bacteriological regulations proposed by the International Maritime Association for discharged ballast water.     

Distribution of some virulence related-properties of Vibrioalginolyticus strains isolated from Mediterranean seawater (Bay of Khenis, Tunisia): investigation of eight Vibriocholerae virulence genes

This study characterizes 28 Vibrio alginolyticus strains isolated from seawater from the Seacoast of Monastir (Khenis; Tunisia). V. alginolyticus were isolated using the TCBS modified agar plates and the biochemical activities were tested using RapID NF plus Strips. Proteases activities, hemolysis, antibiotics susceptibility, and adhesion to fish mucus and epithelial cell lines (Hep-2 and Caco-2) were also investigated. Eight Vibrio cholerae virulence genes (toxR, toxS, toxRS, toxT, ctxA, vpi, ace, zot) were investigated by PCR in genomes of V. alginolyticus strains. Most of the studied strains were β-haemolytic and produce many proteolytic enzymes. All isolates described here were resistant to several antibiotics tested. Six strains were able to adhere strongly to both Hep-2 and Caco-2 cell lines. The PCR investigation of V. cholerae genes showed a large distribution among the genomes of all V. alginolyticus strains. The toxR operon was found in 9 V. alginolyticus strains out of 28 studied. Only one strain was positive for the toxS and toxRS respectively. Five strains showed a positive amplification for the virulence pathogenic island (vpi), seven for the toxT, 3 for the ctxA and 9 for the Zonula occludens toxin (zot). The bay of Khenis harbors different genotypes of V. alginolyticus strains who inheritated several virulence genes from autochthones bacteria such as V. cholerae. These strains were able to produce several virulence enzymes and exhibit a high power to adhere to human epithelial cells and fish mucus.     

Detection of cholera toxin by a highly sensitive bead-enzyme linked immunosorbent assay.

A bead-enzyme linked immunosorbent assay (bead-ELISA) for detection and quantification of cholera toxin (CT) in broth cultures of Vibrio cholerae O1 has been developed. Under optimal buffer and pH conditions the bead-ELISA could consistently detect 40 pg/ml of CT. None of the ingredients of commonly used media for in vitro culture of V. cholerae O1 hindered the performance of the bead-ELISA. Evaluation of the sensitivity and specificity of the bead-ELISA against the commonly used reversed passive latex agglutination (RPLA) test for detection of CT was performed using a collection of 239 strains of V. cholerae O1 (including both biotypes and serotypes) which were examined by a gene probe encoding for the A1 subunit of CT. Although both the assays were highly specific, the bead-ELISA was more sensitive than the RPLA. Quantification of CT by the bead-ELISA revealed that the concentration of CT produced by the strains of V. cholerae O1 which were negative by the RPLA was lower than 1 ng/ml and therefore below the minimum detection ability of the RPLA. The bead-ELISA is a simple, specific and highly sensitive assay for routine detection of CT and is recommended for routine use in clinical microbiology laboratories.     

Comparative study of different methods for detection of toxic and other enzymatic factors in Vibrio cholerae strains

The purpose of this work was to characterize the toxin profile and the presence of other virulence factors involved in the pathogenesis and biology of 13 V. cholerae O1 (11 clinical cases and 2 waters) and 6 V. cholerae non O1 strains (4 clinical cases and 2 waters) using genetic (PCR), immunological (RPLA), biochemical (NAD degradation, haemolysis, Kanagawa phenomenon, caseinase, lecithinase, mucinase, amylase, esculine hydrolysis) and cell culture (Vero E6, HEp-2) assays. The results indicated a concordance between PCR-RPLA (84%), PCR-NAD (73%) and RPLA-NAD (84%) methods. The sensitivity of RPLA and NAD degradation methods were comparable to PCR in detecting CT in Vibrio cholerae O1 strains. Although NAD degradation method was not exclusively specific for the CT detection, it proved its usefulness in screening certain virulent, CT-negative clones of V. cholerae. The cytotoxic effect on Vero E6 cells, enzyme production (Kanagawa haemolysins, lecithinase, caseinase, esculine hydrolysis) as well as adherence ability on inert substrate proved to be much more constant in V. cholerae non O1 (CT- negative) than in V. cholerae O1 (CT-positive). All V. cholerae non O1 strains isolated in diarrheal cases were Kanagawa positive. This complex of virulence factors detected in V. cholerae non O1 strains could probably contribute during interepidemic periods to human-to-human transmission and to greater resistance as compared to O1 strains in the environment.     

