Identification of a fibronectin-binding domain within the Campylobacter jejuni CadF protein

The binding of Campylobacter jejuni to fibronectin (Fn), a component of the extracellular matrix, is mediated by a 37 kDa outer membrane protein termed CadF for Campylobacter adhesion to Fn. Previous studies have indicated that C. jejuni binds to Fn on the basolateral surface of T84 human colonic cells. To further characterize the interaction of the CadF protein with Fn, enzyme-linked immunosorbent assays were performed to identify the Fn-binding domain (Fn-BD). Using overlapping 30-mer and 16-mer peptides derived from translated cadF nucleotide sequence, maximal Fn-binding activity was localized to four amino acids (AA 134-137) consisting of the residues phenylalanine-arginine-leucine-serine (FRLS). A mouse alpha-CadF peptide polyclonal antibody (M alpha-CadF peptide pAb) was generated using FRLS containing peptides and found to react with viable C. jejuni as judged by indirect fluorescent microscopy, suggesting that the FRLS residues are surface-exposed. Binding of CadF to purified Fn and INT 407 human epithelial cells was significantly inhibited with peptides containing the Fn-BD. Moreover, a CadF recombinant variant protein, in which the Phe-Arg-Leu residues (CadF AA 134-136) were altered to Ala-Ala-Gly, exhibited a 91% decrease in Fn-binding activity as compared with the wild-type CadF protein. Collectively, these data indicate that the FRLS residues (CadF AA 134-137) of the C. jejuni CadF protein possess Fn-binding activity.     

Chromosomal His-tagging: an alternative approach to membrane protein purification

Membrane proteins are of keen interest to structural biologists, as they are known to act as receptors, adhesins, sensors, transporters, and signal-transducers of living cells. During the past few decades, the efforts made to study the bacterial membrane proteins have been impaired by the problems encountered during the production and purification of native proteins. Herein we demonstrate that the Campylobacter jejuni CadF protein, which was isolated using a novel purification strategy, exhibits biological activity as evidenced by channel activity in lipid bilayers. CadF, an E. coli OmpA-like protein, facilitates the binding of C. jejuni to the extracellular matrix component, fibronectin.     

Role of the small Rho GTPases Rac1 and Cdc42 in host cell invasion of Campylobacter jejuni

Host cell invasion of the food-borne pathogen Campylobacter jejuni is one of the primary reasons of tissue damage in humans but molecular mechanisms are widely unclear. Here, we show that C. jejuni triggers membrane ruffling in the eukaryotic cell followed by invasion in a very specific manner first with its tip followed by the flagellar end. To pinpoint important signalling events involved in the C. jejuni invasion process, we examined the role of small Rho family GTPases. Using specific GTPase-modifying toxins, inhibitors and GTPase expression constructs we show that Rac1 and Cdc42, but not RhoA, are involved in C. jejuni invasion. In agreement with these observations, we found that internalization of C. jejuni is accompanied by a time-dependent activation of both Rac1 and Cdc42. Finally, we show that the activation of these GTPases involves different host cell kinases and the bacterial fibronectin-binding protein CadF. Thus, CadF is a bifunctional protein which triggers bacterial binding to host cells as well as signalling leading to GTPase activation. Collectively, our results suggest that C. jejuni invade host target cells by a unique mechanism and the activation of the Rho GTPase members Rac1 and Cdc42 plays a crucial role in this entry process.     

The ClpB protein from Campylobacter jejuni: molecular characterization of the encoding gene and antigenicity of the recombinant protein

The ClpB heat-shock protein is necessary for the survival of Escherichia coli cells upon sudden increase of temperature. Using a PCR-based genomic walking method, the nucleotide sequence of a clpB homolog from Campylobacter jejuni was determined. The clpB gene encodes a protein of 857 amino acid (aa) residues, with a predicted molecular mass of 95.3kDa. Alignment of the deduced aa sequence with other known bacterial ClpB proteins revealed overall identity from 47% (E. coli) to 61% (Helicobacter pylori). Within the clpB promoter region, as indicated by primer extension analysis, we identified a sequence identical to the E. coli sigma70 consensus promoter. Northern blot analysis confirmed that clpB is heat-inducible in C. jejuni. The ClpB protein, fused to a 6xHis tag, was synthesized in E. coli and purified by metal-affinity and size exclusion chromatography. In ELISA studies, IgA levels reactive to recombinant ClpB were significantly higher in sera of patients with prior C. jejuni infections than in sera obtained from healthy control persons.     

