Deletion and duplication of specific sequences in the K88ab fimbrial subunit protein from porcine enterotoxigenic Escherichia coli.

Summary Small, defined in-frame deletions and in-frame duplications of specific sequences were made within the faeG gene encoding the K88ab fimbrial subunit protein from porcine enterotoxigenic Escherichia coli. The cellular localization and proteolytic stability of the different mutated fimbrial subunit proteins were determined, and compared with those of the wild-type protein. Based upon these results, we predict a functional role of specific structures in the K88ab fimbrial subunit protein in subunit-subunit interactions as well as in interactions between FaeG and the other proteins encoded by the K88ab operon. The results obtained were further compared with results obtained from operon deletions, linker insertion mutagenesis and the current model for biogenesis of K88 fimbriae. One of the mutated fimbrial subunit genes was used to construct a secreted in-frame fusion between FaeG and a characterized epitope (lacking cysteine) from the Hepatitis B pre-S2 protein. Such fusion proteins might be useful in the design of recombinant vaccines.     

Construction and characterization of mutants impaired in the biosynthesis of the K88ab antigen

Plasmid pFM205 contains the genetic determinant for the K88ab antigen and is composed of a 4.3-megadalton DNA fragment derived from wild-type K88ab plasmid pRI8801 and cloning vehicle pBR322. The K88 NA of pFM205 contains five genes, which code for polypeptides with apparent molecular weights of 17,000, 26,000 (the K88ab subunit), 27,000 27,500, and 81,000. All five polypeptides were synthesized as precursors approximately 2,000 daltons larger than the mature polypeptides, indicating that they are transported across the cytoplasmic membrane by means of a signal sequence. A set of deletion derivatives of pFM205 was constructed, each containing a deletion in one of the five genes. In strains harboring derivatives of pFM205 containing a deletion in the gene for the 17,000- or 81,000-dalton polypeptide, the K88ab subunit was synthesized and transported to the outside of the cell. However, these strains did not adhere to brushborders or guinea pig erythrocytes, suggesting that the K88ab subunits were not assembled into normal fimbriae. Strains harboring plasmids containing a deletion in the gene for the 27,500-dalton polypeptide still adhered to brush borders and guinea pig erythrocytes, although very little K88ab antigen could be detected with an immunological assay. In strains harboring plasmids containing a deletion in the gene for the 27,000-dalton polypeptide, the K88ab subunit was synthesized but was probably subsequently degraded rapidly.     

Identification and partial purification of K88ab Escherichia coli receptor proteins in porcine brush border membranes

Six receptor proteins, with molecular masses ranging from 94 to 27 kDa, that bind to Escherichia coli K88ab fimbriae were recovered from brush border membranes and were detected after solubilization with Triton X-114. The recovery of these receptor proteins in the aqueous phase suggests their peripheral localization. The 63-, 60- and 33-kDa K88ab binding proteins were recovered using gel-filtration chromatography of the aqueous phase. Electronic Publication     

Genetic organization and biogenesis of adhesive fimbriae of Escherichia coli

The genetic organization of the determinants of type 1, K88ab, K99 fimbriae and P(pap)pili of Escherichia coli is presented. The functions of the various gene products are described and a model for the process of fimbriae biogenesis is presented and discussed.     

Molecular and structural aspects of fimbriae biosynthesis and assembly in Escherichia coli

Abstract: Fimbriae are long filamentous polymeric protein structures located at the surface of bacterial cells. They enable the bacteria to bind to specific receptor structures and thereby to colonise specific surfaces. Fimbriae consist of so-called major and minor subunits, which form, in a specific order, the fimbrial structure. In this review emphasis is put on the genetic organisation, regulation and especially on the biosynthesis of fimbriae of enterotoxigenic Escherichia coli strains, and more in particular on K88 and related fimbriae, with ample reference to the well-studied P and type 1 fimbriae. The biosynthesis of these fimbriae requires two specific and unique proteins, a periplasmic chaperone and an outer membrane located molecular usher ('doorkeeper'). Molecular and structural aspects of the secretion of fimbrial subunits across the cytoplasmic membrane, the interaction of these subunits with the periplasmic molecular chaperone, their translocation to the inner site of the outer membrane and their interaction with the usher protein, as well as the (ordered) translocation of the subunits across the outer membrane and their assembly into a grwoing fimbrial structure will be described. A model for K88 fimbriae is presented.     

