Cholera toxin gene-positive Vibrio cholerae O1 Ogawa and Inaba strains produce the new cholera toxin

Abstract Two strains of cholera toxin (CT) gene-positive Vibrio cholerae O1, Ogawa, isolated from patients with diarrhoea and the hypertoxigenic V. cholerae O1, Inaba (569B), were found to produce the new cholera toxin that has earlier been demonstrated to be elaborated by CT gene-negative human and environmental isolates of V. cholerae O1. The CT gene-positive strains produce the new cholera toxin simultaneously with CT, indicating that they contain the gene coding for the new cholera toxin in addition to that of CT.     

Distribution of the zot (zonula occludens toxin) gene among strains of Vibrio cholerae 01 and non-01

Abstract The distribution of the zot gene that encodes the zonula occludens toxin, a newly described toxin of Vibrio cholerae , among clinical, environmental and food isolates of V. cholerae 01 and non-01 was investigated. Both the zot gene and the ctx gene that encode cholera toxin were found in 247 of 257 clinical strains and 62 of 415 environmental or food isolates of V. cholerae 01. The zot gene, but not the ctx gene was found in 37 strains (one clinical strain and 36 environmental or food isolates). In addition, two of 31 clinical strains and six of 98 environmental or food isolates of V. cholerae non-01 possessed both the zot gene and the ctx gene. These results demonstrated the predominantly concurrent occurrence of the zot gene and ctx genes among strains of V. cholerae 01 which suggests a possible synergistic role of ZOT in the causation of acute dehydrating diarrhea produced by V. cholerae 01.     

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.     

Development of an improved synthetic medium for a better production of the new cholera toxin and its immunological relationship with the toxin produced by Vibrio cholerae O139 strains

Abstract An improved synthetic medium (M4) comprising syncase medium supplemented with sodium chloride (1%) and sucrose (0.5%) pH adjusted to 7.4 was developed for a better production of the new cholera toxin (NCT). The culture filtrates prepared in the M4 medium caused significantly ( P < 0.05) more fluid accumulation than that in syncase medium. Crude toxin, prepared in the M4 medium with V. cholerae O1 strains (X-392 and 2740-80) caused a reaction similar to that of the same amount of NCT (32 μg) prepared in the syncase medium. The neutralization of the optimal loop reacting dose of the NCT prepared in the M4 medium by anti-NCT raised against syncase prepared toxin indicates the release of the same kind of toxin in both media. These observations indicate that the modified M4 medium may be used for NCT preparation and further characterization. All the strains of Vibro cholerae O139 used in this study produced a toxin antigenically similar to NCT.     

Structure and arrangement of the cholera toxin genes in Vibrio cholerae O139

Abstract The sequence of the ctxB gene encoding the B subunit of cholera toxin has been determined for a strain of Vibrio cholerae of the novel O139 serotype associated with recent outbreaks of severe cholera throughout South-East Asia and found to be identical to the ctxB gene in V. cholerae O1 of the E1 Tor biotype. Analyses by Southern hybridization and PCR showed that all strains of the O139 serotype V. cholerae tested carried cholera toxin genes and other gene associated with a virulence cassette DNA region at two loci identical or homologous to those identified in the Classical rather than the E1 Tor biotype of V. cholerae serotype O1 although these loci in O139 could reside on restriction fragments of variable size.     

Incidence and toxigenicity of Vibrio cholerae in a freshwater lake during the epidemic of cholera caused by serogroup O139 Bengal in Calcutta, India

Abstract The extent of contamination of a freshwater lake with Vibrio cholerae 0139 Bengal and the toxigenicity of all the V. cholerae isolates recovered during the period of the study were examined during and after an explosive outbreak of 0139 cholera in Calcutta. Strains biochemically characterized as V. cholerae could be isolated throughout the period of study examined from the freshwater lake samples. Most probable number of V. cholerae belonging to the 0139 serogroup in surface waters was 3 to 4 per 100 ml during major part of the study but isolation of this serogroup from sediment and plankton samples was infrequent. Of the total of 150 strains recovered, 23 (15.3%) agglutinated with the 0139 antiserum while the remaining belonged to the non-O1 non-O139 serogroups. None of the strains agglutinated with the O1 antiserum. All the 23 strains of V. cholerae O139 produced cholera toxin while 7.9% of the 127 non-O1 non-O139 strains also produced cholera toxin. Resistance to ampilicillin, furazolidone and streptomycin was encountered among strains belonging to both V. cholerae O139 and V. cholerae non-O1 non-O139 strains, but the percentage of resistant strains in the former was much higher than in the latter. During this cholera epidemic, possibly due to the introduction of large numbers of toxigenic V. cholerae such as the O139 serogroup, there was an increase in the number of toxigenic vibrios among the innocuous aquatic residents. This presumably occured through genetic exchange and, if substantiated, could play an important role in the re-emergence of epidemics.     