Mass spectrometric characterization of the Campylobacter jejuni adherence factor CadF reveals post‐translational processing that removes immunogenicity while retaining fibronectin binding

Campylobacter jejuni is a major gastrointestinal pathogen that colonizes host mucosa via interactions with extracellular matrix proteins, such as fibronectin (Fn). Fn‐binding is mediated by a 37 kDa outer membrane protein termed Campylobacter adherence Factor (CadF). The outer membrane protein profile of a recent gastrointestinal C. jejuni clinical isolate (JHH1) was analysed using 2‐DE and MS. Several spots were identified as products of the cadF gene. These included mass and pI variants of 34 and 30 kDa, as well as 24 kDa (CadF₂₄) and 22 kDa (CadF₂₂) mass variants. CadF variants were fully characterized by MALDI‐TOF MS and MALDI‐MS/MS. These data confirmed that CadF forms re‐folding variants resulting in spots with lower mass and varying pI that are identical at the amino acid sequence level and are not modified post‐translationally. CadF₂₂ and CadF₂₄, however, were characterized as N‐terminal, membrane‐associated polypeptides resulting from cleavage between serine¹⁹⁵ and leucine¹⁹⁶, and glycine²⁰¹ and phenylalanine²⁰², respectively. These variants were more abundant in the virulent (O) isolate of C. jejuni NCTC11168 when compared with the avirulent (genome sequenced) isolate. Hexahistidine fusion constructs of full‐length CadF (34 kDa), CadF₂₄, and the deleted C‐terminal OmpA domain (14 kDa; CadF₁₄) were created in Escherichia coli. Recombinant CadF variants were probed against patient sera and revealed that only full‐length CadF retained reactivity. Binding assays showed that CadF₂₄ retained Fn‐binding capability, while CadF₁₄ did not bind Fn. These data suggest that the immunogenic epitope of CadF is cleaved to generate smaller Fn‐binding polypeptides, which are not recognized by the host humoral response. CadF cleavage therefore may be associated with virulence in C. jejuni.     

Isolation and characterization of Campylobacter flagellins.

Sequential acid pH dissociation, differential ultracentrifugation, and neutral pH reassociation were used to partially purify serotypically distinct flagella from three strains of Campylobacter jejuni and the two antigenic phases of flagella of Campylobacter coli VC167. Each C. jejuni flagellin and C. coli VC167 antigenic phase 1 flagellin were purified to homogeneity by reverse-phase high-performance liquid chromatography with a C8 Spheri-10 column. C. coli VC167 antigenic phase 2 was purified to homogeneity by ion-exchange chromatography with a Mono-Q column. Amino acid compositional analysis put the C. jejuni flagellin molecular weight in the range 63,200 to 63,800 and the C. coli antigenic phase 1 and 2 flagellins at 61,500 and 59,500, respectively. The amino acid compositions of the C. jejuni were similar to each other and to the C. coli VC167 antigenic phase 1 and phase 2 flagellins. One-dimensional peptide mapping of the C. jejuni flagellins by partial digestion with trypsin or chymotrypsin confirmed the structural similarities of the C. jejuni flagellins and the C. coli VC167 antigenic phase 1 flagellin and showed that C. coli VC167 antigenic phase 2 flagellin was structurally distinct from the phase 1 flagellin. The antigenic phase 2 flagellin was especially sensitive to digestion by chymotrypsin. Amino-terminal sequence analysis showed that the 20 N-terminal amino acids of the Campylobacter flagellins were highly conserved. The Campylobacter flagellins also shared limited sequence homology with the N-terminal sequences reported for Salmonella and Bacillus flagellins.     

