Genetic relationships among clinical and environmental isolates ofVibrio cholerae from Australia

DNA-DNA homology among twenty-nine isolates having the phenotypic properties ofVibrio cholerae was studied using the S1 endonuclease method. Ten strains ofV. cholerae O1 isolated from patients and from the environment in Australia showed greater than 88% homology with the neotype strain ofV. cholerae NCTC 8021. Strains of the non-O1 serotype isolated from a variety of clinical and environmental sources also showed a high level of relatedness, including four luminescent strains and a reference strain of the biotypealbensis. A group of sucrose-negative strains showed a low level of homology (40 to 43%) withV. cholerae, but 75% and 82% homology within the group.     

Phenotypic characterization of clinical and environmental isolates ofVibrio cholerae from Australia

One hundred fifty-seven isolates possessing the biochemical traits associated withVibrio cholerae were submitted to an extensive phenotypic characterization. A numerical analysis of the results suggested that isolates presently assigned to the biotypescholerae, eltor, andalbensis ofV. cholerae do not possess consistent phenotypic differences supporting their separation into distinct biotypes. The results further indicated that clinical and environmental isolates of non-O1 serotypes ofV. cholerae are phenotypically indistinguishable from strains ofV. cholerae serotype O1. This study also confirmed the persistent presence ofV. cholerae in the Australian environment.     

江苏水产养殖区拟态弧菌种群结构及遗传多样性

【背景】拟态弧菌(Vibrio mimicus)是一种常见的革兰氏阴性病原菌,广泛分布于水环境和水生动物体内,可导致多种水产动物和人类感染。多位点序列分型(multilocus sequence typing, MLST)已被应用于多种病原菌的分子分型,其通过分析不同菌株之间的遗传关系,监测细菌传播的时间和地理分布,确定感染和传播途径,但目前未见有关拟态弧菌MLST的报道。【目的】开发一种基于MLST的拟态弧菌分型方法,并用于江苏水产养殖区拟态弧菌的种群结构和遗传进化分析,为拟态弧菌感染所引起的疾病防治提供理论基础。【方法】选择拟态弧菌的7个管家基因dnaE、gyrB、mdh、recA、rpoD、pntA和pyrH作为靶点,对江苏水产养殖区分离的155株拟态弧菌进行PCR扩增和测序。将测序结果分配等位基因,制作等位基因谱,分配不同的序列类型(sequence type, ST),利用软件goeBURST-1.2.1和MEGA-X对分配的ST型进行克隆复合体和遗传进化树聚类分析;此外,利用Kirby-Bauer圆盘扩散法测试155株拟态弧菌的药敏特性。【结果】155株拟态弧菌被分为56个STs,其中ST11占比最高;在双位点变异(double locus variants, DLV)水平分析发现56个STs分为3个克隆复合体和3个单体;系统发育树显示,56个STs被分为3个集群(cluster I、cluster II、cluster III)。药敏结果显示,155株拟态弧菌对红霉素类抗生素的耐药性最高(88.39%, 137/155),对氯霉素类抗生素敏感性最高(91.61%, 142/155)。【结论】本研究建立的MLST方法具有良好的分辨率,可作为拟态弧菌系统发育和未来流行病学调查有用的分子分型工具。根据抗生素耐药谱结果,提示在养殖过程中可选用氟苯尼考等国家批准使用的专用抗菌药对拟态弧菌进行防治。     

Vibrio mimicus are the reservoirs of the heat-stable enterotoxin gene (nag-st) among species of the genus Vibrio

Using a 0.27 kb DNA probe specific for the heat-stable enterotoxin gene (nag-st) of Vibrio cholerae non-O1, 1109 strains representing 17 species of the genus Vibrio, isolated from clinical and environmental sources were examined. The nag-st gene was preponderantly associated with strains classified as V. mimicus; 16.8% of these strains hybridized. It was more frequent in the clinical isolates (22.6%) than in the environmental isolates (13.7%). The incidence of nag-st gene-positive strains of V. mimicus isolated from different countries was uniformly high and ranged between 8.7% (Bangladesh) and 57.1% (environmental strains from USA). The incidence of the nag-st gene was much lower among strains of V. cholerae non-O1 (3.6%). Probe-positive and-negative strains of V. mimicus and V. cholerae non-O1 were used to evaluate the performance of the conventional suckling mouse assay for detection of the NAG-ST enterotoxin. Of the 31 probe-positive strains, only five (16.1%) yielded a positive fluid accumulation ratio (FA ratio) when neat heated culture supernatant was used to perform the suckling mouse assay. All the 31 probe-positive strains gave a positive FA ratio when 20-fold concentrated and heated culture supernatants of the strains were used to perform the suckling mouse assay. The need to concentrate (by at least 20-fold) the culture supernatant of strains of V. mimicus and V. Cholerae non-O1 was identified as an important step to obtain consistent results when using the suckling mouse assay for detection of NAG-ST.P. Yuan, A. Ogawa and T. Takeda are with the Department of Infectious Disease Research, National Children's Medical Research Center, 3-35-31 Taishido, Setagaya-ku, Tokyo 154, Japan; P. Yuan is also with the National Institute for the Control of Pharmaceutical and Biological Products, Beijing, China. T. Ramamurthy and G.B. Nair are with the National Institute of Cholera and Enteric Diseases, Calcutta, India. T. Shimada is with the National Institute of Health, Tokyo 141, Japan. S. Shinoda is with the Faculty of Pharmaceutical Sciences, Okayama University, Japan.     

