Distribution of Vibrio cholerae virulence genes among different Vibrio species isolated in Sardinia, Italy

The members of the genus Vibrio include harmless aquatic strains as well as strains capable of causing epidemics of cholera. Diarrhoea caused by Vibrio cholerae is attributed to cholerae enterotoxin (CT) codified by the ctx operon and regulated by a number of virulence genes such as toxT, toxR and toxS. Fifty-two Vibrio strains were isolated from different aquatic environments in and around Sardinia and searched by PCR for the presence of ctxA, zot, ace, toxR, toxS, toxT, tcpA and vpi virulence genes in the genomes of the isolates. The toxR operon was found in 27 Vibrio alginolyticus strains out of 42 analysed, in three out of four V. cholerae non-O1 strains and in three Vibrio parahaemolyticus isolates. A positive amplification for the virulence pathogenic island (vpi) was produced by five V. alginolyticus strains. Finally, the ace expected amplification fragment was found in two V. alginolyticus isolates whereas the amplification with zot primers produced the expected fragment in one V. alginolyticus isolate. Differentiation of these strains with a PCR fingerprinting technique revealed no association between the presence of virulence genes and a particular fingerprinting pattern. Although most Vibrio species are considered non-pathogenic or only potentially harmful to humans, the finding of V. cholerae virulence genes in other members of the genus Vibrio, and the recent reports of the creation and evolution of pandemic strains of V. cholerae, may give a new perspective to the significance of these results.     

Environmental Vibrio spp., isolated in Mozambique, contain a polymorphic group of integrative conjugative elements and class 1 integrons

Circulation of mobile genetic elements linked to drug resistance spread was studied in Vibrio strains isolated from surface urban water (river and sea) and shellfish samples in 2002-2003 in Maputo, Mozambique. Class 1 integrons and integrating conjugative elements (ICE) were investigated by PCR and mating experiments in strains of major health interest: 10 Vibrio cholerae, six Vibrio parahaemolyticus, two Vibrio alginolyticus and one Vibrio fluvialis. Resistance to at least two antibiotics (predominantly beta-lactams) was detected in all the strains, with additional resistances to sulfamethoxazole, spectinomycin, streptomycin and/or trimethoprim. Class 1 integrons contributed partially to the expression of drug resistance and were found in five isolates: four V. cholerae (blaP1 cassette, one strain also contained the dfrA15 cassette) and one V. alginolyticus (aadA2 cassette). ICEs, apparently devoid of resistance genes, were found in eight V. cholerae, three V. parahaemolyticus and one V. fluvialis isolates. A wide variability was observed by molecular characterization of ICEs. Five ICEs were included in the SXT/R391 family and seven ICEs were not classified. Our results indicate that the SXT/R391 family and related ICEs comprise a large class of polymorphic genetic elements widely circulating in environmental Vibrio strains in Africa, beside those evidently linked to drug resistance in clinical isolates.     

A novel multiplex PCR for the identification of Vibrio parahaemolyticus, Vibrio cholerae and Vibrio vulnificus

AIM: To establish a simple multiplex polymerase chain reaction (PCR) that will identify Vibrio parahaemolyticus, Vibrio cholerae and Vibrio vulnificus. METHODS AND RESULTS: A total of 429 Vibrio spp. from various origins were tested with the novel primers targeting toxR. The reverse primers were all designed to be species specific, while the forward primer was universal. The primers correctly identified all the V. parahaemolyticus, V. cholerae and V. vulnificus isolates tested. CONCLUSIONS: The toxR multiplex PCR works well when the initial colony morphology is known. If not, Vibrio alginolyticus might represent a diagnostic obstacle. SIGNIFICANCE AND IMPACT OF THE STUDY: The method provides a fast and reliable way of identifying the main Vibrio spp. involved in food-borne disease. The method could prove very useful for laboratories working with identification of these Vibrio spp.     

