Functional and Structural Characterization of Vibrio cholerae Extracellular Serine Protease B,VesB

The chymotrypsin subfamily A of serine proteases consists primarily of eukaryotic proteases, including only a few proteases of bacterial origin. VesB, a newly identified serine protease that is secreted by the type II secretion system in Vibrio cholerae, belongs to this subfamily. VesB is likely produced as a zymogen because sequence alignment with trypsinogen identified a putative cleavage site for activation and a catalytic triad, His-Asp-Ser. Using synthetic peptides, VesB efficiently cleaved a trypsin substrate, but not chymotrypsin and elastase substrates. The reversible serine protease inhibitor, benzamidine, inhibited VesB and served as an immobilized ligand for VesB affinity purification, further indicating its relationship with trypsin-like enzymes. Consistent with this family of serine proteases, N-terminal sequencing implied that the propeptide is removed in the secreted form of VesB. Separate mutagenesis of the activation site and catalytic serine rendered VesB inactive, confirming the importance of these features for activity, but not for secretion. Similar to trypsin but, in contrast to thrombin and other coagulation factors, Na⁺ did not stimulate the activity of VesB, despite containing the Tyr²⁵⁰ signature. The crystal structure of catalytically inactive pro-VesB revealed that the protease domain is structurally similar to trypsinogen. The C-terminal domain of VesB was found to adopt an immunoglobulin (Ig)-fold that is structurally homologous to Ig-folds of other extracellular Vibrio proteins. Possible roles of the Ig-fold domain in stability, substrate specificity, cell surface association, and type II secretion of VesB, the first bacterial multidomain trypsin-like protease with known structure, are discussed.     

Structural and Functional Characterization of IS1358 from Vibrio cholerae

The new epidemic serovar O139 of Vibrio cholerae has emerged from the pandemic serovar O1 biotype El Tor through the replacement of a 22-kbp DNA region by a 40-kbp O139-specific DNA fragment. This O139-specific DNA fragment contains an insertion sequence that was described previously (U. H. Stroeher, K. E. Jedani, B. K. Dredge, R. Morona, M. H. Brown, L. E. Karageorgos, J. M. Albert, and P. A. Manning, Proc. Natl. Acad. Sci. USA 92:10374–10378, 1995) and designated IS1358_O139. We studied the distribution of the IS1358 element in strains from various serovars by Southern analysis. Its presence was detected in strains from serovars O1, O2, O22, O139, and O155 but not in strains from serovars O15, O39, and O141. Furthermore, IS1358 was present in multiple copies in strains from serovars O2, O22, and O155. We cloned and sequenced four copies of IS1358 from V. cholerae O22 and one copy from V. cholerae O155. A comparison of their nucleotide sequences with those of O1 and O139 showed that they were almost identical. We constructed a transposon consisting of a kanamycin resistance gene flanked by two directly oriented copies of IS1358 to study the functionality of this element. Transposition of this element from a nonmobilizable plasmid onto the conjugative plasmid pOX38-Gen was detected in an Escherichia coli recA donor at a frequency of 1.2 × 10⁻⁸. Sequence analysis revealed that IS1358 duplicates 10 bp at its insertion site.     

霍乱弧菌O139多糖抗原的提取方法及优化

目的:研究霍乱弧菌O139多糖抗原的提取方法,以获得高纯度的多糖抗原。方法:采用热酚水法提取霍乱弧菌O139的脂多糖(LPS),并增加了DNaseⅠ、RNase消化步骤,以去除DNA及RNA的污染;进一步采用酸水解法获得脱毒的O特异性多糖(O-SP)。结果:经生化方法检测,证实提纯的LPS和O-SP纯度较高,能满足进行霍乱免疫研究的要求。结论:该方法简便可行,值得推广。     

Characterization of a clinical Vibrio cholerae O139 isolate from Mexico

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

A serogroup of non-O1 Vibrio cholerae possessing the Inaba antigen of Vibrio cholerae O1

A serogroup of non-O1 Vibrio cholerae, tentatively named Hakata, possessing the C (Inaba) factor but not the B (Ogawa) and A factors of V. cholerae O1 is described. Strains of this serogroup were isolated from river and estuarine waters and from frozen shrimps.     