Vibrio ordalii sp. nov.: A causative agent of vibriosis in fish

Vibrio ordalii sp. nov. is the name proposed for the bacterium previously designated asV. anguillarum biotype 2. The change in the classification of this fish pathogen is based on differences between the classicalV. anguillarum andV. ordalii in cultural and biochemical characteristics, and in deoxyribonucleic acid (DNA) sequence relatedness. Phenotypically,V. ordalii was distinguishable fromV. anguillarum based on: negative Voges-Proskauer reaction; negative reaction with arginine in Moeller's medium; negative Simmons' and Christensen's citrate test; negative ONPG test; failure to hydrolyze starch; failure to show lipase activity; inability to grow at 37°C; and failure to ferment cellobiose, glycerol, sorbitol, and trehalose. Genotypically, strain ofV. ordalii formed a highly conserved DNA homology group which showed 83 to 100% within-group homology and only 58 to 69% relatedness toV. anguillarum. In contrast, theV. anguillarum strains tested showed greater than 70% withingroup homology and 53 to 67% relatedness toV. ordalii. NeitherV. ordalii norV. anguillarum were related toV. parahaemolyticus orV. alginolyticus. The proposed type strain (holotype) ofV. ordalii is ATCC 33509 (=DF₃K=Dom F₃ kid).     

Similarities of genome deoxyribonucleic acids ofPseudomonas strains isolated from meat

A total of 29Pseudomonas strains from meat and 14 reference strains of differentPseudomonas species were studied by DNA-DNA hybridization. Of the field strains, 15 were phenotypically similar toP. fragi; the others represented a new group described by Molin and Ternström [4], phenotypically related toP. fragi and the fluorescent pseudomonads; 12 strains of this phenotype formed one major DNA-relatedness group; the type strain ofP. fragi together with nine field strains formed another group. The remaining eight meat isolates could not be assigned to either of the two groups. The intergroup relatedness and the relatedness of both groups to the fluorescent pseudomonads was about 50%. Hybridization data indicate that the phenotype of Molin and Ternström deserves species rank and that this tentative species andP. fragi belong to the group of fluorescent pseudomonads.     

Two strains ofVibrio cholerae non-O1 possessing somatic (O) antigen factors in common withV. cholerae serogroup O139 synonym “Bengal”

Two strains (O22 reference strain, 169–68, and strain 490–93 isolated from a patient with diarrhea in Thailand) ofVibrio cholerae non-O1 possessing somatic (O) antigen factors in common withV. cholerae O139 synonym Bengal are described. The O antigens of these two strains were closely related to that ofV. cholerae O139 in an a,b-a,c type of relationship, but were not completely identical with serogroup O139. Therefore, both these strains are not classified into the O139 serogroup ofV. cholerae, because they have their own major antigens. As the strain 490–93 could not be placed into any of the 154 established O serogroups ofV. cholerae, this strain was assigned to a new serogroup, O155. For practical use, the diagnostic antiserum prepared against the O139 reference strain (MO45, ATCC 51394) ofV. cholerae must be absorbed with reference strains 169–68 and 490–93 representing serogroups O22 and O155 ofV. cholerae to remove cross-reacting agglutinins of the O22 and O155 strains, respectively.     

Phenotypic characterization ofBeneckea anguillara biotypes I and II

Twenty-five strains of marine bacteria pathogenic for fish, which had been shown by means of in vitro DNA/DNA hybridization to comprise two biotypes of the speciesBeneckea anguillara, were subjected to a phenotypic characterization. A numerical analysis of the data segregated the strains into two phenotypically distinct clusters coincident with the biotypes established by DNA homology studies. The two biotypes were distinguishable fromPhotobacterium and other species ofBeneckea by a number of unrelated phenotypic properties.     