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。     

Detection and identification of Vibrio parahaemolyticus by multiplex PCR and DNA-DNA hybridization on a microarray

In this paper,we developed a rapid and accurate method for the detection of Vibrio parahaemolyticus strains,using multiplex PCR and DNA-DNA hybridization.Multiplex PCR was used to simultaneously amplify three diagnostic genes(tlh,tdh and fia)that serve as molecular markers of V.parahaemolyticus.Biotinylated PCR products were hybridized to primers immobilized on a microarray,and detected by chemiluminesce with avidin-conjugated alkaline phosphatase.With this method,forty-five samples were tested.Eight known virulent strains (tlh+/tdh+/fia+)and four known avirulent strains(tlh+/tdh-/fla+)of the V.parahaemolyttcus were successtuny aetectea,ana no non-spectnc hybridization and cross-hybridization reaction were found from fifteen closely-related strains(tin-/tdh-/fta+)or the Vibrio spp.In addition,all the other eighteen strains of non-Vibrio bacteria(tlh-/tdh-/fla-)gave negative results.The DNA microarray successfully distinguished V.parahaemolyticus from other Vibrio spp.The results demonstrated that this was an efficient and robust method for identifying virulent strains of V.parahaemolyticus.     

Genetic transformation of Vibrio parahaemolyticus, Vibrio alginolyticus, and Vibrio cholerae non O-1 with plasmid DNA by electroporation

An electroporation procedure for the plasmid-mediated transformation of the genus Vibrio was performed, as part of an effort to develop recombinant DNA techniques for genetic manipulation of the genus Vibrio. Vibrio parahaemolyticus, V. alginolyticus, and V. cholerae non O-1 (9 different strains) were transformed with 3 vector plasmids (pACYC184, pHSG398, and pBR325). The efficiency of transformation was highly dependent on three parameters: the concentration of plasmid DNA; the strength of the electric field; and the combination of plasmid DNA and recipient strain. The drug-resistance genes on the vector plasmid were expressed in the Vibrio strains.     

Comparison of the Heme Iron Utilization Systems of Pathogenic Vibrios

Vibrio alginolyticus, Vibrio fluvialis, and Vibrio parahaemolyticus utilized heme and hemoglobin as iron sources and contained chromosomal DNA similar to several Vibrio cholerae heme iron utilization genes. A V. parahaemolyticus gene that performed the function of V. cholerae hutA was isolated. A portion of the tonB1 locus of V. parahaemolyticus was sequenced and found to encode proteins similar in amino acid sequence to V. cholerae HutW, TonB1, and ExbB1. A recombinant plasmid containing the V. cholerae tonB1 and exbB1D1 genes complemented a V. alginolyticus heme utilization mutant. These data suggest that the heme iron utilization systems of the pathogenic vibrios tested, particularly V. parahaemolyticus and V. alginolyticus, are similar at the DNA level, the functional level, and, in the case of V. parahaemolyticus, the amino acid sequence or protein level to that of V. cholerae.     

A polyphasic approach for the differentiation of environmental Vibrio isolates from temperate waters

Climate change and marine traffic lead to changing species communities in the oceans. Due to increasing seawater temperatures, pathogenic Vibrio species could become significant even in temperate waters. We classified mesophilic Vibrio isolates from the German Bight (North Sea) using a polyphasic approach with special emphasis on Vibrio parahaemolyticus. Matrix-assisted laser desorption/ionization time-of-flight MS was used as a primary screen to classify isolates, 16S rRNA gene and rpoB gene sequencing to identify species. Potential V. parahaemolyticus isolates were screened for regulatory or virulence-related genes (toxR, tlh, tdh, trh). To investigate genomic diversity, we applied repetitive-sequence-based PCRs. Results were evaluated and methods compared using multivariate statistical analysis. Most isolates were classified as V. parahaemolyticus or Vibrio alginolyticus. Reliable differentiation between both species was achieved by rpoB sequencing and toxR detection. Among the fingerprinting methods, ERIC-PCR showed the highest discriminatory power, displaying three separated clusters. These clusters represent the species V. parahaemolyticus, V. alginolyticus and one group in between. The frequent detection of V. parahaemolyticus in the German Bight reveals the urgency for further monitoring. In this context, a polyphasic approach, such as defined in this study, is needed to differentiate populations of V. parahaemolyticus and V. alginolyticus.     