Cryptic Appearance of a New Clone of Vibrio cholerae Serogroup O1 Biotype El Tor in Calcutta,India

In this study, pulsed-field gel electrophoresis (PFGE) was applied to determine if the Vibrio cholerae O1 strains which reappeared after being temporarily displaced in Calcutta by the O139 serogroup were different from those isolated before the advent of the O139 serogroup. NotI digestion generated a total of 11 different patterns among the 24 strains of V. cholerae randomly selected to represent different time frames. Among the V. cholerae O1 strains isolated after July 1993, 4 PFGE banding patterns designated as H through K were observed with pattern H dominating. Pattern H was distinctly different from all other patterns encountered in this study including patterns A, B and C of V. cholerae O1 El Tor, which dominated before November 1992, and pattern F, which was the dominant V. cholerae O139 pattern. Further, pattern H was also different from the NotI banding patterns of the representative strains of the 4 toxigenic clonal groups of V. cholerae O1 El Tor currently prevailing in different parts of the world. NotI fragments of the new clone of V. cholerae O1 did not hybridize with an O139 specific DNA probe, indicating that there was no O139 genetic material in the new clone of V. cholerae O1. Hybridization data with an O1-specific DNA probe again differentiated between the clones of V. cholerae O1 existing before the genesis of the O139 serogroup and the O1 strains currently prevalent.     

Characterization of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> from deep ground water in a cholera endemic area in Central India

A total of 8 out of 11 deep ground water samples collected from different villages in Central India were found contaminated with Vibrio cholerae non O1, non O139. In a multiplex PCR, isolates were found positive for ompW gene but negative for ctxAB and rfbO1 genes. However, isolates from two places were positive for tcp and zot genes, indicating their intestinal colonization and toxigenic potential. Antibiotic susceptibility studies revealed that all isolates were multidrug resistant. Although, none of the isolates was found PCR positive for the mobile genetic elements, class 1 integrons and SXT constins. The results of this study corroborated that deep ground water can also be an important reservoir of V. cholerae in plane endemic areas, suggesting a continuous monitoring of water samples for timely prevention of the disease.     

Molecular diversity of CTX prophage in Vibrio cholerae

Aims: The objective of this study was to investigate the molecular diversity of CTX genetic element within toxigenic Vibrio cholerae genomes and to determine the genetic diversity of V. cholerae population collected in a 6‐year period (2004–2009) in Iran. Methods and Results: The results of mismatch amplification mutation assay (MAMA)‐PCR and sequencing showed cytosine nucleotide in positions 203 and 115 in all 50 El Tor V. cholerae strains, which is the same as classical ctxB sequence. One strain yielded amplicons with both El Tor and classical biotype primers in MAMA‐PCR indicative of presence of two copies of CTX phages with different genotypes (rstR^ET ctxB^class and rstR^ET ctxB^ET) integrated within the genome of this isolate, which suggested the integration of two different CTX phages at different occasions or point mutation in one copy of CTX. Sequencing and PCR analysis indicated the presence of hybrid CTX genotype (rstR^ET ctx^class) in 70·6% of the isolates; however, only El Tor RS1 phage has been integrated in flanking to the CTX phages with different genotypes. Conclusions: Enterobacterial repetitive intergenic consensus‐PCR (ERIC‐PCR) and ribosomal gene spacer‐PCR (RS‐PCR) showed a relatively homogenous population in different years. Our findings indicate that sequence analysis of RS and ctxB regions has more discriminative power than restriction‐based methods. Significance and Impact of the Study: Investigating the molecular diversity of CTX prophage among V. cholerae strains helps to establish a new valuable database of genetic information about isolates, which is of great importance for epidemiologic studies in Iran and other countries encountering cholera epidemics.     

