Horizontal transfer of CS1 pilin genes of enterotoxigenic Escherichia coli

CS1 is one of a limited number of serologically distinct pili found in enterotoxigenic Escherichia coli (ETEC) strains associated with disease in people. The genes for the CS1 pilus are on a large plasmid, pCoo. We show that pCoo is not self-transmissible, although our sequence determination for part of pCoo shows regions almost identical to those in the conjugative drug resistance plasmid R64. When we introduced R64 into a strain containing pCoo, we found that pCoo was transferred to a recipient strain in mating. Most of the transconjugant pCoo plasmids result from recombination with R64, leading to acquisition of functional copies of all of the R64 transfer genes. Temporary coresidence of the drug resistance plasmid R64 with pCoo leads to a permanent change in pCoo so that it is now self-transmissible. We conclude that when R64-like plasmids are transmitted to an ETEC strain containing pCoo, their recombination may allow for spread of the pCoo plasmid to other enteric bacteria.     

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.     

产肠毒素性大肠杆菌K88菌毛装配

K88菌毛介导产肠毒索性大肠杆菌在小肠上皮细胞的粘附,是引起新生仔猪腹泻的主要致病因子之一.菌毛的合成与装配是由fae操纵子调控的,fae操纵子包含10个基,faeA-fae J,其中有些基因表达菌毛装配所需的各种结构蛋白、分子伴侣和调控因子.菌毛的装配过程是由fae操纵子调控,通过分子伴侣,锚定蛋白的相互协同作用完成,组装成结构蛋白的多聚体.继阐明K88菌毛装配调控机理之后,K88菌毛在非毒素源性大肠杆菌及其它原核生物中装配也取得成功,同时菌毛结构蛋白在真核生物中组装也取得了很大进展.     

A chromatographic method for the purification of K99 pili from enterotoxigenic Escherichia coli

Details of a relatively inexpensive method for the purification of K99 pili in their native conformation are reported. The method involved sequential precipitation of K99 pili with (NH4)2SO4, followed by precipitation in 12% (w/v) mannose or sorbitol solution. The crude pili preparation was adsorbed with Bio-Gel A-5m and subjected to sequential gel filtration on Bio-Gel A-5m equilibrated with Tris/EDTA/NaN3/NaCl buffer and KSCN/KCl solution, respectively. The K99 containing peak was subjected to sequential ion-exchange chromatography on DEAE-Bio-Gel A equilibrated with 0.02 M-Tris/HCl, pH 8.6 containing 0.05 M-NaCl and DEAE-Sephadex A-50 equilibrated with 0.05 M-phosphate buffer, pH 7.2. The purified pili yielded a single band on SDS-PAGE with an estimated molecular weight of 13000. Attempts to purify pili by other methods evaluated, viz. MgCl2 precipitation and chromatofocusing were unsuccessful. While the amino acid composition of purified K99 pili was similar to that reported previously the N-terminal amino acid was apparently blocked.     

Cloning of genes encoding coli-surface (CS) antigens in enterotoxigenic Escherichia coli

Abstract Sequences encoding the CS6 antigen of colonisation factor antigen (CFA)IV were cloned on a 3kb Cla I fragment. The recombinant plasmid pDEP5 coded for surface expression of CS6 measured by ELISA and production of CS6 polypeptides was detected in E. coli minicells. The genes for the CS1, CS2 and CS3 components of colonisation factor antigen CFA/II were cloned together on a length of DNA corresponding to about 17kb. CS3 was always expressed but production of either CS1 or CS2 depended on the serotype and biotype of the host strain. Separate subclones were obtained that expressed CS3 or CS1 and CS2.     

Structural characterization of CFA/III and Longus type IVb pili from enterotoxigenic Escherichia coli

The type IV pili are helical filaments found on many Gram-negative pathogenic bacteria, with multiple diverse roles in pathogenesis, including microcolony formation, adhesion, and twitching motility. Many pathogenic enterotoxigenic Escherichia coli (ETEC) isolates express one of two type IV pili belonging to the type IVb subclass: CFA/III or Longus. Here we show a direct correlation between CFA/III expression and ETEC aggregation, suggesting that these pili, like the Vibrio cholerae toxin-coregulated pili (TCP), mediate microcolony formation. We report a 1.26-Å resolution crystal structure of CofA, the major pilin subunit from CFA/III. CofA is very similar in structure to V. cholerae TcpA but possesses a 10-amino-acid insertion that replaces part of the α2-helix with an irregular loop containing a 3₁₀-helix. Homology modeling suggests a very similar structure for the Longus LngA pilin. A model for the CFA/III pilus filament was generated using the TCP electron microscopy reconstruction as a template. The unique 3₁₀-helix insert fits perfectly within the gap between CofA globular domains. This insert, together with differences in surface-exposed residues, produces a filament that is smoother and more negatively charged than TCP. To explore the specificity of the type IV pilus assembly apparatus, CofA was expressed heterologously in V. cholerae by replacing the tcpA gene with that of cofA within the tcp operon. Although CofA was synthesized and processed by V. cholerae, no CFA/III filaments were detected, suggesting that the components of the type IVb pilus assembly system are highly specific to their pilin substrates.     