A serogroup of non-O1 Vibrio cholerae possessing the Inaba antigen of Vibrio cholerae O1

A serogroup of non-O1 Vibrio cholerae , tentatively named Hakata, possessing the C (Inaba) factor but not the B (Ogawa) and A factors of V. cholerae O1 is described. Strains of this serogroup were isolated from river and estuarine waters and from frozen shrimps.     

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

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

Characterization of enteropathogenic Vibrio cholerae non O1/O139 isolated in Uzbekistan

The results of the serotyping of 244 V. cholerae non O1/O139 cultures isolated from patients in Uzbekistan in 2000 and 2001 are presented. All isolates were studied by the method of molecular probing and in the polymerase chain reaction for the presence of virulence genes and for sensitivity to phages ctx+, ctx- and hemolytic activity. The use of monoreceptor O-sera O2-O83 made it possible to determine vibrios of 32 serogroups with the dominating role in the etiology of acute enteric diseases belonging to serogroups O18, O62, O82, O37. Genes ctx AB were detected in none of the isolates, 5 of them contained gene tcp A. A group of cultures, sensitive to phage ctx+ and belonging mainly to enteropathogenic serogroups, was detected.     

Characterization of Vibrio cholerae Isolated from Oysters

Of 790 samples of oyster shellstock freshly harvested during a 12-month survey, 111 (most of which were harvested from June through August) contained Vibrio cholerae non-O1 (611 strains), and seven contained O1 Inaba (11 strains) organisms. None of the V. cholerae strains isolated were enterotoxigenic by immunological and biological tests.     

Viability of the nonculturable Vibrio cholerae O1 and O139

Vibrio cholerae is capable of transforming into a viable but nonculturable (VBNC) state, and, in doing so, undergoes alteration in cell morphology. In the study reported here, Vibrio cholerae O1 and O139 cells were maintained in laboratory microcosms prepared with 1% Instant Ocean and incubated at 4 degrees C, i.e., conditions which induce the VBNC state. Cells were fixed at different stages during entry into the VBNC state and, when no growth was detectable on solid or in liquid media, the ultrastructure of these cells was examined, using both transmission and scanning electron microscopy. As shown in earlier studies, the cells became smaller in size and changed from rod to ovoid or coccoid morphology, with the central region of the cells becoming compressed and surrounded by denser cytoplasm. Because the coccoid morphology, indicative of the VBNC state is common for Vibrio cholerae in the natural environment, as well as in starved cells (Baker et al., 1983; Hood et al., 1986) viability of the coccoid, viable but nonculturable cell was investigated. The percentage of coccoid (VBNC) cells showing metabolic activity and retention of membrane integrity was monitored using direct fluorescence staining (LIVE/DEAD BacLight Bacterial Viability kit), with 75 to 90% of the viable but nonculturable coccoid cells found to be metabolically active by this test. Furthermore, the proportion of actively respiring cells, using the redox dye, 5-cyano-2, 3-ditolyl tetrazolium chloride (CTC), relative to total cells, the latter determined by DAPI staining, ranged from 10 to 50%. VBNC coccoid cells retained the antigenic determinants of Vibrio cholerae O1 and O139, respectively, evidenced by positive reaction with monoclonal fluorescent antibody. Viability was further established by susceptibility of the VBNC cells to chlorine, copper sulfate, zinc sulfate, and formaldehyde. Since retention of cell membrane integrity is a determining characteristic of viable cells, DNA was extracted from VBNC cells in microcosms maintained for two months and for one year. Conservation of cholera toxin and toxin-associated genes, ctxA, toxR, tcpA, and zot in chromosomal DNA of VBNC cells was demonstrated using PCR and employing specific primers. It is concluded that not only do VBNC V cholerae O1 and O139 retain viability up to one year, but genes associated with pathogenicity are retained, along with chromosomal integrity.     