Conservation of cholera toxin gene in a strain of cholera toxin non-producing Vibrio cholerae O1

BT23, a Vibrio cholerae O1 El Tor isolate, possesses the cholera toxin (CT) gene as determined by PCR. However, CT was not detected in the culture medium by the reversed passive latex agglutination test, nor in the whole cell lysate as examined by Western blotting. The toxin-coregulated pilus (TCP) was not detected by Western blotting. This suggests the presence of defects in the regulatory cascade. toxR, toxS and toxT, members of the regulatory cascade, were examined by PCR. toxR and toxS were conserved but toxT was not. CT and TCP production was complemented by transformation of toxT. The lack of toxT was suspected to be the cause of the undetectable production of CT in strain BT23.     

Lysophospholipase L2 of Vibrio cholerae O1 affects cholera toxin production

Abstract The implication in cholera toxin (CT) production of the newly identified gene, lypA , that encodes the lysophospholipase L₂ of Vibrio cholerae , was investigated. Introduction of lypA into the V. cholerae O1 mutant (NF404), which has a Tn5-insertion in lypA and has lost CT as well as haemolysin production, restored the lysophospholipase activity and CT production but not the haemolytic activity. Inactivation of the lypA gene of the wild-type strain by chromosomal integration of a plasmid containing a portion of the lypA gene decreased the lysophospholipase L₂ activity and the production of CT but not the haemolytic activity. Furthermore, constructed mutants of El Tor-biotype and Classical-biotype strains which have a defective lypA failed to produce CT and exhibited decreased enterotoxicity in the ligated rabbit ileal loop test. These results suggest that lypA is possibly required for the expression of CT and may play a role in pathogenicity of V. cholerae .     

Virulence properties of rough and smooth strains of Vibrio cholerae O1

A comparative study was carried out to see the differences in pathogenicity of rough and smooth strains. A total of 10 strains including 5 each of rough and smooth strains of Vibrio cholerae O1 were tested and found positive for toxin production by enzyme-linked immunosorbent assay (ELISA) in Richardson's and AKI media. All the smooth and rough strains, except one, showed a titre of 1: 10 and 1: 100 in Richardson's and AKI media, respectively. Both types of strains produced enterotoxin in rabbit ileal loop (RIL). The differences in multiplication abilities of smooth and rough strains in RIL were statistically significant (P <0.05). However, these differences in multiplying abilities did not influence the adherence potential or enterotoxin production as there was no significant difference (P >0.05) between these properties. This study demonstrated that the rough strains are equally pathogenic and as important as smooth strains.     

Environment and virulence factors of Vibrio cholerae strains isolated in Argentina

AIMS: To determine the presence of Vibrio cholerae in different areas of Argentina in three sample types, to determine the composition of planktonic communities in areas at which this pathogen was detected and to characterize the virulence properties and antimicrobial resistance of the recovered environmental isolates. METHODS AND RESULTS: Water and plankton samples were collected in marine, brackish and freshwater environments. Vibrio cholerae non-O1, non-O139 was isolated in 36.1% of the samples analysed. The micro-organism was detected in freshwater but not in marine or brackish samples. No relationship was found between isolation of V. cholerae and presence of any species of plankton. All the isolates presented very similar virulence profiles by PCR, lacking ctxA and tcpA El Tor and containing hlyA (98.7%), rtxA (99.0%), toxR (98.7%) and stn-sto (1.9%). Resistance to ampicillin was found in both Tucumán (21%) and Buenos Aires isolates (45%). CONCLUSIONS: We identified two geographic areas in Argentina where V. cholerae was present: freshwaters of the rivers from Tucumán and the Río de la Plata. SIGNIFICANCE AND IMPACT OF THE STUDY: The identification of V. cholerae strains in the environment, carrying both virulence factors and resistance to antimicrobial agents, highlight the need for a continuous and active surveillance of this pathogen.     