Prevalence of putative virulence markers in Campylobacter jejuni and Campylobacter coli isolated from hospitalized children, raw chicken, and raw beef in Tehran, Iran

The incidence of the virulence-associated genes cdtA, cdtB, cdtC, cadF, dnaJ, racR, and pldA has been investigated in Campylobacter jejuni and Campylobacter coli collected from raw chicken and beef from retailers in Tehran, Iran, and from hospitalized children (age, ≤14 years) suffering from diarrhea. Campylobacter spp. were collectively identified by morphological and biochemical methods. Campylobacter jejuni and C. coli were discriminated from other Campylobacter spp. by amplification of a specific conserved fragment of the 16S rRNA gene. The distinction between C. jejuni and C. coli was subsequently made by molecular determination of the presence of the hipO gene in C. jejuni or the ask gene in C. coli. Fragments of the studied virulence-associated genes, cdtA, cdtB, cdtC, cadF, racR, dnaJ, and pldA, were amplified by PCR and subjected to horizontal gel electrophoresis. A total of 71 isolates of C. jejuni and 24 isolates of C. coli from meat were analyzed, while the numbers of isolates from the hospitalized children were 28 and 9, respectively. The unequal distribution of C. jejuni and C. coli in the samples has also been reported in other studies. Statistical analyses by the use of the two-tailed Fisher's exact test of the occurrence of the virulence genes in the isolates of different origins showed that the occurrence of the dnaJ gene was consistently significantly higher in all C. jejuni isolates than in C. coli. The occurrence of the other virulence markers did not differ significantly between species in the majority of the isolates. The PCR results also showed that the occurrence of the virulence markers in the analyzed isolates was much lower than in other studies, which may be caused by a divergent genomic pool of our isolates in comparison with others.     

Purification and characterization of a recombinant Haemophilus influenzae outer membrane phosphomonoesterase e (P4)

Haemophilus influenzae is a common inhabitant of the upper respiratory tract and can cause serious infections of mucosal surfaces. Results from recent studies indicate that this pathogen possesses copious amounts of surface-localized phosphomonoesterase activity mediated by the bacterial lipoprotein e (P4). While the enzyme has previously been purified to apparent homogeneity, purification of large amounts of protein has been prevented by presence of N-terminal lipid modification. Recombinant DNA technology was employed to simultaneously replace the N-terminal lipid modification signal sequence with one for protein secretion without such modification and to place expression of the protein under the control of the T7-inducible promoter. Results from this work show that high levels of phosphomonoesterase activity were achieved after IPTG induction and purified to apparent homogeneity after two chromatography steps. Consistent with loss of the N-terminal lipid modification, the recombinant enzyme was easily extracted from the bacterial membrane and partitioned within the matrix of gel filtration chromatography resin while retaining a denatured molecular weight similar to that of wild-type e (P4). Results from physicochemical characterization suggest that the recombinant protein was similar to wild-type protein in SDS-PAGE-derived molecular weight, primary structure, substrate specificity, pH optimum, and sensitivity or resistance to various inhibitors. Acquisition of sufficient amounts of recombinant P4 was a prelude for studies to elucidate the structure and function of this unusual phosphomonoesterase.     

Active migration into the subcellular space precedes Campylobacter jejuni invasion of epithelial cells

The bacterial pathogen Campylobacter jejuni invades mucosal cells via largely undefined and rather inefficient (0.01–2 bacteria per cell) mechanisms. Here we report a novel, highly efficient C. jejuni infection pathway resulting in 10–15 intracellular bacteria per cell within 3 h of infection. Electron microscopy, pulse–chase infection assays and time-lapse multiphoton laser confocal microscopy demonstrated that the mechanism involved active and rapid migration of the pathogen into the subcellular space (termed 'subvasion'), followed by bacterial entry ('invasion') at the cell basis. Efficient subvasion was maximal after repeated rounds of selection for the subvasive phenotype. Targeted mutagenesis indicated that the CadF, JlpA or PEB1 adhesins were not required. Dissection of the selected and parental phenotypes by SDS-PAGE yielded comparable capsule polysaccharide and lipooligosaccharide profiles. Proteomics revealed reduced amounts of the chemotaxis protein CheW for the subvasive phenotype. Swarming assays confirmed that the selected phenotype exhibited altered migration behaviour. Introduction of a plasmid carrying chemotaxis genes into the subvasive strain yielded wild-type subvasion levels and migration behaviour. These results indicate that alterations in the bacterial migration machinery enable C. jejuni to actively penetrate the subcellular space and gain access to the cell interior with unprecedented efficiency.     

