Characterization of a putative colonization factor (PCFO166) of enterotoxigenic Escherichia coli of serogroup O166

Enterotoxigenic Escherichia coli (ETEC) of serogroup O166 gave mannose-resistant haemagglutination (MRHA) with bovine and human erythrocytes. The strains did not react with antisera prepared against the known colonization factors CFA/I, CFA/II, CFA/III, CFA/IV and PCFO159:H4. Strain E7476 of serotype O166:H27, which produced heat-stable enterotoxin (ST), was examined initially. It produced fimbriae about 7 nm in diameter. On SDS-PAGE two possible fimbrial polypeptides of molecular mass 15.5 and 17.0 kDa were seen. When variants of strain E7476 were isolated, loss of ST and MRHA together was associated with loss of a 98 MDa plasmid, while loss of ST alone correlated with plasmid deletion. An absorbed anti-strain E7476 antiserum reacted specifically with the 15.5 and 17.0 kDa polypeptides in Western immunoblotting and bound to the intact fimbriae by immuno-electron microscopy. When this antiserum was used in an ELISA to examine other strains of serogroup O166, a positive reaction was obtained with all the ST- and MRHA-positive strains. One strain of serotype O71:H27 and two strains of serotype O98:H- also reacted with the absorbed anti-strain E7476 antiserum. The antiserum did not react with ETEC carrying known colonization factors. E. coli K12 and a number of E. coli of different serotypes carrying a plasmid coding for ST transferred from strain E7476, all gave MRHA and reacted with the absorbed anti-strain E7476 antiserum. The term putative colonization factor O166 (PCFO166) is proposed to describe the adhesive factor(s) on ETEC of serogroup O166 because of the similarity of properties with those of known colonization factors.     

Characterization of colonization factor antigen CFA/I from an enterotoxigenic Escherichia coli strain (0128:H12)

CFA/I antigen was isolated and purified from E. coli, mutant 279 B-1-14, serotype 0128:H12, and had the following biochemical and biological features: a) amino-acid content was similar to that of purified antigen prepared from strain H10407; b) latex particles sensitization with purified CFA/I antigen produced bovine and human erythrocytes group A/II hemagglutination in carbohydrates presence; c) purified anti-CFA/I specific antibodies agglutinated CFA/I-positive enterotoxigenic E. coli strains; d) 3H-leucine-labelled CFA/I antigen adhered to rabbits intestinal mucosa at significant values; e) intestinal mucosa pretreating with purified CFA/I antigen, followed by 3H-leucine labelled enterotoxigenic bacteria infection, had a least 3 local effects: 1) intestinal mucosa protection against parental enterotoxigenic bacteria; 2) inhibition of CFA/I-positive bacteria adherence to intestinal mucosa; 3) release of approximately 96% intraluminally inoculated bacteria.     

Construction and expression of immunogenic hybrid enterotoxigenic Escherichia coli CFA/I and CS2 colonization fimbriae for use in vaccines

Enterotoxigenic Escherichia coli (ETEC) are an important cause of diarrheal morbidity in developing countries, especially in children and also of traveler's diarrhea. Colonization factors (CFs) of ETEC, like CFA/I and CS2 which are genetically and structurally related, play a substantial role in pathogenicity, and since intestinal–mucosal immune responses against CFs appear to be protective, much effort has focused on the development of a CF-based ETEC vaccine. We have constructed hybrid operons in which the major CS2 subunit-encoding cotA gene was inserted into the CFA/I operon, either replacing (hybrid I) or being added to the major CFA/I subunit-encoding cfaB gene (hybrid II). Using specific monoclonal antibodies against the major subunits of CFA/I and CS2, high levels of surface expression of both fimbrial subunits were shown in E. coli carrying the hybrid II operon. Oral immunization of mice with formalin-killed bacteria expressing hybrid II fimbriae induced strong CFA/I- and CS2-specific serum IgG + IgM and fecal IgA antibody responses, which were higher than those achieved by similar immunization with the reference strains. Bacteria expressing hybrid fimbriae are potential candidate strains in an oral-killed CF-ETEC vaccine, and the approach represents an attractive and novel means of producing a broad-spectrum ETEC vaccine.     