CS3纤毛抗原表达调控机理的研究

CS3亚基结构基因的核苷酸序列分析表明,在其翻译起始位点的上游存在着rbs位点及原核启动子的—10区和—35区DNA序列。凝胶阻滞和启动报告基因表达的实验确证了CS3亚基结构基因具有自身的启动子(Ps),怛它的作用受其上游区域的抑制。核苷酸序列分析发现,在Ps—35区上游550bp和840bp处各存在一个富A-T簇。结合原核启动子的一般作用规律推知,CS3的表达可能受DNA结合蛋白型的正向调节因子的作用,互补实验结果表明cfaD基因不仅可消除上游区对Ps的抑制,而且可大幅度地提高Ps的启动能力。在分析表达调控的基础上获得CS3重组高效表达。同时提出了其表达调控模型。     

CS3 fimbriae of enterotoxigenic Escherichia coli as chimeric expression carriers of heterologous antigenic determinants

CS3 fimbriae, which are the strong immunogen, are produced by human enterotoxigenic Escherichia coli (ETEC). The possibility of using CS3 as a carrier of foreign antigenic determinants was investigated. A SacII site sequence was inserted into the structural gene of CS3 subunit by site-specific mutagenesis based on analyzing and predicting the properties of the proteins. A recombinant strain expressing CS3/CTP3 hybrid fimbriae was constructed by inserting the sequence encoding CTP3 into the SacII site created by directed mutagenesis in the structural gene of CS3 subunit and transforming the recombinant plasmid into the host of DH5α. The result of SDS-PAGE showed that the hybrid CS3/CTP3 molecules were the fusion proteins with molecular, masses of about 18.5 ku. Inoculating mice orally and intraperitoneally showed that both antibodies against CS3 and CTP3 were elicited. These results indicate that CS3 pill could be an exposure vector for heterologous antigenic determinants and become a powerful tool for     

CS3菌毛可以作为异源抗原决定簇的嵌合表达载体

CS3是肠毒素源性大肠杆菌的菌毛蛋白,是一种很强的免疫原。研究了利用CS3菌毛作为异源抗原决定簇载体的可能性。在计算机分析预测CS3亚基的抗原表位区、二级结构的基础上,运用PCR定点突变在CS3亚基结构基因中引入了SacⅡ酶切位点序列,插入编码霍乱毒素B亚基抗原表位CTP3的DNA序列,构建了表达CS3/CTP3的重组菌株。电镜和免疫电镜观察证明,CS3/CTP3以杂合菌毛的形式存在于菌体表面,SDS聚丙烯酰胺凝胶电泳显示了CS3/CTP3杂合蛋白的存在。口服和腹腔注射免疫Bal b/c小鼠,该重组菌株可诱发抗CS3和抗CTP3的双重免疫应答。结果表明CS3可以作为表达异源抗原决定簇的表达载体,可望成为研制口服粘膜免疫多价疫苗的新型系统。     

CS3 fimbriae of enterotoxigenic Escherichia coli as chimeric expression carriers of heterologous antigenic determinants

CS3 fimbriae, which are the strong immunogen, are produced by human enterotoxigenic Escherichia coli (ETEC). The possibility of using CS3 as a carrier of foreign antigenic determinants was investigated. A SacⅡ site sequence was inserted into the structural gene of CS3 subunit by site-specific mutagenesis based on analyzing and predicting the properties of the proteins. A recombinant strain expressing CS3/CTP3 hybrid fimbriae was constructed by inserting the sequence encoding CTP3 into the SacII site created by directed mutagenesis in the structural gene of CS3 subunit and transforming the recombinant plasmid into the host of DH5α. The result of SDS-PAGE showed that the hybrid CS3/CTP3 molecules were the fusion proteins with molecular masses of about 18.5 ku. Inoculating mice orally and intraperitoneally showed that both antibodies against CS3 and CTP3 were elicited. These results indicate that CS3 pili could be an exposure vector for heterologous antigenic determinants and become a powerful tool for the development of oral vaccines directed against mucosal pathogens.     