Prevalence of pathogenic genes of Campylobacter jejuni isolated from humans in Poland between 2003-2005

Campylobacter jejuni is an important cause of food-borne gastroenteritis and enteritis in humans in many developed countries. Several C. jejuni virulence determinants have been identified. The purpose of our experiments was to determine the prevalence of virulence and toxin genes cadF, flaA, cdtA, cdtB, cdtC, cdtABC, virB11 among 102 C. jejuni isolates isolated in Poland between 2003 and 2005 from humans with diarrhea. The PCR analysis of the strains revealed the presence of the flaA and the cadF genes among all C. jejuni isolates. Detection rates for the cdtA, cdtB, cdtC and cdtABC cluster genes were 98, 96, 92 and 88% respectively. The virB11 gene was found in only 3% of the isolates. The high prevalence of cadF, flaA and cdt genes demonstrated that these genes may play an important role in C. jejuni virulence. Further research is necessary to clarify the importance of the virB11 gene in the pathogenesis of infections with C. jejuni strains in humans.     

PCR detection of seven virulence and toxin genes of Campylobacter jejuni and Campylobacter coli isolates from Danish pigs and cattle and cytolethal distending toxin production of the isolates

AIMS: To study the prevalence of seven virulence and toxin genes, and cytolethal distending toxin (CDT) production of Campylobacter jejuni and C. coli isolates from Danish pigs and cattle. METHODS AND RESULTS: The presence of the cadF, ceuE, virB11, flaA, cdtA, cdtB, cdtC and the cdt gene cluster among 40 C. jejuni and C. coli isolates was detected by polymerase chain reaction. The CDT production of the isolates was determined on Vero, colon 205 and chicken embryo cells. The cadF, flaA, ceuE and cdtB genes were detected from 100% of the isolates. The cdtA and cdtC genes were found in 95.0 and 90.0% of the isolates, respectively. The cdt gene cluster was detected in 82.5% isolates. Only 7.5% of the isolates were positive for virB11. Ninety-five per cent of the isolates produced CDT in Vero and colon 205 cell assays, and 90% of the isolates produced CDT in chicken embryo cell assays. CONCLUSIONS: High prevalence of the cadF, ceuE, flaA and cdtB genes was found. Data of the prevalence of cdt genes was consistent with the CDT titres produced by the isolates. Campylobacter coli from pigs produced high CDT titres. SIGNIFICANCE AND IMPACT OF THE STUDY: The high prevalence of seven virulence and toxin genes demonstrated that these putative pathogenic determinants are widespread among Campylobacter isolates from pigs and cattle. Campylobacter coli isolates from pigs produced much higher CDT titres compared with C. coli isolates from other sources suggesting that C. coli may be particularly adapted to or associated with this species.     

Identification, purification, and characterization of major antigenic proteins of Campylobacter jejuni

Evidence from developing countries and volunteer studies indicates that immunity to Campylobacter jejuni and Campylobacter coli may be acquired, but the antigenic basis for this protection is poorly defined. We have purified to homogeneity four proteins with molecular weights of 28,000 (PEB1), 29,000 (PEB2), 30,000 (PEB3), and 31,000 (PEB4) from epidemic C. jejuni strain 81-176 using acid extraction and sequential ion-exchange, hydrophobic interaction, and gel filtration chromatography. The relative amino acid compositions of these four proteins are similar. NH2-terminal sequence analysis indicates that all four proteins are different, although the first 35 amino acids of PEB2 and PEB3 are 51.4% homologous. Isoelectric focusing showed that all four are basic proteins with pI of 8.5 for PEB1 protein and greater than 9.3 for the others. Use of the purified proteins as antigens in an IgG enzyme-linked immunosorbent assay (ELISA) found that seroconversion to the PEB1 or PEB3 proteins occurred in 15 of 19 patients with sporadic C. jejuni or C. coli infection. In comparison, only two, six, and 14 of these patients seroconverted to PEB2, PEB4, or the acid extract antigen. In an ELISA with whole bacterial cells as antigens, antiserum to the acid-extracted antigens showed broad recognition of C. jejuni, C. coli, C. fetus, C. lari, and Helicobacter pylori. Antiserum to PEB1 recognized all 35 C. jejuni and all 15 C. coli strains but none of the isolates of the other three bacterial species. The PEB1 and PEB3 proteins appear to be candidate antigens for both a Campylobacter vaccine and for serological assays for the pathogen.     