大肠杆菌K88ac菌毛操纵子fae全基因的克隆、表达及生物学活性初步研究

目的：在体外克隆和表达猪肠产毒性大肠杆菌（ETEC）K88ae菌毛操纵子,触结构基因,并检测重组菌毛的相关生物学活性。方法：利用长PCR技术以猪ETECK88ae株C83902基因组DNA为模板扩增编码K88菌毛操纵子触基因,克隆入表达质粒载体pBR322,构建和筛选重组质粒pBR322-fae,转化至不含任何菌毛的大肠杆菌EP株;电镜观察重组菌表面菌毛表达情况;用热抽提法提纯表达的重组菌毛;用纯化菌毛免疫小鼠制备高效价抗血清;用SDS-PAGE和Western blot检测重组菌毛的抗原性,用细胞黏附和黏附抑制试验检测其生物学活性。结果和结论：在电镜下观察到重组菌表面大量表达K88ae菌毛,该重组菌与兔抗K88ae菌毛单因子阳性血清、鼠抗K88ac菌毛单克隆抗体均产生凝集反应;纯化菌毛经SDS-PAGE,结构单位菌毛呈单一的相对分子质量约26×10^3的蛋白条带;纯化菌毛免疫小鼠后可制备出高效价的鼠抗血清,玻板凝集试验和Western blot结果表明体外表达的K88ae菌毛具有与K88ae野生菌毛相同的抗原性;猪小肠上皮细胞系黏附和黏附抑制实验结果表明重组EP菌和野生菌株一样具有较强的黏附猪小肠上皮细胞系的能力,而且提纯重组菌毛制备出的鼠抗血清能有效抑制上述重组菌或野生菌株对猪小肠上皮细胞系的黏附结合。     

Fimbriae in Escherichia Coli Isolated from the Small Intestine of Piglets

Ninety E. coli strains, isolated from piglets which had died from neonatal diarrhea, were tested for the presence of K88, K99, 987P and type 1 fimbriae. Two or more types of fimbriae were demonstrated in 14 of the strains, a single fimbria! type in 44 strains while in 32 strains no fimbriae were detected. Of the 14 E. coli strains with more than 1 type of fimbriae, 12;, 10, 8 and 4 strains showed K88, K99, 987P and type 1, respectively. Twelve E. coli strains were isolated from piglets which had died in the neonatal period without showing signs of neonatal diarrhea at necropsy. One strain showed 987P and 3 strains showed type 1 fimbriae, while the remaining 8 strains were unfimbriated. Sixteen fimbriated E. coli strains were subcultured in order to examine the stability of fimbrial expression in the strains. The K88 and the type 1 fimbriae were regularly expressed, while the K99 and 987P were inconsistently demonstrated.     

Aptamer selection for the detection of Escherichia coli K88

In this study, the first group of single-stranded DNA aptamers that are highly specific to enterotoxigenic Escherichia coli (ETEC) K88 was obtained from an enriched oligonucleotide pool by the SELEX (Systematic Evolution of Ligands by Exponential Enrichment) procedure, during which the K88 fimbriae protein was used as the target and bovine serum albumin as counter targets. These aptamers were applied successfully in the detection of ETEC K88. They were then grouped under different families based on the similarity of their secondary structure and the homology of their primary sequence. Four sequences from different families were deliberately chosen for further characterization by fluorescence analysis. Having the advantage of high sensitivity, fluorescence photometry was selected as single-stranded DNA quantification method during the SELEX process. Aptamers with the highest specificity and affinity were analyzed to evaluate binding ability with E. coli. Since ETEC K88 is the only type of bacterium that expressed abundant K88 fimbriae, the selected aptamers against the K88 fimbriae protein were able to specifically identify ETEC K88 among other bacteria. This method of detecting ETEC K88 by aptamers can also be applied to bacteria other than ETEC K88.     

Evolutionary origin of pathogenic determinants in enterotoxigenic Escherichia coli and Vibrio cholerae O1.

Three families of the evolutionarily related pathogenic determinants in enterotoxigenic Escherichia coli and Vibrio cholerae O1, a family of cholera enterotoxin (CT) and heat-labile enterotoxin (LT) including CT, LTh, and LTp, a family of heat-stable enterotoxin I (STI) including STIa and STIb, and a family of K88 enteroadhesion fimbriae including K88ab, K88ac, and K88ad were analyzed for synonymous (silent) nucleotide substitutions by using the gene nucleotide sequences of earlier reports and the LTp gene nucleotide sequence presented in this paper. The data suggested that the divergences between LT and CT and between STIa and STIb occurred in the remote past, whereas those between LTh and LTp and between members of the K88 family occurred very recently. We concluded that the LT gene is a foreign gene that has been acquired by E. coli to form an enteropathogen. This provides evolutionary evidence of species-to-species transfer of pathogenic determinants in procaryotes.     