Genetic organization and functional analysis of the otn DNA essential for cell-wall polysaccharide synthesis in Vibrio cholerae O139

In 1992 a new Vibrio cholerae strain, designated V. cholerae O139 Bengal, emerged which has been responsible for large outbreaks of cholera in India and Bangladesh. Previously, we have shown that this strain arose from a V. cholerae O1 strain by the acquisition of novel DNA. Sequence analysis revealed that the novel DNA is flanked by two genes, rfaD and rfbQRS, which are also found in O1 strains. The mosaic structure of rfaD_vco139 indicated that it was one of the regions involved in recombination between donor and acceptor DNA. However, sequence divergence between the O1 and O139 rfbQRS genes indicated that the second recombination site between donor and O1-acceptor DNA is probably located downstream of rfbD_vco139. The DNA region between rfaD_vco139 and rfbQRS_vco139, designated otn, contained seven open reading frames (ORFs). Two ORFs, otnA and otnB, showed homology with genes involved in cell-wall polysaccharide synthesis. Mutations in otnA and otnB indicated that they are required for capsule synthesis but not lipopolysaccharide synthesis. The otn DNA is also found inV. cholerae O69 and O141 strains, and the organization of this DNA was essentially identical to that in the O139 strain. However, sequence divergence of the otnAB genes indicated that the O139 otn DNA region was not derived from the O69 or O141 strains. No antigenic relationship was found between the different V. cholerae serotypes carrying otn DNA, so the genes determining the antigenic specificity of the O antigen or capsule must be located outside the otn DNA. The O139 otn DNA contained a JUMPstart sequence, which is associated with polysaccharide-synthetic genes in several bacterial species. Furthermore, a repeat motif was observed in extragenic regions. A number of observations suggest that these sequences may facilitate gene flow between V. cholerae strains and the assembly of clusters of functionally related genes.     

Lack of genetic relatedness betweenYersinia philomiragia (the “philomiragia” bacterium) andYersinia species

Four strains ofYersinia philomiragia were studied biochemically and genetically. They showed a high degree of phenotypic similarity and formed a homogenous DNA relatedness group. We could not demonstrate any significant DNA relatedness between this group and otherYersinia species, other Enterobacteriaceae, orPasteurella multocida. Y. philomiragia is phenotypically quite different from other yersiniae and Enterobacteriaceae. These DNA and phenotypic data indicate thatY. philomiragia is not a member of the genusYersinia or a member of the family Enterobacteriaceae. It is suggested that, pending further study, this organism be referred to as the “Philomiragia” bacterium.     

Differentiation of Environmental and Clinical Isolates of Vibrio mimicus from Vibrio cholerae by Multilocus Enzyme Electrophoresis

In this study, we demonstrated that analyzed strains of Vibrio mimicus and Vibrio cholerae could be separated in two groups by using multilocus enzyme electrophoresis (MEE) data from 14 loci. We also showed that the combination of four enzymatic loci enables us to differentiate these two species. Our results showed that the ribosomal intergenic spacer regions PCR-mediated identification system failed, in some cases, to differentiate between V. mimicus and V. cholerae. On the other hand, MEE proved to be a powerful molecular tool for the discrimination of these two species even when atypical strains were analyzed.     

Some properties of arctic rhizobia

Forty-eight strains of Rhizobium isolated from the root nodules of three species of legumes indigenous to the high tundra (Astragalus alpinus, Oxytropis maydelliana andOxytropis arctobia) are phenotypically heterogenous with respect to intrinsic antibiotic resistance, expression of nitrogenase activityex planta and plasmid content. All of the strains possess a 250–300 kb plasmid and are homologous to each other on the genomic DNA level but have little DNA homology with selected reference strains of well characterized species of rhizobia. The arctic rhizobia have an optimum growth temperature of 23°C and can grow slowly at 5°C. The DNA from four of the isolates, which were selected for detailed investigation, have sequences homologous tonif andnod genes fromRhizobium trifolii.     

Deoxyribonucleic acid homologies among staphylococci: Coagulase-positive reference strains

DNA hybridization results confirm the proposed separation of coagulase-positive staphylococci into two distinct species. Strains ofStaphylococcus aureus representing the various biotypes and different phage typing groups of the human biotype gave high values of reassociation with DNA fromS. aureus reference strain RN 450, at both optimal and restrictive reassociation temperatures. Similar results were obtained between strains ofS. intermedius and its reference strain K 3. Interspecific reassociation between the two coagulase-positive species was low, and each reference strain showed low DNA sequence homology with 10 coagulase-negative species.S. staphylolyticus, strain PS 73, and putative pleiotropic mutants ofS. aureus were shown to be unrelated toS. aureus.     