Distribution of Vibrio cholerae O1 antigen biosynthesis genes among O139 and other non-O1 serogroups of Vibrio cholerae

The organization and distribution of the genes responsible for O antigen biosynthesis in various serogroups of Vibrio cholerae were investigated using several DNA probes derived from various regions of the genes responsible for O1 antigen biosynthesis. Based on the reactivity pattern of the probes against the various serogroups, the cluster of genes responsible for the O1 antigen biosynthesis could be broadly divided into six groups, designated as class 1-6. The class 3 cluster of genes corresponding to gmd to wbeO, wbeT and a part of wbeU was specific for only the O1 serogroup. The other cluster of genes (class 1, 2, 4-6) reacted with other serogroups of V. cholerae. These data indicate that serotype conversion in V. cholerae does not depend on a simple mutational event but may involve horizontal gene transfer not only between V. cholerae strains but also between V. cholerae and species other than V. cholerae.     

Characterization of an Enterotoxin Produced by Vibrio cholerae O139

A cholera-like enterotoxin was purified from Vibrio cholerae O139 strain AI-1841 isolated from a diarrheal patient in Bangladesh. Its characteristics were compared with that of cholera toxins (CTs) of classical strain 569B and El Tor strain KT25. Al-1841 produced as much toxin as O1 strains. The toxins were indistinguishable in terms of their migration profiles in conventional polyacrylamide gel disc electrophoresis, sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectrofocusing as well as their affinity for hydroxyapatite. The skin permeability factor activity and the fluid accumulation induced in rabbit ileal loops of the toxin of AI-1841 were identical to those of the CTs. Three toxins equally reacted against anti-569B CT antiserum in Western blotting, and their B subunits formed a precipitin line against any anti-B subunit antiserum by double gel immunodiffusion. Anti-569B CTB antibody neutralized the three toxins in their PF activities and enterotoxicities. The amino acid sequence of 1841 toxin B subunit was identical with that of KT25 CTB, corresponding to the DNA sequence of ctxB from El Tor strains of the seventh pandemic. We concluded 1841 toxin was identical to CT of the seventh pandemic El Tor vibrios.     

Structural studies of the Vibrio cholerae O:3 O-antigen polysaccharide.

The structure of the Vibrio cholerae O:3 O-antigen polysaccharide has been investigated, mainly by n.m.r. spectroscopy, mass spectrometry, sugar and methylation analysis, and specific degradations, and is proposed to involve the following tetrasaccharide repeating-unit. [formula: see text]. In this structure, D-D-Hep is D-glycero-D-manno-heptose, Asc is 3,6-dideoxy-L-arabino-hexose (ascarylose), and Sug is 2,4-diamino-2,4,6-trideoxy-D-glucose (bacillosamine) in which N-2 is acetylated and N-4 is acylated with a 3,5-dihydroxyhexanoic acid. That the 2,4-diamino-2,4,6-trideoxy-D-glucose residue is linked through O-3 and not through one of the hydroxyl groups in the 3,5-dihydroxyhexanoyl group is indicated but not definitely proved. The configuration of the latter group has not been determined. The f.a.b.-mass spectrum of the methylated O-antigen indicates that the structure given above also represents the biological repeating-unit.     

Evaluation in Mice of a Conjugate Vaccine for Cholera Made from Vibrio cholerae O1 (Ogawa) O-Specific Polysaccharide

Background

Protective immunity against cholera is serogroup specific. Serogroup specificity in Vibrio cholerae is determined by the O-specific polysaccharide (OSP) of lipopolysaccharide (LPS). Generally, polysaccharides are poorly immunogenic, especially in young children.

Methodology

Here we report the evaluation in mice of a conjugate vaccine for cholera (OSP:TThc) made from V. cholerae O1 Ogawa O-Specific Polysaccharide–core (OSP) and recombinant tetanus toxoid heavy chain fragment (TThc). We immunized mice intramuscularly on days 0, 21, and 42 with OSP:TThc or OSP only, with or without dmLT, a non-toxigenic immunoadjuvant derived from heat labile toxin of Escherichia coli.