Prevalence of a Vibrio cholerae 18-kDa antigen in vibrios

Abstract An 18-kDa protein that occurs in Vibrio cholerae has been described as an in vivo and low-iron regulated outer membrane antigen. Monoclonal antibodies which recognized this antigen were protective as passive vaccines in the infant rabbit model of cholera disease. In this study, those monoclonal antibodies were used in three immunological assays for surveillance of various bacteria for the 18-kDa antigen. ELISA, and Western blot assays gave variable results with bacteria or outer membrane preparations. The biodot assay was the most sensitive test, detecting the 18-kDa antigen in 29 of 29 V. cholerae strains, independent of biotype or serotype. A few other Gram-negative bacteria and V. parahaemolyicus reacted weakly with our antibodies and antiserum.     

Genomic diversity among Vibrio cholerae O139 strains isolated in Bangladesh and India between 1992 and 1998

In order to assess the extent of genomic diversity among Vibrio cholerae O139 strains, restriction fragment length polymorphisms in two genetic loci, rrn and ctx, were studied. Analysis of 144 strains isolated from different regions of Bangladesh and India between 1992 and 1998 revealed the presence of at least six distinct ribotypes (B-I through B-VI) of which three were new ribotypes, and one of these was represented by a nontoxigenic O139 strain. Strains of ribotypes B-I through B-V shared 11 different CTX genotypes (A through K). Antimicrobial resistance patterns of the strains varied independently of their ribotypes and CTX genotypes. Results of this study suggest that V. cholerae O139 is undergoing rapid genetic changes leading to the origination of new variants, and temporal changes in antimicrobial resistance patterns may be contributing to the selection of different variants.     

Construction of cholera toxin B subunit-producing Vibrio cholerae strains using the Mariner-FRT transposon delivery system

The most widely used oral whole-cell-recombinant B subunit cholera vaccine contains the nontoxic cholera toxin B subunit (CTXB) and either heat- or formalin-killed Vibrio cholerae O1 strains. Vibrio cholerae O1 strains in the vaccine provide antibacterial immunity, and CTXB contributes to the vaccine's efficacy by stimulating production of anti-CTXB antibody. Various attempts have been made to increase CTXB production. In this study, the mariner-FRT transposon delivery system developed by Chiang and Mekalanos was used to place the ctxB gene under the control of a strong chromosomal promoter in a nontoxigenic V. cholerae El Tor strain, M7922. The expression level of CTXB in transposon insertion mutant clones was screened by ganglioside-dependent enzyme-linked immunosorbent assay. Among CTXB-producing V. cholerae clones that were isolated, M7922-C1 produced the highest amount of CTXB (3.17+/-1.69 microg mL(-1)). M7922-C1 harbors a single insertion of ctxB into VC0972, which encodes a putative porin protein. Although the level of CTXB expression in this strain was not exceptionally high, this study indicates the possibility of using this delivery system to construct vaccine strains that overexpress specific antigens.     

Production and cross-reactivity patterns of a panel of high affinity monoclonal antibodies to Vibrio cholerae O139 Bengal

Abstract A series of monoclonal antibodies of different isotypes specific for Vibrio cholerae O139, the new pandemic strain of cholera, was produced. These mAbs reacted only with the reference strain (MO45) representing serovar O139 but did not react with any of the other reference strains representing serovars O1 to O140. Significantly, the mAbs did not agglutinate the R-cultures of V. cholerae (CA385, 20–93) which demonstrated the exceptional specificity of these mAbs and indicated that the mAbs recognized antigenic determinants unique for the O139 serovar. There was heterogeneity in the intensity of reactivity of the mAbs with strains of V. cholerae O139 isolated from diverse sources. Apart from 4H6, the other mAbs agglutinated all the O139 strains examined. 2D12 and 2F8 were the best mAbs based on the intensity of agglutination with all the O139 strains. Evaluation of 3A10 in comparison with a polyclonal anti-O139 antibody raised in rabbit using the slide agglutination format revealed that 3A10 fared as well as the polyclonal antibody for the laboratory identification of the O139 serovar. The acquisition of these mAbs provide reagents which would be very useful in the development of simple immunodiagnostic assays for the diagnosis of V. cholerae O139 infections.     