Role of Temperate Bacteriophage 139 in Changing Cholera Toxin Production in Vibrio cholerae Classical Biovar

New data were obtained concerning cell sensitivity of pathogenic strains of cholera vibrions, which belong to the serogroup O1 of classical biovar, to the temperate bacteriophage 139, the native host of which is Vibrio cholerae O139. Molecular–genetic and biochemical studies showed that phage 139 integrated into the chromosome of strains V. cholerae O1 can change their toxigenic properties. A change in the production of cholera toxin (CT) in lysogens is associated both with an increase in the activity of the toxR regulatory gene and with an alteration of the structure of a chromosomal DNA region that contains a copy of the operon ctxAB encoding CT biosynthesis.     

Molecular characterization of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> isolates from cholera outbreaks in north India

Vibrio cholerae isolates recovered from cholera outbreaks in Bhind district of Madhya Pradesh and Delhi, Northern India were characterized. The O1 serogroup isolates from Bhind outbreak were of Inaba serotype whereas both Ogawa and Inaba serotypes were recovered from Delhi. PCR analysis revealed that only O1 serogroup V. cholerae isolates carried the virulence-associated genes like ctxA, tcpA, ace, and zot. Molecular typing by repetitive sequence based ERIC, VCR1, and VC1 PCR’s revealed similar DNA profile for both Inaba and Ogawa serotypes. A discrete VC1-PCR band identified among the El Tor strains had greater similarity (>97%) to the V. cholerae genome sequence and therefore has the potential to be used as a marker for the identification of the V. cholerae strains. Non-O1 strains recovered from Bhind region differed among themselves as well as from that of the O1 isolates. All the O1 serogroup isolates possessed SXT element and were uniformly resistant to the antibiotics nalidixic acid, polymyxin-B, furazolidone, cloxacilin, trimethoprim-sulfamethaxazole, and vibriostatic agent 0129. Inaba strains from both Delhi and Bhind differed from Ogawa strains by their resistance to streptomycin despite sharing similar DNA patterns in all the three rep-PCRs. Though Delhi and Bhind are separate geographical regions in Northern India, Inaba strains from both these places appear to be closely related owing to their similarity in antibiogram and genetic profile.     

Development of simple and rapid PCR‐fingerprinting methods for Vibrio cholerae on the basis of genetic diversity of the superintegron

Aims: To develop simple and rapid PCR‐fingerprinting methods for Vibrio cholerae O1 (El Tor and classical biotypes) and O139 serogroup strains which cause major cholera epidemics, on the basis of the diversity of superintegron (SI) carried by these strains. Methods and Results: PCR‐restriction fragment length polymorphism (PCR‐RFLP) assay was developed targeting region between integrase gene in the SI and its nearby ORF, followed by BglI digestion. Besides, a V. cholerae repeat‐amplified fragment length polymorphism (VCR‐AFLP) assay was also developed. In the PCR‐RFLP, 94 El Tor, 29 classical and 54 O139 strains produced nine, three and six different DNA fingerprints, respectively. On the other hand, VCR‐AFLP distinguished these El Tor, classical and O139 strains into five, nine and two DNA fingerprints, respectively. Combining both assays the El Tor, classical and O139 strains could be differentiated into 11, 10 and seven different types, respectively. In a comparative study, pulsed‐field gel electrophoresis (PFGE) showed similar differentiation for El Tor (11 types), but lower discrimination for O139 (two types) and classical strains (five types). Conclusions: The PCR assays based on SI diversity can be used as a useful typing tool for epidemiological studies of V. cholerae. Significance and Impact of Study: This newly developed method is more discriminatory, simple, rapid and cost‐effective in comparison with PFGE, and thus can be widely applicable.     