The fimbriae of human enterotoxigenic Escherichia coli strain 334 are related to CS5 fimbriae

Escherichia coli strain 334 is a human enterotoxigenic strain of serotype O15:H11 which had previously been shown to produce 'attachment pili'. These fimbriae were compared with other colonization factors. From strain 334 a mannose-resistant haemagglutination positive colony 334A and a mannose-resistant haemagglutination negative variant 334C were isolated. By electron microscopy the fimbriae of strain 334A were shown to have a helical structure resembling coli-surface-associated antigen (CS5) fimbriae. An antiserum was raised to strain 334A and absorbed with a fimbriae-negative variant of that strain, 334C. By immuno-electron microscopy this antiserum was shown to coat fimbriae of strain 334A but not CS5 fimbriae produced by strain E17018A. Conversely, CS5 antiserum did not coat the fimbriae produced by strain 334A. No antigenic cross-reaction was detected between these intact fimbriae when anti-strain 334A serum and CS5 antiserum were used in immunodiffusion tests. By enzyme-linked immunosorbent assays (ELISAs) the fimbriae of strain 334A were shown to be antigenically unrelated to most other human ETEC adhesins, namely colonization factor antigens (CFA/I, CFA/III and CFA/IV), coli-surface-associated antigens (CS1, CS2, CS3, CS4, CS6 and CS17) and putative colonization factors (PCFO159:H4 and PCFO166). However, a heated suspension of strain 334A reacted weakly with CS5 antiserum in an ELISA. By SDS-PAGE the fimbriae of strain 334A were shown to consist of subunits of similar size to CS5 subunits, that is about 21.5 kDa. Western immunoblotting revealed that the subunits of 334A and CS5 fimbriae shared common epitopes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dissociation and reassembly of Escherichia coli type 1 pili.

Escherichia coli type 1 pili, which mediate the mannose-sensitive adherence of the bacterium to eucaryotic cells, are comprised of very stable arrays of pilin protein subunits (molecular weight, approximately 17,000). Previous methods for the dissociation of pili caused their irreversible denaturation. We have found that incubation of pili in saturated guanidine hydrochloride at 37 degrees C led to their complete dissociation, as evidenced by nephelometry and electron microscopy. Gel chromatography of the dissociated pili on a Sepharose CL-6B column in the presence of saturated guanidine hydrochloride yielded a single protein peak with a molecular weight corresponding to that of pilin. Dialysis of this peak against 5 mM tris(hydroxymethyl)aminomethane hydrochloride (pH 8.0) and rechromatography in the same buffer afforded a major protein peak, probably consisting of pilin dimers. About 25% of the protein in this peak bound to a mannan-sepharose column and could be eluted with methyl alpha-D-mannoside. The pilin dimer gave a single protein band upon polyacrylamide gel electrophoresis in the presence of 0.1% sodium dodecyl sulfate (molecular weight, 16,600) or 10 M urea and penetrated completely into 7% gels in the absence of denaturants. Reassembly of the pilin dimers into pili was achieved upon dialysis against the tris(hydroxymethyl)aminomethane buffer containing 5 mM MgCl2, as observed by electron microscopy. Thus, the conditions used allow renaturation of the dissociated subunits and may aid in further studies of the structure-function relationship of pili.     

Assembly and overexpression of membrane proteins in Escherichia coli

The bacterium Escherichia coli is one of the most popular model systems to study the assembly of membrane proteins of the so-called helix-bundle class. Here, based on this system, we review and discuss what is currently known about the assembly of these membrane proteins. In addition, we will briefly review and discuss how E. coli has been used as a vehicle for the overexpression of membrane proteins.     

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.     

Directed evaluation of enterotoxigenic Escherichia coli autotransporter proteins as putative vaccine candidates

Background

Enterotoxigenic Escherichia coli (ETEC) is a major diarrheal pathogen in developing countries, where it accounts for millions of infections and hundreds of thousands of deaths annually. While vaccine development to prevent diarrheal illness due to ETEC is feasible, extensive effort is needed to identify conserved antigenic targets. Pathogenic Escherichia coli, including ETEC, use the autotransporter (AT) secretion mechanism to export virulence factors. AT proteins are comprised of a highly conserved carboxy terminal outer membrane beta barrel and a surface-exposed amino terminal passenger domain. Recent immunoproteomic studies suggesting that multiple autotransporter passenger domains are recognized during ETEC infection prompted the present studies.