Detection and identification of Vibrio species using whole-cell protein pattern analysis

Outbreaks of foodborne diseases associated with Vibrio species such as V. parahaemolyticus, V. vulnificus, and V. cholerae frequently occur in countries having a dietary habit of raw seafood consumption. For rapid identification of different Vibrio species involved in foodborne diseases, whole-cell protein pattern analysis for 13 type strains of 12 Vibrio species was performed using SDS-PAGE analysis. Pathogenic Vibrio species such as V. parahaemolyticus, V. vulnificus, V. cholerae, V. alginolyticus, V. fluvialis, and V. mimicus were included in the 12 Vibrio species used in this study. Each of the 12 Vibrio species showed clearly specific band patterns of its own. Two different strains of V. parahaemolyticus showed two different SDS-PAGE wholecell protein patterns, giving the possibility of categorizing isolated strains in the same V. parahaemolyticus species into two subgroups. The 36 Vibrio isolates collected from sushi restaurants in Busan were all identified as V. parahaemolyticus by comparing their protein patterns with those of Vibrio type strains. The identified isolates were categorized into two different subgroups of V. parahaemolyticus. The whole-cell protein pattern analysis by SDS-PAGE can be used as a specific, rapid, and simple identification method for Vibrio spp. involved in foodborne diseases at the subspecies level.     

基于分子马达生物传感器技术的副溶血性弧菌分子分型方法的初步研究

[目的]建立基于分子马达技术的简便快速的分子分型方法,对携带和非携带毒力基因的副溶血性弧菌进行快速分类.[方法]以F0F1-ATPase为核心构建分子马达,以副溶血性弧菌毒力基因tdh、trh和种特异性基因tlh、toxR为靶基因设计4个探针.通过生物素-亲和素系统将探针与分子马达连接构建F0F1-ATPase分子马达生物传感器,对10株副溶血性弧菌分离株进行分类,并与PCR-电泳-凝胶成像结果进行比较;同时对生物传感器的检测灵敏度和特异性进行研究.[结果]10株试验菌株中10株tdh阳性,0株trh阳性,而10株菌都携带tlh和toxR,与PCR-电泳-凝胶成像结果一致;分子马达生物传感器的最低检测限为1 pg/反应体系,且能够对副溶血性弧菌特异性识别,PCR-电泳-凝胶成像方法的最低检测限为10 pg/PCR反应体系.[结论]建立了基于分子马达的分子分型方法,能够对副溶血性弧菌的致病性进行快速诊断,检测灵敏度比PCR-电泳-凝胶成像方法高了10倍,而且特异性非常高.该方法简便、快速、省时、省力,适用于地方疾控部门和口岸检疫部门的基层实验室开展副溶血性弧菌监测和流行病学溯源工作.     

Molecular ecology of toxigenic Vibrio cholerae

Toxigenic Vibrio cholerae is the etiological agent of cholera, an acute dehydrating diarrhea that occurs in epidemic form in many developing countries. Although V. cholerae is a human pathogen, aquatic ecosystems are major habitats of Vibrio species, which includes both pathogenic and nonpathogenic strains that vary in their virulence gene content. V. cholerae belonging to the 01 and 0139 serogroups is commonly known to carry a set of virulence genes necessary for pathogenesis in humans. Recent studies have indicated that virulence genes or their homologues are also dispersed among environmental strains of V. cholerae belonging to diverse serogroups, which appear to constitute an environmental reservoir of virulence genes. Although the definitive roles of the virulence-associated factors in the environment, and the environmental selection pressures for V. cholerae-carrying virulence genes or their homologues is not clear, the potential for origination of new epidemic strains from environmental progenitors seems real. It is likely that the aquatic environment harbors different virulence-associated genes scattered among environmental vibrios, which possess a lower virulence potential than the epidemic strains. The ecosystem comprising the aquatic environment, V. cholerae, genetic elements mediating gene transfer, and the mammalian host appears to support the clustering of critical virulence genes in a proper combination leading to the origination of new V. cholerae strains with epidemic potential.     