Electron and light microscopic observations of bacterial cell surface effects due to taurolidine treatment

Electron microscopy was employed to examine the outer surface structures of a laboratory strain (NCTC 9012), a K88a strain (NCTC 10964) and a urine clinical isolate of Escherichia coli . These were found to be, respectively: non-fimbriate, flagellate; fimbriate, non-flagellate; and fimbriate, flagellate. The effect of the antiadherent antimicrobial agent, taurolidine, on these structures was concentration and time-dependent. Cells grown in the presence of sub-inhibitory concentrations of taurolidine lose the ability to complete cell division and appeared filamentous. A higher concentration (2%) of taurolidine appeared to cause fimbriae, though not flagella, to become more compressed onto the cell surface. After 60 min contact with taurolidine fimbriae were not apparent on the cells. The anti-adherent capacity of taurolidine is assumed, in part, to be mediated via a chemical or physical modification of the fimbriae.     

A novel method for increasing bacterial cellular yields of a fimbrial subunit polypeptide

Abstract An in-depth understanding of the genetic organisation of the K88 adhesion fimbriae determinant has been used to construct novel recombinant plasmids which direct the expression of high levels of K88 fimbriae suitable for use in vaccine preparations when harboured by Escherichia coli K12. This was achieved by placing the fimbrial subunit polypeptide cistron under the control of a powerful E. coli promoter while leaving the expression of the other cistrons encoded within the K88 determinant under the control of a separate promoter. This methodology could be used as a general approach to construct strains expressing high levels of other bacterial fimbriae.     

Epitope tagging analysis of the outer membrane folding of the molecular usher FaeD involved in K88 fimbriae biosynthesis in Escherichia coli

To analyse the outer membrane folding of the molecular usher FaeD, tagged derivatives were prepared and their expression, tag-localisation and functioning in K88 fimbriae biosynthesis was studied. A semi-random insertion mutagenesis approach with factor Xa cleavage sites yielded six tagged FaeD derivatives. A site-directed mutagenesis approach in which c-myc epitopes were inserted yielded twenty-one different derivatives. Four tagged FaeD constructs were not expressed in the outer membrane as full-sized proteins to levels that could be detected by using immunoblotting analyses. Two of these had an insertion in the amino-terminal part of FaeD, whereas the other two had a tag inserted in the carboxyl-terminal part. The latter ones yielded stable carboxyl-terminally shortened truncates of about 70 kDa, as did other mutations in this region. Six tagged derivatives were expressed but the location of the tag with respect to the outer membrane could not be determined, possibly due to shielding. Functional analysis showed that insertion of a tag in two regions of FaeD, a central region of approximately 200 amino acid residues (a.a. 200-400) and the carboxyl-terminal region (a.a. 600-end), resulted in a defective K88 fimbriae biosynthesis. In-frame deletions in the amino-terminal region of FaeD abolished fimbriae production. The integrity of these regions is obviously essential for fimbriae biosynthesis. Based on the results and with the aid of a computer analysis programme for the prediction of outer membrane beta-strands, a folding model with 22 membrane spanning beta-strands and two periplasmioc domains has been developed.     

F4 fimbriae expressed by porcine enterotoxigenic Escherichia coli, an example of an eccentric fimbrial system?

An overwhelming number of infectious diseases in both humans and animals are initiated by bacterial adhesion to carbohydrate structures on a mucosal surface. Most bacterial pathogens mediate this adhesion by fimbriae or pili which contain an adhesive lectin subunit. The importance of fimbriae as virulence factors led to research elucidating the regulation of fimbrial expression and their molecular assembly process. This review provides an overview of the current knowledge of induction, expression and assembly of F4 (K88) fimbriae and discusses its unique as well as its identical characteristics compared to other intensively studied fimbriae or pili expressed by Escherichia coli.     