Methodology

Available ETEC genomes were examined to identify AT coding sequences present in pathogenic isolates, but not in the commensal E. coli HS strain. Passenger domains of the corresponding autotransporters were cloned and expressed as recombinant antigens, and the immune response to these proteins was then examined using convalescent sera from patients and experimentally infected mice.

Principal Findings

Potential AT genes shared by ETEC strains, but absent in the E. coli commensal HS strain were identified. Recombinant passenger domains derived from autotransporters, including Ag43 and an AT designated pAT, were recognized by antibodies from mice following intestinal challenge with {"type":"entrez-nucleotide","attrs":{"text":"H10407","term_id":"875229","term_text":"H10407"}}H10407, and both Ag43 and pAT were identified on the surface of ETEC by flow cytometry. Likewise, convalescent sera from patients with ETEC diarrhea recognized Ag43 and pAT, suggesting that these proteins are expressed during both experimental and naturally occurring ETEC infections and that they are immunogenic. Vaccination of mice with recombinant passenger domains from either pAT or Ag43 afforded protection against intestinal colonization with ETEC.

Conclusions

Passenger domains of conserved autotransporter proteins could contribute to protective immune responses that develop following infection with ETEC, and these antigens consequently represent potential targets to explore in vaccine development.     

Purification and characterization of CS2, a sialic acid-specific haemagglutinin of enterotoxigenic Escherichia coli.

CS2 fimbriae of enterotoxigenic Escherichia coli were purified and characterized. The surface haemagglutinins (fimbriae) were detached by sonication from a strain producing only the CS2 fimbriae. Isolation was carried out by gel filtration on a Sepharose 4B column. After depolymerization, the fimbriae subunits were purified on a Sephacryl S-300 column in 8.0 M-guanidinium chloride. From 1 litre of medium, 4-6 mg of purified fimbriae was obtained. We found that CS2 fimbriae were completely dissociated by saturated guanidinium chloride into subunits with a molecular mass of 16.5 kDa. CS2 fimbriae was sialic acid-specific, since sialic acids were the most potent inhibitors, and neuraminidase treatment of erythrocytes abolished haemagglutination. Both fimbriae and fimbrial subunits were found to bind to bovine erythrocytes. The binding of subunits to erythrocytes could be inhibited with low concentrations of sialyl-lactose.     

Histone H1 proteins act as receptors for the 987P fimbriae of enterotoxigenic Escherichia coli

The tip adhesin FasG of the 987P fimbriae of enterotoxigenic Escherichia coli mediates two distinct adhesive interactions with brush border molecules of the intestinal epithelial cells of neonatal piglets. First, FasG attaches strongly to sulfatide with hydroxylated fatty acyl chains. This interaction involves lysine 117 and other lysine residues of FasG. Second, FasG recognizes specific intestinal brush border proteins that migrate on a sodium-dodecyl sulfate-polyacrylamide gel like a distinct set of 32-35-kDa proteins, as shown by ligand blotting assays. The protein sequence of high performance liquid chromatography-purified tryptic fragments of the major protein band matched sequences of human and murine histone H1 proteins. Porcine histone H1 proteins isolated from piglet intestinal epithelial cells demonstrated the same SDS-PAGE migration pattern and 987P binding properties as the 987P-specific protein receptors from porcine intestinal brush borders. Binding was dose-dependent and shown to be specific in adhesion inhibition and gel migration shift assays. Moreover, mapping of the histone H1 binding domain suggested that it is located in their lysine-rich C-terminal domains. Histone H1 molecules were visualized on the microvilli of intestinal epithelial cells by immunohistochemistry and electron microscopy. Taken together these results indicated that the intestinal protein receptors for 987P are histone H1 proteins. It is suggested that histones are released into the intestinal lumen by the high turnover of the intestinal epithelium. Their strong cationic properties can explain their association with the negatively charged brush border surfaces. There, the histone H1 molecules stabilize the sulfatide-fimbriae interaction by simultaneously binding to the membrane and to 987P.     

毒素源性大肠杆菌定居因子抗原CS6基因的克隆

通过构建人源毒素源性大肠杆菌野生株E519/66A大质粒的基因文库,成功地筛选出能表达定居因子抗原CS6菌毛的阳性克隆,初步确定了克隆DNA片段的限制性内切酶图谱。CS6抗原的编码和调控基因集中在一大小为4.6kb的DNA区段中,该片段能产生两种分子量大小不同、但抗原反应交叉的菌毛蛋白。本研究获得的CS6抗原阳性的重组菌株可用于人源ETEC多价疫苗的研制,克隆的基因片段亦可作为研究CS6菌毛蛋白基因表达及调控的基础。