Analysis of the Structural Gene Encoding a Hemolysin in Vibrio mimicus

An environmental isolate of V. mimicus, strain E-33, has been reported to produce and secrete a hemolysin of 63 kDa. The hemolysin is enterotoxic in test animals. The nucleotide sequence of the structural gene of the hemolysin was determined. We found a 2,232 bp open reading frame, which codes a peptide of 744 amino acids, with a calculated molecular weight of 83,903 Da. The sequence for the structural gene was closely related to the V. cholerae el tor hlyA gene, coding an exocellular hemolysin. The amino terminal amino-acid sequence of the 63 kDa hemolysin, purified from V. mimicus, was determined by the Edman degradation method and found to be NH₂-S-V-S-A-N-N-V-T-N-N-N-E-T. This sequence is identical from S-152 to T-164 predicted from the nucleotide sequence. So, it seems that the mature hemolysin in V. mimicus is processed upon deleting the first 151 amino acids, and the molecular mass is 65,972 Da. Analyzing the deduced amino-acid sequence, we also found a potential signal sequence of 24 amino acids at the amino terminal. Our results suggest that, like V. cholerae hemolysin, two-step processing also exists in V. mimicus hemolysin.     

RNA Colony Blot Hybridization Method for Enumeration of Culturable Vibrio cholerae and Vibrio mimicus Bacteria

A species-specific RNA colony blot hybridization protocol was developed for enumeration of culturable Vibrio cholerae and Vibrio mimicus bacteria in environmental water samples. Bacterial colonies on selective or nonselective plates were lysed by sodium dodecyl sulfate, and the lysates were immobilized on nylon membranes. A fluorescently labeled oligonucleotide probe targeting a phylogenetic signature sequence of 16S rRNA of V. cholerae and V. mimicus was hybridized to rRNA molecules immobilized on the nylon colony lift blots. The protocol produced strong positive signals for all colonies of the 15 diverse V. cholerae-V. mimicus strains tested, indicating 100% sensitivity of the probe for the targeted species. For visible colonies of 10 nontarget species, the specificity of the probe was calculated to be 90% because of a weak positive signal produced by Grimontia (Vibrio) hollisae, a marine bacterium. When both the sensitivity and specificity of the assay were evaluated using lake water samples amended with a bioluminescent V. cholerae strain, no false-negative or false-positive results were found, indicating 100% sensitivity and specificity for culturable bacterial populations in freshwater samples when G. hollisae was not present. When the protocol was applied to laboratory microcosms containing V. cholerae attached to live copepods, copepods were found to carry approximately 10,000 to 50,000 CFU of V. cholerae per copepod. The protocol was also used to analyze pond water samples collected in an area of cholera endemicity in Bangladesh over a 9-month period. Water samples collected from six ponds demonstrated a peak in abundance of total culturable V. cholerae bacteria 1 to 2 months prior to observed increases in pathogenic V. cholerae and in clinical cases recorded by the area health clinic. The method provides a highly specific and sensitive tool for monitoring the dynamics of V. cholerae in the environment. The RNA blot hybridization protocol can also be applied to detection of other gram-negative bacteria for taxon-specific enumeration.Vibrio cholerae is autochthonous to the aquatic environment, but some strains produce enterotoxins and are capable of causing epidemics of the human disease cholera. Strains of V. cholerae are classified by their O antigen, with over 210 serogroups recognized to date. Seven cholera pandemics have occurred since 1832: while microbiologic data on the earlier pandemics are not available, the last two are known to have been caused by strains within serogroup O1, with the major pathogenic factor being production of cholera toxin. The genes encoding cholera toxin and other pathogenic factors have been shown to reside in a mobile genetic element of phage origin, designated CTXΦ (20).Standard microbiologic methods for isolation of V. cholerae present in natural waters rely primarily on a method originally developed for clinical diagnosis, namely, enrichment in alkaline peptone water, followed by subculture on selective media and confirmation using selected biochemical and immunological tests (7). The alkaline nature of the enrichment broth allows differential multiplication of Vibrio species but renders this method inappropriate for enumeration. PCR methods and oligonucleotide hybridization have been used to detect and enumerate toxigenic V. cholerae bacteria (3, 11, 12, 14, 15, 21). These methods typically rely on amplification of or hybridization to pathogenic markers, such as O1/O139 wbe, tcpA, and ctxA DNA sequences.However, occasional localized outbreaks of cholera have been caused by non-O1, non-O139 V. cholerae, which may be toxigenic or nontoxigenic. Conversely, many environmental V. cholerae O1 strains isolated from areas of endemicity do not harbor ctx genes (9). It has also been shown that CTXΦ is capable of lysogenic conversion of strains that are CTXΦ negative (20). Additionally, the cholera toxin (CTX) prophage has also been detected in clinical strains of V. mimicus, and V. mimicus has been proposed as a natural reservoir for CTXΦ (2). Furthermore, ecological studies of V. cholerae are often hampered by the fact that toxigenic strains represent only a small percentage of the total V. cholerae population in the environment, especially in areas where cholera is not endemic. These facts underline the need for a method of detection of the total number of V. cholerae bacteria present in environmental samples.The many copies of 16S rRNA molecules in each V. cholerae cell offer appropriate targets for species-specific enumeration. In this study, the probe Vchomim1276, previously described by Heidelberg et al. (4-6), was employed in an RNA colony blot hybridization protocol. The specificity and sensitivity of the probe were tested using type strains and environmental and clinical isolates. The method was evaluated using laboratory microcosms to which cells of V. cholerae were added, and the protocol was used to enumerate V. cholerae bacteria in samples collected from ponds in a region of cholera endemicity in Bangladesh.     