Pili of a Vibrio cholerae O139

The pili of a strain of Vibrio cholerae O139 were purified and characterized. They were morphologically, electrophoretically and immunologically indistinguishable from the pili with 16 kDa subunit protein of V. cholerae O1. All 22 strains of V. cholerae O139 examined possessed the pili. The pili were different in hemagglutination inhibition pattern from V. cholerae O1 16K pili.     

反向间接胶乳凝集试验法检测粪便A型产气荚膜梭菌肠毒素的结果及评价

本文以１０种５２株供试菌分别与７个不同年龄组的健康人粪便混合,共配成３６４份模拟标本,采用反向间接胶乳凝集（ＲＰＬＡ）试验法与生物学试验法（小鼠致死试验、豚鼠皮肤血管透性因子试验,Ｖｅｒｏ细胞毒性试验）检测各标本中的Ａ型产气荚膜梭菌肠毒素（简称Ｃｐ－Ｅｎｔ）。除产气荚膜梭菌之外的其他菌种培养液２３８份标本（３４株）,ＲＰＬＡ与生物学试验结果完全一致,均为阴性。产气荚膜梭菌１２６份标本（１８株）中有７０份标本的ＲＰＬＡ同生物学诸法完全一致地检出了Ｃｐ－Ｅｎｔ．有１株７份标本（ＣｐＮＣＴＣ８７９７）的ＲＰＬＡ为阳性,而各生物学试验却均为阴性,该菌株经ＰＣＲ检查证明确为肠毒素原性产气荚膜梭菌,表明ＲＰＬＡ比生物学试验法更灵敏。有５株（ＣｐＮＣＴｃ８２３８,ＣｐＮＣＴＣ１０６１１,ＣｐＮＣＴＣ１０６１４,ＣｐＮＣＴＣ１０６１２,ＣｐＬ－５２）３５份标本ＲＰＬＡ与各生物学试验结果均为阴性,但经ＰＣＲ检吉证明该５株菌均为肠毒素原性产气荚膜梭菌,后经超声波破碎菌体提取物对其中部分菌株进行试验的结果仍然显示了ＲＰＬＡ与生物学法的一致性。有２株（ＣｐＮＣＴＣ８６８６,ＣｐＮＣＴＣ８４４９）１４份标本的所有结果均为阴性,ＰＣＲ     

Incidence of Non-01 Vibrio cholerae and Aeromonas spp. in Fresh Water in Araraquara, Brazil

The occurrence of Aeromonas spp., Vibrio cholerae, and Plesiomonas shigelloides in fresh water from various sources in Araraquara, State of S?o Paulo, Brazil was determined. Samples from ten distinct irrigation systems used in vegetable cultivation, from five distinct streams, from two reservoirs, from one artificial lake, and from three distinct springs were analyzed. All isolates were serotyped and tested for hemolysin, cytotoxin, heat-stable (ST) and heat-labile (LT) enterotoxins production; presence of plasmid; autoagglutination and drug resistance. V. cholerae isolates were also tested for cholera enterotoxin (CT) production, and Aeromonas isolates for suicide phenomenon. No P. shigelloides was found. V. cholerae non 01 was found in five irrigation water samples and in three stream samples. Aeromonas sp. were isolated in two samples of irrigation water, in three streams, and in one reservoir. All the V. cholerae and Aeromonas isolates were positive for β-hemolysin production, and all Aeromonas isolates were positive for suicide phenomenon; cytotoxic activities were observed in two Aeromonas strains. Cholera enterotoxin was not found in eight V. cholerae non-01 isolates tested by the Y-1 mouse adrenal cell. All isolates were also negative for the other virulence markers. V. cholerae isolates were found to be sensitive to the majority of drugs tested, while Aeromonas strains presented multiple drug resistance. Received: 4 November 1997 / Accepted: 23 January 1998