Identification and characterization of precursors in the biosynthesis of the K88ab fimbria of Escherichia coli

Four genes encoding for polypeptides with apparent molecular weights of 17,000, 26,000 (the fimbrial subunit), 27,000, and 81,000 have been implicated in the biosynthesis of the K88ab fimbria (Mooi et al., J. Bacteriol. 150:512-521, 1982). Escherichia coli mutants with defects in these genes were examined for the presence of fimbrial precursors. An analysis of these mutants revealed that fimbrial subunits accumulated transiently in the periplasmic space before being translocated across the outer membrane. The 81,000-dalton (d) polypeptide is probably involved in translocating fimbrial subunits across the outer membrane, because in the absence of this polypeptide the fimbrial subunits remained in the periplasmic space, where they were found to be associated with the 17,000- and 27,000-d polypeptides. In mutants with a deletion in the gene for the 27,000-d polypeptide, fimbrial precursors were not detected, because the fimbrial subunits were degraded. The 27,000-d polypeptide might be involved in stabilizing a conformation of the fimbrial subunit required to translocate it across the outer membrane. In the absence of the 17,000-d polypeptide, most fimbrial subunits were found in the periplasmic space associated with the 27,000-d polypeptide. However, small amounts of subunits were also translocated across the outer membrane. These extracellular subunits did not adhere to brushborders, suggesting that fimbrial subunits must be modified by the 17,000-d polypeptide to be assembled into functional fimbriae. A model for the biosynthesis of the K88ab fimbria is proposed.     

Inhibition of adhesion of Escherichia coli K88 to piglet ileal mucus by Lactobacillus spp.

Enteropathogenic Escherichia coli K88 colonizing the piglet ileum adhere to the mucosa by K88 fimbrial appendages. A recent study in our laboratory has implicated indigenous lactobacilli in the suppression of the colonization potential of enteropathogenic E. coli as measured by adhesion to ileal mucus. The aim of this study was to investigate the effect of Lactobacillus spp. of porcine origin on the adhesion of K88 fimbriae of E. coli. With an in vitro assay, the adhesion of E. coli K88ab strain G1108E and E. coli K88ac strain 1107 to 35-day-old piglet ileal mucus was studied in the presence of spent culture fluid of Lactobacillus spp. Detailed studies focused specifically on culture fluid of Lactobacillus fermentum 104R. Subsequently, the ileal mucus was exposed to the retentate of the spent culture fluid after dialysis and fractionation. Adhesion was confirmed to be attributable to K88 fimbriae when K88-specific monoclonal antibodies and isogenic mutants of E. coli K-12 with and without the plasmid containing the K88 gene were used. The active component was characterized by pretreatment of dialysis retentate with heat, periodate, pronase, and centrifugation, as well as by growth of the lactobacillus in various media and by assays at both 0 and 37 degrees C. All three lactobacilli of porcine origin reduced adhesion of E. coli K88 by approximately 50%. Inhibition occurred when mucus was pretreated with either spent culture dialysis retentate or the void volume (fraction of > 250,000 molecular weight) after gel filtration. The activity of the dialysis retentate was sensitive to pronase, but there was still activity at 0 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intestinal receptors for adhesive fimbriae of enterotoxigenic Escherichia coli (ETEC) K88 in swine – a review

Determining the structure of the intestinal receptor for enterotoxigenic Escherichia coli (ETEC) K88 fimbriae will make it possible to develop new strategies to prevent K88+ ETEC-induced disease in pigs. Putative K88 adhesin receptors have been identified in both intestinal brush border and mucus preparations as either glycoproteins or glycolipids. Proteins with sizes of 25, 35, 40–42, 60, and 80 kDa in the intestinal mucus and 16, 23, 35, 40–70, 74, 210, and 240 kDa in brush border membranes were reported to bind specifically to K88ab and K88ac fimbriae. The factors accounting for these variable results may include the variants of K88, ages, breeds, and phenotypes of pigs, and even the sampling sites in the small intestine. Of the reported K88 receptors, only three brush border receptors, i.e., a pair of mucin-type sialoglycoproteins (210 kDa or 240 kDa), an intestinal neutral glycosphingolipid (IGLad), and a 74-kDa transferrin glycoprotein (GP74), have fulfilled the criteria as phenotype-specific K88 fimbrial receptors. Inhibiting the attachment of ETEC to intestine by modifying the receptor attachment sites has been the key for developing novel approaches to preventing ETEC-induced diarrhea in pigs. These include: (1) receptor analogs from a variety of biological sources, (2) an enteric protected protease, (3) chicken egg-yolk containing anti-K88 fimbrial antibodies, and (4) some Lactobacillus isolates producing proteinaceous components or carbohydrates interacting with mucus components. Future studies should be directed to further characterize the carbohydrate and protein moieties of receptors recognized by the K88 adhesin variants and to identify the genes responsible for susceptibility to K88+ infections. Received: 29 February 2000 / Received revision: 4 May 2000 / Accepted: 5 May 2000     

PCR assay for detection and differentiation of K88ab1, K88ab2, K88ac, and K88ad fimbrial adhesins inE. coli strains isolated from diarrheic piglets