Linear epitopes of colonization factor antigen I and peptide vaccine approach to enterotoxigenic Escherichia coli

Enterotoxigenic Escherichia coli (ETEC) cause diarrhea in infants and in travelers to developing countries. The bacteria utilize colonization factors (CF) for adherence to intestinal epithelia, then release toxins causing diarrhea. CF are strong immunogens as well as protective antigens. While 20 ETEC CF have been described in the literature, 11 CF are prominent enough to be considered for vaccine targeting. Of this group, six of the members fall into the CFA/I family of CF. Geysen pin (peptide) linear epitope analysis demonstrated that three regions containing linear epitopes exist in CFA/I, and that both B- and T-cell linear epitopes of CFA/I were concentrated at the N-terminus of the protein. We have determined N-terminal sequence of the CFA/I family members not previously sequenced. Comparison of the protein sequence of the six members of the family showed a strong homology up to residue 36. A peptide of 36 amino acids representing a consensus of the six sequences was synthesized and used to immunize animals. The antibody induced to the peptide was reactive to the peptide as well as cross-reactive to each member of the CFA/I family in Western blots. In addition, this antibody agglutinated three of the six members of the CFA/I family when added to whole cells expressing the native CF. We are currently evaluating different carriers and conjugation methods to maximize production of high titer, agglutinating antibody. It is hoped that this and related research will result in an effective and inexpensive cross-reactive and cross-protective ETEC vaccine. Received 04 October 1996/ Accepted in revised form 14 April 1997     

Purification and analysis of colonization factor antigen I, coli surface antigen 1, and coli surface antigen 3 fimbriae from enterotoxigenic Escherichia coli.

Enterotoxigenic Escherichia coli fimbriae are immunogenic and play a key role in intestinal colonization. Native colonization factor antigen I, coli surface antigen 1, and coli surface antigen 3 fimbriae were purified by a common method involving shearing, differential centrifugation, gel filtration, and density gradient ultracentrifugation. The compositions and N-terminal sequences were determined. Coli surface antigen 3 possesses two N-terminal isoforms, one of which matches the published DNA sequence, except for the previously proposed signal sequence cleavage point.     

Crystal structure of enterotoxigenic Escherichia coli colonization factor CS6 reveals a novel type of functional assembly

Coli surface antigen 6 (CS6) is a widely expressed enterotoxigenic Escherichia coli (ETEC) colonization factor that mediates bacterial attachment to the small intestinal epithelium. CS6 is a polymer of two protein subunits CssA and CssB, which are secreted and assembled on the cell surface via the CssC/CssD chaperone usher (CU) pathway. Here, we present an atomic resolution model for the structure of CS6 based on the results of X‐ray crystallographic, spectroscopic and biochemical studies, and suggest a mechanism for CS6‐mediated adhesion. We show that the CssA and CssB subunits are assembled alternately in linear fibres by the principle of donor strand complementation. This type of fibre assembly is novel for CU assembled adhesins. We also show that both subunits in the fibre bind to receptors on epithelial cells, and that CssB, but not CssA, specifically recognizes the extracellular matrix protein fibronectin. Taken together, structural and functional results suggest that CS6 is an adhesive organelle of a novel type, a hetero‐polyadhesin that is capable of polyvalent attachment to different receptors.     

Expression of cloned plasmid regions encoding colonization factor antigen I (CFA/I) in Escherichia coli

Molecular cloning from a plasmid encoding colonization factor antigen I (CFA/I) and heat-stable enterotoxin isolated two regions, 1 and 2, that are required for the production of CFA/I fimbriae. The level of CFA/I synthesis measured by ELISA was similar in an Escherichia coli K12 strain carrying regions 1 and 2 cloned separately on compatible plasmid vectors to that in the same strain containing the parental plasmid. The structural gene for the CFA/I fimbrial subunit was within region 1. This region directed production in E. coli minicells of at least six independent polypeptides, of which the fimbrial subunit and at least three others appeared to be synthesized as precursor molecules that underwent processing. Cloned DNA containing CFA/I region 2 specified three polypeptides in minicells. Attempts to reduce the size of the cloned region 1 resulted in a derivative plasmid that carried the CFA/I structural gene but did not complement a region-2 recombinant plasmid to restore production of CFA/I fimbriae.     