The ability of two different Vibrio spp. bacteriophages to infect Vibrio harveyi, Vibrio cholerae and Vibrio mimicus

AIMS: To determine the host range of the Vibrio harveyi myovirus-like bacteriophage (VHML) and the cholera toxin conversion bacteriophage (CTX Phi) within a range of Vibrio cholerae and V. mimicus and V. harveyi, V. cholerae and V. mimicus isolates respectively. METHODS AND RESULTS: Three V. harveyi, eight V. cholerae and five V. mimicus isolates were incubated with VHML and CTX Phi. Polymerase chain reaction (PCR) was used to determine the presence of VHML and CTX Phi in infected isolates. We demonstrated that it was possible to infect one isolate of V. cholerae (isolate ACM #2773/ATCC #14035) with VHML. This isolate successfully incorporated VHML into its genome as evident by positive PCR amplification of the sequence coding part of the tail sheath of VHML. Attempts to infect all other V. cholerae and V. mimicus isolates with VHML were unsuccessful. Attempts to infect V. cholerae non-01, V. harveyi and V. mimicus isolates with CTX Phi were unsuccessful. CONCLUSIONS: Bacteriophage infection is limited by bacteriophage-exclusion systems operating within bacterial strains and these systems appear to be highly selective. One system may allow the co-existence of one bacteriophage while excluding another. VHML appears to have a narrow host range which may be related to a common receptor protein in such strains. The lack of the vibrio pathogenicity island bacteriophage (VPI Phi) in the isolates used in this study may explain why infections with CTX Phi were unsuccessful. SIGNIFICANCE AND IMPACT OF THE STUDY: The current study has demonstrated that Vibrio spp. bacteriophages may infect other Vibrio spp.     

Detection and molecular characterization of Vibrio cholerae O1 Inaba biotype El Tor strain in Kerala, S. India

The resurgence of enteric pathogen Vibrio cholerae, the causative organism of epidemic cholera, remains a major health problem in many developing countries. The outbreaks of cholera follow a seasonal pattern in regions of endemicity. The southern Indian state of Kerala is endemic to cholera. A V. cholerae strain isolated from the stool sample of a patient in Piravam, Kerala, South India, was analysed. However, this case occurred at a time not associated with cholera outbreaks, leading to concern among the State health officials. We compared the virulence potential of the isolate with that of the standard or reference strains, that have been widely used as positive control. The isolate was identified as V. cholerae O1 biotype El Tor serotype Inaba. The resistance pattern of the isolate to common antibiotics was examined and it was found to be multi-drug resistant in nature. The strain was analysed for the presence of the CTX genetic element, which encodes genes for cholera toxin and other important regulatory genes. It was found to be positive for all the genes tested. In Kerala, most of the cholera outbreaks have been reported to be caused by V. cholerae O1 El Tor belonging to Ogawa serotype. Interestingly, the V. cholerae strain isolated from this case has been found to be of Inaba serotype, which is rarely reported.     

Vibrio cholerae and cholera: out of the water and into the host

The facultative human pathogen Vibrio cholerae can be isolated from estuarine and aquatic environments. V. cholerae is well recognized and extensively studied as the causative agent of the human intestinal disease cholera. In former centuries cholera was a permanent threat even to the highly developed populations of Europe, North America, and the northern part of Asia. Today, cholera still remains a burden mainly for underdeveloped countries, which cannot afford to establish or to maintain necessary hygienic and medical facilities. Especially in these environments, cholera is responsible for significant mortality and economic damage. During the last three decades, intensive research has been undertaken to unravel the virulence properties and to study the epidemiology of this significant human pathogen. More recently, researchers have been elucidating the environmental lifestyle of V. cholerae. This review provides an overview of the current knowledge of both the host- and environment-specific physiological attributes of V. cholerae.     

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。