Sensitivity of Vibrio and Aeromonas to antibiotics]

The antibiotic sensitivity of 696 cultures belonging to the family Vibrionaceae (V. cholerae O1, V. cholerae non-O1, V. albensis, V. parahaemolyticus, V. alginolyticus and Aeromonas spp.) was studied and general regularities of the antibiotic sensitivity were shown: a high sensitivity to broad-spectrum antibiotics (tetracycline and chloramphenicol) and a low sensitivity to ++beta lactams (carbenicillin and ampicillin). The comparative examinations revealed similarity in the antibioticograms of V. cholerae O1 (el Tor++), V. cholerae non-O1 and V. albensis, especially the latter two groups, as well as the tested halophilic Vibrio cultures by the range of the MICs, Mo, Me and the nature of the antibiotic resistance. Cultures of V. cholerae and luminescent Vibrio tended to preserve a high sensitivity. High resistance levels were noted in the halophilic Vibrio and Aeromonas cultures. No significant differences in the sensitivity of the strains of various origin (from man and environmental objects) were detected. However, several more resistant strains were isolated from the environmental objects.     

The polar flagellar motor of Vibrio cholerae is driven by an Na+ motive force

Vibrio cholerae is a highly motile bacterium which possesses a single polar flagellum as a locomotion organelle. Motility is thought to be an important factor for the virulence of V. cholerae. The genome sequencing project of this organism is in progress, and the genes that are highly homologous to the essential genes of the Na+-driven polar flagellar motor of Vibrio alginolyticus were found in the genome database of V. cholerae. The energy source of its flagellar motor was investigated. We examined the Na+ dependence and the sensitivity to the Na+ motor-specific inhibitor of the motility of the V. cholerae strains and present the evidence that the polar flagellar motor of V. cholerae is driven by an Na+ motive force.     

Development of a multiplex real-time PCR assay with an internal amplification control for the detection of total and pathogenic Vibrio parahaemolyticus bacteria in oysters

Vibrio parahaemolyticus is an estuarine bacterium that is the leading cause of shellfish-associated cases of bacterial gastroenteritis in the United States. Our laboratory developed a real-time multiplex PCR assay for the simultaneous detection of the thermolabile hemolysin (tlh), thermostable direct hemolysin (tdh), and thermostable-related hemolysin (trh) genes of V. parahaemolyticus. The tlh gene is a species-specific marker, while the tdh and trh genes are pathogenicity markers. An internal amplification control (IAC) was incorporated to ensure PCR integrity and eliminate false-negative reporting. The assay was tested for specificity against >150 strains representing eight bacterial species. Only V. parahaemolyticus strains possessing the appropriate target genes generated a fluorescent signal, except for a late tdh signal generated by three strains of V. hollisae. The multiplex assay detected <10 CFU/reaction of pathogenic V. parahaemolyticus in the presence of >10(4) CFU/reaction of total V. parahaemolyticus bacteria. The real-time PCR assay was utilized with a most-probable-number format, and its results were compared to standard V. parahaemolyticus isolation methodology during an environmental survey of Alaskan oysters. The IAC was occasionally inhibited by the oyster matrix, and this usually corresponded to negative results for V. parahaemolyticus targets. V. parahaemolyticus tlh, tdh, and trh were detected in 44, 44, and 52% of the oyster samples, respectively. V. parahaemolyticus was isolated from 33% of the samples, and tdh(+) and trh(+) strains were isolated from 19 and 26%, respectively. These results demonstrate the utility of the real-time PCR assay in environmental surveys and its possible application to outbreak investigations for the detection of total and pathogenic V. parahaemolyticus.     

Evaluation of alkaline phosphatase- and digoxigenin-labelled probes for detection of the thermolabile hemolysin (tlh) gene of Vibrio parahaemolyticus

The biochemical identification and enumeration of Vibrio parahaemolyticus as described in the FDA Bacteriological Analytical Manual is expensive and labour-intensive. To reduce the time and effort necessary to verify the identity of V. parahaemolyticus, the use of a thermolabile haemolysin (tlh) gene probe is proposed. An alkaline phosphatase (AP)-labelled probe was evaluated for specificity against 26 strains of V. parahaemolyticus, 88 strains of other Vibrio species and 10 strains of non-vibrio species. Of the 124 isolates tested, the probe hybridized only with the 26 strains of V. parahaemolyticus, indicating species specificity. Two hundred and six suspect V. parahaemolyticus isolates from oysters were tested by this probe and API-20E diagnostic strips; there was 97% agreement between results. A digoxigenin (DIG)-labelled probe for detection of the tlh gene fragment was prepared by PCR and compared with the AP-labelled probe. When tested on 584 suspect V. parahaemolyticus isolates, results obtained with the AP- and DIG-labelled probes were in 98% agreement. These results suggest that the probes are equivalent for detection of the V. parahaemolyticus tlh gene.     