Catabolite repression of the colonization factor antigen I (CFA/I) operon ofEscherichia coli

Experiments were performed to study whether the synthesis of the fimbrial colonization factor antigen I (CFA/I) of enterotoxigenicEscherichia coli is affected by glucose. The CFA/I-producing strain H-10407 (O78:H11:CFA/I) was grown in CFA medium containing various concentrations of glucose. Addition of 1% glucose into the medium resulted in a pronounced decrease in CFA/I production by H-10407 as assessed by ELISA, hemagglutination, and electron microscopy. The repressive effect of glucose was reversed by the addition of 10 mM cAMP to the medium. Examination of the promoter sequence of thecfaA gene of the CFA/I operon revealed a consensus binding site for the catabolite activator protein-cAMP complex. With a reporter plasmid containing a fusion of thecfaA promoter, a portion of thecfaA gene, and thelacZ gene, it was shown that the activity of this promoter was influenced by glucose. In a wild-typeE. coli strain, addition of 0.5% glucose to the growth medium diminished the promoter activity more than 70%. ThecfaA promoter also exhibited a lower level of activity incya (adenyl cyclase) andcrp (cAMP receptor protein) mutants than in the wild-type strain. The addition of 10 mM cAMP resulted in a marked increase in the expression from thecfaA promoter in thecya but not in thecrp mutant. These results suggest that the suppressive effect of glucose in the CFA/I system is mediated via the mechanism of catabolite repression through thecfaA promoter of the CFA/I operon.     

Colonization factor antigen II (CFA/II) of enterotoxigenic Escherichia coli: molecular cloning of the CS3 determinant

The genes for the cell surface associated antigen CS3, produced by CFA/II type enterotoxigenic Escherichia coli, have been cloned in the plasmid vector pBR322 to produce a family of recombinant plasmids. These plasmids contain a series of HindIII fragments of which a fragment of 4.6 kb is common to all those expressing CS3. One of these plasmids, pPM474, has been subjected to mutagenesis with Tn1725 and deletions generated using Bal31. This has defined a minimum region of 3.75 kb necessary for the production of CS3 on the cell surface and implying genetic complexity as has been observed with other fimbrial antigens. Analysis of the plasmid encoded proteins in E. coli K-12 minicells has confirmed this complexity.     

Examination of enterotoxigenic Escherichia coli H10407 (colonization factor antigen I+) by scanning electron microscopy with conductive staining

We have used the scanning electron microscope to examine enterotoxigenic Escherichia coli H10407, which expresses colonization factor antigen I pili. The use of low accelerating voltages and conductive staining procedures allowed us to obtain images of colonization factor antigen I pili and other structural details which were obscured by conventional gold-coating techniques.     

Purification and characterization of the CS2 pili of colonization factor antigen II produced by human enterotoxigenic Escherichia coli

A subtype (CS2) of the colonization factor antigen II (CFA/II) of human enterotoxigenic Escherichia coli (ETEC) was studied. Analysis revealed that CS2-possessing ETEC was predominant among isolates from traveller's diarrhea at Osaka, Japan. TH61 pili produced by a clinical strain (TH61) were purified as a native form to homogeneity by zone electrophoresis and successive column chromatographies on Sepharose 4B and Phenyl-Sepharose CL-4B. It was demonstrated by immunogold staining technique and bacterial agglutination test that antisera against the purified pili of strain TH61 recognized pili of both strain TH61 and strain #C91f, a control strain possessing only CS2 pili. This suggests that TH61 pili purified in this study are CS2 pili. Subunit (pilin) of the purified pili has a molecular weight of about 16,000. Strains bearing CS2 could attach to human jejunal epithelial cells, and this attachment was inhibited by pretreating the enterocytes with purified pili. These indicate that CS2 pili are a factor responsible for attachment of ETEC bearing CS2 to human intestinal cells.     