Principal Findings

We detected significant serum IgG antibody responses targeting OSP following a single immunization in mice receiving OSP:TThc with or without adjuvant. Anti-LPS IgG responses were detected following a second immunization in these cohorts. No anti-OSP or anti-LPS IgG responses were detected at any time in animals receiving un-conjugated OSP with or without immunoadjuvant, and in animals receiving immunoadjuvant alone. Responses were highest following immunization with adjuvant. Serum anti-OSP IgM responses were detected in mice receiving OSP:TThc with or without immunoadjuvant, and in mice receiving unconjugated OSP. Serum anti-LPS IgM and vibriocidal responses were detected in all vaccine cohorts except in mice receiving immunoadjuvant alone. No significant IgA anti-OSP or anti-LPS responses developed in any group. Administration of OSP:TThc and adjuvant also induced memory B cell responses targeting OSP and resulted in 95% protective efficacy in a mouse lethality cholera challenge model.

Conclusion

We describe a protectively immunogenic cholera conjugate in mice. Development of a cholera conjugate vaccine could assist in inducing long-term protective immunity, especially in young children who respond poorly to polysaccharide antigens.     

Bactericidal properties of the Vibrio cholerae non O1 bacteriolysin

The influence of the preparation of hemocytolysin, obtained from V. cholerae non O1 (strain P-11702), on the growth of V. cholerae cells was studied. The study revealed that hemocytolysin is capable of inducing partial or complete bacterial lysis on the place of its application, depending on the protein load of the substance and the inoculation dose of microbes. Two electrophoretic fractions with molecular weights of 14 and 14.5 kD induced the cytolysis of sheep, rabbit, guinea-pig red blood cells and showed a bactericidal effect. The different sensitivity of Vct+ and Vct- strains of V. cholerae to different doses of hemocytolysin was studied.     

Development of hyperfimbriated strains of Vibrio cholerae O1

The Vibrio cholerae O1 and O139 fimbrillin genes (fimA or mshA) were amplified by polymerase chain reaction and cloned into an Escherichia coli pCR vector. These clones were sequenced. The fimA sequences were found to be identical between V cholerae O1 and O139. One of the plasmids was digested with EcoR I and inserted into the EcoR I site of pGEX-3X. The plasmid pVPP thus obtained was transferred into strains of wild-type V cholerae O1 Bgd17 (classical in biotype) and its fimbriated strain by electroporation. The recombinant plasmid pVPP overexpressed mature fimbriae following induction of the tac promoter with isopropyl-beta-D-thiogalactopyranoside. The cloned gene product was purified to homogeneity by sucrose-linear gradient centrifugation (7.8 mg of fimbriae/L-culture). All the properties of the recombinant fimbriae (e.g., subunit structure, hydrophobicity, hemagglutinating activity sensitive to D-mannose and D-glucose and immunogenicity) were identical to those of the wild-type fimbriae. This overexpression system will be extremely useful for rapid, inexpensive preparation of large amounts of fimbriae for vaccine design and development.     

The effect on enterotoxicity of protease purified from Vibrio cholerae O1

Abstract The effect on enterotoxicity of protease purified from Vibrio cholerae O1 was investigated by the inoculation of live vibrio cells into the protease-treated loops of the ileal loop model. Fluid accumulation ratios in the protease-treated loops were elevated in a dose-dependent manner by challenge with live vibrio cells byt not that with toxin. An enhancement effect of protease on enterotoxicity was observed in both serotypes of V. cholerae O1 and V. cholerae non-O1. It is suggested, therefore, that the enterotoxicity was enhanced by treatment with protease when live vibrio cells were inoculated into the ileal loops of rabbits.     

Characterization of Vibrio cholerae O1 cultures isolated from environmental objects on the territory of the Russian Federation in 2002

The biological properties of 46 V. cholerae O1 eltor cultures isolated in 2002 from water environment on the territory of Russia are presented. All isolated vibrios proved to be typical in their cultural, morphological, biochemical and serological properties. The atypical character of some of them was mainly linked with their phage resistance. The appearance of vibrios, sensitive to bacteriophage ctx+ and containing gene tcp in the absence gene ctx, was noted. Multilocus VNTR typing made it possible to group the cultures under study in 34 genotypes. The presence of toxin coregulated pili was found to be directly related to locus VcB. The necessity of the systematic study of the pheno- and genotypes of the isolated cultures with the aim of epidemiological surveillance of this infection is emphasized.