溶藻弧菌HY9901 AcrA基因克隆与序列分析

Touchdown PCR扩增溶藻弧菌HY9901 AcrA基因部分序列,得一460bp片段,再以反向PCR和巢式PCR联合扩增其侧翼序列,拼接得一由1101 nt组成,共编码366 aa的完整基因.该基因演绎的氨基酸序列与几种弧菌的同源性都比较高,与创伤弧菌YJ016、副溶血弧菌RIMD 2210633、灿烂弧菌12B01、霍乱弧菌O1 N16961同源性分别为76%、73%、71%和70%.     

Occurrence and potential pathogenesis of Vibrio cholerae, Vibrio parahaemolyticus and Vibrio vulnificus on the South Coast of Sweden

During the summer of 2006, several wound infections - of which three were fatal - caused by Vibrio cholerae were reported from patients who had been exposed to water from the Baltic Sea. Before these reports, we initiated a sampling project investigating the occurrence of potential human pathogenic V. cholerae, Vibrio vulnificus and Vibrio parahaemolyticus in The Sound between Sweden and Denmark. The Blue mussel (Mytilus edulis) was used as an indicator to follow the occurrence of vibrios over time. Molecular analyses showed high frequencies of the most potent human pathogenic Vibrio spp.; 53% of mussel samples were positive for V. cholerae (although none were positive for the cholera toxin gene), 63% for V. vulnificus and 79% for V. parahaemolyticus (of which 47% were tdh(+) and/or trh(+)). Viable vibrios were also isolated from the mussel meat and screened for virulence by PCR. The mortality of eukaryotic cells when exposed to bacteria was tested in vivo, with results showing that the Vibrio strains, independent of species and origin, were harmful to the cells. Despite severe infections and several deaths, no report on potential human pathogenic vibrios in this area had been published before this study.     

Sequence Analyses of Type IV Pili from Vibrio cholerae, Vibrio parahaemolyticus, and Vibrio vulnificus

Bacterial surface structures called pili have been studied extensively for their role as possible colonization factors. Most sequenced Vibrio genomes predict a variety of pili genes in these organisms, including several types of type IV pili. In particular, the mannose-sensitive hemagglutinin (MSHA) and the PilA pili, also known as the chitin-regulated pilus (ChiRP), are type IVa pili commonly found in Vibrio genomes and have been shown to play a role in the colonization of Vibrio species in the environment and/or host tissue. Here, we report sequence comparisons of two type IVa pilin subunit genes, mshA and pilA, and their corresponding amino acid sequences, for several strains from the three main human pathogenic Vibrio species, V. cholerae, V. parahaemolyticus, and V. vulnificus. We identified specific groupings of these two genes in V. cholerae, whereas V. parahaemolyticus and V. vulnificus strains had no apparent allelic clusters, and these genes were strikingly divergent. These results were compared with other genes from the MSHA and PilA operons as well as another Vibrio pili from the type IVb group, the toxin co-regulated pilus (TCP) from V. cholerae. Our data suggest that a selective pressure exists to cause these strains to vary their MSHA and PilA pilin subunits. Interestingly, V. cholerae strains possessing TCP have the same allele for both mshA and pilA. In contrast, V. cholerae isolates without TCP have polymorphisms in their mshA and pilA sequences similar to what was observed for both V. parahaemolyticus and V. vulnificus. This data suggests a possible linkage between host interactions and maintaining a highly conserved type IV pili sequence in V. cholerae. Although the mechanism underlying this intriguing diversity has yet to be elucidated, our analyses are an important first step towards gaining insights into the various aspects of Vibrio ecology.     

溶藻弧菌群体基因组学研究

溶藻弧菌(Vibrio alginolyticus)是一种能够对人类以及鱼、虾、贝类等水产品致病的弧菌,给人类健康带来威胁,也给水产养殖业造成巨大的经济损失.目前该物种基于全基因组的遗传多样性和重要遗传元件研究报道较少.本研究对采集自全国4个省份的68株溶藻弧菌进行高通量测序,获得全基因组序列,并结合113株公开发表的...