Expression of plasmids coding for colonization factor antigen II (CFA/II) and enterotoxin production in Escherichia coli

Two plasmids transferred from enterotoxigenic Escherichia coli (ETEC) of serotype O6. H16 and biotypes A and C coded for mannose-resistant haemagglutination (MRHA) and production of heat-stable enterotoxin (ST) and heat-labile enterotoxin (LT). Both plasmids were nonautotransferring being mobilized most efficiently by the R plasmid R100-1. They were similar in their genetic properties being incompatible with each other and plasmids of the Inc group FI. The wild-type strains produced the colonization factor antigen II (CFA/II) which was made up of different coli surface antigens (CS). The biotype A strains produced CS1 and CS3 while the biotype C strains produced CS2 and CS3. These three antigens have the ability to cause MRHA. When plasmids coding for MRHA were transferred to K12 strains, the degree of haemagglutination was markedly reduced and only CS3 was produced. When both plasmids were transferred back into biotype A strains, good MRHA was restored and the strains produced CS1 and CS3. In a biotype C strain CS2 and CS3 were formed. The production of the antigens was compared by enzyme-linked immunosorbent assay (ELISA). The strains were also examined by electron microscopy where it was found that CS1 and CS2 were fimbrial antigens while CS3 was not.     

A Chimeric protein of CFA/I,CS6 subunits and LTB/STa toxoid protects immunized mice against enterotoxigenic Escherichia coli

Enterotoxigenic Escherichia Coli (ETEC) strains are the commonest bacteria causing diarrhea in children in developing countries and travelers to these areas. Colonization factors (CFs) and enterotoxins are the main virulence determinants in ETEC pathogenesis. Heterogeneity of CFs is commonly considered the bottleneck to developing an effective vaccine. It is believed that broad spectrum protection against ETEC would be achieved by induced anti‐CF and anti‐enterotoxin immunity simultaneously. Here, a fusion antigen strategy was used to construct a quadrivalent recombinant protein called 3CL and composed of CfaB, a structural subunit of CFA/I, and CS6 structural subunits, LTB and STa toxoid of ETEC. Its anti‐CF and antitoxin immunogenicity was then assessed. To achieve high‐level expression, the 3CL gene was synthesized using E. coli codon bias. Female BALB/C mice were immunized with purified recombinant 3CL. Immunized mice developed antibodies that were capable of detecting each recombinant subunit in addition to native CS6 protein and also protected the mice against ETEC challenge. Moreover, sera from immunized mice also neutralized STa toxin in a suckling mouse assay. These results indicate that 3CL can induce anti‐CF and neutralizing antitoxin antibodies along with introducing CFA/I as a platform for epitope insertion.

     

Mapping of a plasmid, coding for colonization, factor antigen I and heat-stable enterotoxin production, isolated from an enterotoxigenic strain of Escherichia coli.

The non-autotransferring plasmid NTP113 codes for production of colonization factor antigen I and heat-stable enterotoxin, NTP113, which has a molecular weight of 58 X 10(6), was digested with BamHI, EcoRI, and HindIII and combinations of these restriction endonucleases, and the products of these digestions were analyzed by agarose gel electrophoresis. The results were used to construct a partial restriction map of NTP113. Transposons coding for resistance to ampicillin, kanamycin, and tetracycline were inserted into NTP113, and we obtained a series of deletion mutants, as determined by the loss of tetracycline or kanamycin resistance from strains carrying the insertion mutants. A number of plasmid mutants obtained by insertion or deletion did not code for colonization factor antigen I, but most of these mutants still coded for heat-stable enterotoxin production. The position of the inserted transposons and of the deletions were determined on the restriction map. Two regions of NTP113 were required for the expression of colonization factor antigen I, and the two sites were separated by a length of DNA corresponding to a molecular weight of about 25 X10(6).     