wbeT sequence typing and IS1004 profiling of Vibrio cholerae isolates

Aims: To investigate the molecular basis for serotype variation in Vibrio cholerae O1 and the genetic relatedness amongst different serotypes isolated from 2004 to 2008 in Iran. Methods and Results: Despite the presence of all three serotypes of V. cholerae O1 (Ogawa, Inaba and Hikojima) in Iran in the last decade, the Inaba strains have been the dominated serotype. Sequence analysis of wbeT determined only a single substitution of G for A at position 295 in all Inaba strains resulting in a replacement of serine to proline. No difference was found in the copy numbers and profile of IS1004 between the classical and El Tor V. cholerae O1 strains, supporting the clonality amongst the isolates obtained over 5 years in Iran. In addition, Southern blots of HpaII‐digested chromosomal DNAs of our Ogawa and Inaba isolates showed the presence of an incomplete copy of IS1004 for all isolates. Conclusions: IS1004 profiling can be a reliable method for analysis of clonal dissemination of V. cholerae. The results indicated that specific point mutation at a particular position within the wbeT of V. cholerae O1 strains in Iran may occur which, in turn, may result in serotype switching. Significance and Impact of the Study: Understanding the molecular basis for serotype conversion of V. cholerae and their genetic relatedness could give insights for the incoming cholera epidemic prediction and control.     

Presence of genes for type III secretion system 2 in <Emphasis Type="Italic">Vibrio</Emphasis><Emphasis Type="Italic">mimicus</Emphasis> strains

Background  

Vibrios, which include more than 100 species, are ubiquitous in marine and estuarine environments, and several of them e.g. Vibrio cholerae, V. parahaemolyticus, V. vulnificus and V. mimicus, are pathogens for humans. Pathogenic V. parahaemolyticus strains possess two sets of genes for type III secretion system (T3SS), T3SS1 and T3SS2. The latter are critical for virulence of the organism and be classified into two distinct phylogroups, T3SS2α and T3SS2β, which are reportedly also found in pathogenic V. cholerae non-O1/non-O139 serogroup strains. However, whether T3SS2-related genes are present in other Vibrio species remains unclear.     

Pathogenicity of vibrio splendidus strains associated with turbot larvae, scophthalmus maximus

Turbot larvae were challenged with eight strains of Vibrio splendidus isolated from diseased larvae, plus a ninth strain pathogenic to scallop larvae (A515; Nicolas et al . 1996 ). Six strains caused heavy mortality but the scallop pathogen and the other two strains did not. All the strains shared a large number of phenotypic traits, and an attempt was made to relate virulence to genotype and phenotype. Five of the six pathogenic strains were very similar, as shown by RAPD fingerprinting and phenotypic characteristics. The relatedness of the other strains was intermediate between the main pathogenic group and V. splendidus ATCC 33125, but the DNA–DNA homology between the pathogenic group and the reference strain was still high (78% of reassociation rate). The non-pathogenic isolates may be a useful tool for determining the possible virulence factors, as all the isolates differed by few characteristics.