Primers were designed and prepared and conditions were determined for PCR detection and differentiation of enterotoxigenic E. coli bacterial strains isolated from diarrheic pigs. Primers K88/1 and K88/2 are 25 bp oligomers that correspond to a region of genes encoding one of serological variants of the K88 antigen (K88ab(1), K88ab(2), K88ac or K88ad). A positive result of PCR is an amplificate of 792 bp in size for K88ab and K88ad variant or 786 bp for K88ac variant. The individual serological variants of genes of the K88 antigen could be differentiated by cutting the obtained PCR amplificates by restriction endonucleases. The PCR analysis of 674 E. coli strains isolated from diarrheic pigs showed that 184 strains were K88 positive. By using restriction endonucleases the K88-positive strains were in 4 cases classified as K88ab variant, 180 as K88ac variant and none contained gene for the K88ad variant. Ninety-five % coincidence with serological examination using K88ab, K88ac and K88ad specific antibodies was shown.     

The production of F41 fimbriae by piglet strains of enterotoxigenic Escherichia coli that lack K88, K99 and 987P fimbriae

The enterotoxigenic Escherichia coli strains 1676, 1706, 1751 and KEC96a, which do not produce fimbrial adhesive antigens of the K88, K99 or 987P antigen type reacted both in vitro and in vivo with antiserum to F41 fimbriae in an indirect immunofluorescent antibody technique. Antiserum used to demonstrate material B, an adhesive antigen thought to mediate the adhesive and mannose-resistant (MR) haemagglutinating properties of E. coli strains 1676, 1706 and 1751, reacted in vitro with an F41+ strain. The antiserum also inhibited the MR haemagglutinating activity of F41 antigen and gave an anionic precipitation line in immunoelectrophoresis experiments with an extract containing F41 antigen. The MR haemagglutinating properties of an antigen extract containing material B from E. coli strain 1706 was neutralized by antiserum to F41 fimbriae and by OK antisera to E. coli strains that produce both F41 and K99 fimbriae. These sera also gave an anionic precipitation line with the MR haemagglutinin from E. coli strain 1706 and the MR haemagglutinin gave a line of identity with F41 in gel diffusion experiments with antiserum to F41 fimbriae. OK antisera to K99+ F41- bacteria and OK antisera to K88+ bacteria and 987P+ bacteria did not react with this haemagglutinin. Transmission electron microscopy on the ileum of newborn gnotobiotic piglets infected with E. coli strain 1706 showed irregular, poorly defined filamentous material surrounding some,though not all, bacteria but regular fimbrial structures were not visible.(ABSTRACT TRUNCATED AT 250 WORDS)     

大肠杆菌F18菌毛及其亚型的PCR鉴定

F18菌毛是产肠毒素大肠杆菌 (ETEC)与产vero细胞毒素大肠杆菌 (VTEC)的重要致病因子 ,可介导细菌对小肠细胞的黏附 ,并具有F18ab和F18ac 2个抗原亚型。根据已发表的F18ab菌毛A亚单位 (FedA ab)的基因 (fedA ab)设计 3条引物 ,建立了 2种聚合酶链式反应 (PCR)扩增方法。通过对F18ab 大肠杆菌、F18ac 大肠杆菌、K88 大肠杆菌、K99 大肠杆菌、987P 大肠杆菌、F4 1 大肠杆菌的试验 ,结果表明所建立的PCR方法可特异性鉴定F18 大肠杆菌并区别其亚型F18ab与F18ac     

Leucine-responsive regulatory protein, IS 1 insertions, and the negative regulator FaeA control the expression of the fae (K88) operon in Escherichia coli

Nucleotide sequence analysis of the fae operon encoding the biosynthesis of K88 fimbriae revealed the presence of two divergently transcribed regulatory genes, faeA and faeB, separated by two inverted iS 1 insertions. The amino acid sequences of the regulatory proteins FaeA and FaeB show similarity to the primary structure of corresponding regulatory proteins involved in the biosynthesis of Pap and S fimbriae. Expression of faeA is positively controlled by the FaeA protein, whereas K88 fimbriae production is negatively controlled by the co-operative activity of FaeA and the leucine-responsive regulatory protein (Lrp). Exchange of FaeA for Papl, a positive regulator of Pap fimbriae expression, also represses K88 production indicating that the combination Papl/Lrp has opposite effects on fae and pap expression. Mutations in faeB had no effect on the biosynthesis of K88 fimbriae. The presence of the two iS 1 insertions is hypothesized to neutralize part of the repression of K88 biosynthesis by FaeA/Lrp. Like pap, the fae operon does not respond to exogenous leucine.