Antibody response in mice immunized with a plasmid DNA encoding the colonization factor antigen I of enterotoxigenic Escherichia coli

The colonization factor antigen I (CFA/I) is one of the most epidemiologically relevant enterotoxigenic Escherichia coli (ETEC) fimbrial adhesins, which mediates the binding to human small intestine epithelium. A recombinant eukaryotic expression plasmid, pRECFA, encoding the CFA/I protein fused to the glycoprotein D of herpes simplex type 1 virus, was used to generate an antibody response in a murine model following intramuscular inoculation of purified DNA. Eukaryotic cells (BHK-21) transfected with pRECFA expressed the CFA/I protein in vitro, as revealed by Western blot and immunofluorescence microscopy. Administration of a single pRECFA 100-microg dose induced a long-term CFA/I-specific antibody response in BALB/c mice composed mainly of IgG and, to a lesser extent, IgA isotypes. The major CFA/I-specific IgG subclass was IgG2a, suggesting a Th-1-type immune response. A second dose with the same amount of purified DNA, given 2 weeks later, caused a booster effect on the immunoglobulin levels, but did not qualitatively alter the isotypes and subclasses of the induced antibody response. Immunization with different amounts of purified DNA and/or number of doses showed that maximal transient CFA/I-specific antibody levels could be obtained after two 100-microg doses of pRECFA given 2 weeks apart, but long-term antibody levels were similar.     

Genes for biosynthesis and assembly of CS3 pili of CFA/II enterotoxigenic Escherichia coli: novel regulation of pilus production by bypassing an amber codon

The complete nucleotide sequence of the 4746bp HindIII fragment encoding the genes for the biosynthesis and assembly of CS3 pili has been determined. By site-directed mutagenesis in conjunction with analysis of the plasmid-encoded proteins in minicells, the actual reading frames for the various products have been determined. This demonstrated that the genes for four of the proteins (63 kD, 48 kD, 33 kD, and 20 kD in size) are encoded entirely within the same open reading frame as a fifth protein (104 kD). However, for synthesis of this latter protein, suppression or readthrough of an internal amber codon is required. Termination at this codon is also necessary for synthesis of the former proteins. Two further proteins are also encoded within the HindIII fragment: a 27 kD precursor of a periplasmic protein and the 17.5kD precursor of the major CS3 fimbrial subunit.     

毒素源性大肠杆菌CFA/I、CS_3重组菌株的粘附力、免疫原性和保护性的研究

本研究采用可逆性肠结扎成兔腹泻(RITARD)动物模型检测了毒素源性大肠杆菌(ETEC)定居因子抗原Ⅰ(CFA/Ⅰ)和表面抗原3(CS_3)重组菌株的肠道粘附力、免疫原性和保护性。经肠道及口服接种时重组菌株对肠道均有较强的粘附力,与CFAs阴性宿主菌相比P<0.01。口服免疫家兔时,第四周血清抗体滴度达到高峰,分别为1∶9 000和1∶80 000;肠道免疫家兔后血清效价在第二周达到高峰,滴度分别为1∶8 000和1∶60 000。在抗体滴度高峰时进行ETEC野生株攻毒,结果显示口服组抗腹泻保护率为66.7％～75％,肠道组为50.1％～71.4％。攻毒后免疫家兔的排菌天数较对照组明显减少。     

The gene encoding the prepilin peptidase involved in biosynthesis of pilus colonization factor antigen III (CFA/III) of human enterotoxigenic Escherichia coli.

The assembly of pilus colonization factor antigen III (CFA/III) of human enterotoxigenic Escherichia coli requires the processing of CFA/III major pilin (CofA) by a peptidase, likely another type IV pilus formation system. Western blot analysis of CofA reveals that CofA is produced initially as a 26.5-kDa preform pilin (prepilin) and then processed to 20.5-kDa mature pilin by a prepilin peptidase. This processing is essential for exportation of the CofA from the cytoplasm to the periplasm. In this experiment, the structural gene, cofP, encoding CFA/III prepilin peptidase which cleavages at the Gly-30-Met-31 junction of CofA was identified, and the nucleotide sequence of the gene was determined. CofP consists of 819 bp encoding a 273-amino acid protein with a relative molecular mass of 30,533 Da. CofP is predicted to be localized in the inner membrane based on its hydropathy index. The amino acid sequence of CofP shows a high degree of homology with other prepilin peptidases which play a role in the assembly of type IV pili in several gram-negative bacteria.