Overproduction and large-scale preparation of deoxyuridine triphosphate nucleotidohydrolase from Escherichia coli

A recombinant plasmid, pHW1, directing the overproduction of the enzyme deoxyuridine 5'-triphosphate nucleotidohydrolase (dUTPase, EC 3.6.1.23) from Escherichia coli has been constructed. A 1900-base DNA fragment carrying the structural gene for the enzyme (dut) has been recloned into a runaway replication vector that also carries the strong leftward promoter (pL) of bacteriophage lambda. Upon temperature shift, an E. coli strain carrying the new plasmid gives an increase in dUTPase activity of about 600-fold in rich medium compared to wild-type bacteria. The 64-kDa protein corresponding to the mature form of the enzyme reaches 20% of the total protein content of the bacterial cell. Using this strain, a simplified procedure has been developed for the purification of dUTPase. The purification steps consist of extraction of the cytoplasmic proteins, ammonium sulfate precipitation, anion-exchange chromatography and gel filtration on FPLC. The new overproducing plasmid and the simplified purification procedure developed will make it possible to purify dUTPase in sufficient amounts for detailed characterization studies.     

A rapid procedure to isolate isotopically labeled peptides for NMR studies: application to the Disabled‐2 sulfatide‐binding motif

A procedure for obtaining isotopically labeled peptides, by combining affinity chromatography, urea‐equilibrated gel filtration, and hydrophobic chromatography procedures, is presented using the Disabled‐2 (Dab2) sulfatide‐binding motif (SBM) as a proof of concept. The protocol is designed to isolate unstructured, membrane‐binding, recombinant peptides that co‐purify with bacterial proteins (e.g., chaperones). Dab2 SBM is overexpressed in bacteria as an isotopically labeled glutathione S‐transferase (GST) fusion protein using minimal media containing [¹⁵N] ammonium chloride as the nitrogen source. The fusion protein is purified using glutathione beads, and Dab2 SBM is released from GST using a specific protease. It is then dried, resuspended in urea to release the bound bacterial protein, and subjected to urea‐equilibrated gel filtration. Urea and buffer reagents are removed using an octadecyl column. The peptide is eluted with acetonitrile, dried, and stored at ?80 °C. Purification of Dab2 SBM can be accomplished in 6 days with a yield of ~2 mg/l of culture. The properties of Dab2 SBM can be studied in the presence of detergents using NMR spectroscopy. Although this method also allows for the purification of unlabeled peptides that co‐purify with bacterial proteins, the procedure is more relevant to isotopically labeled peptides, thus alleviating the cost of peptide production. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Isolation of a gene that is involved in Campylobacter jejuni 81116 cytotoxin activation

Cytotoxin fractions were isolated from Campylobacter jejuni 81116 and semi-purified by size-exclusion liquid chromatography. The fraction showing the strongest toxicity was injected into mice to produce antiserum. The antiserum was used to screen a C. jejuni 81116 cosmid library. Nine genes were identified in overlapping cosmid inserts that induced reactivity with the antiserum. One of these genes showed high similarity to a periplasmic protein of unknown function and its isogenic mutant showed decreased toxicity compared to the C. jejuni 81116 wild type. This gene contains a Gram-negative bacterial RTX toxin-activating protein C signature, which suggests it may play a role in C. jejuni 81116 cytotoxin activation.     

Expression and purification of histidine-tagged proteins from the gram-positive Streptococcus gordonii SPEX system

Streptococcus gordonii (S. gordonii) has been used as a gram-positive bacterial expression vector for secreted or surface-anchored recombinant proteins. Fusion of the gram-positive bacterial N-terminal signal sequence to the target protein is all that is required for efficient export. This system is termed SPEX for Surface Protein EXpression and has been used to express proteins for a variety of uses. In this study, the SPEX system has been further developed by the construction of vectors that express polyhistidine-tagged fusion proteins. SPEX vectors were constructed with an N-terminal or C-terminal histidine tag. The C-repeat region (CRR) from Streptococcus pyogenes M6 protein and the Staphylococcus aureus nuclease A (NucA) enzyme were tested for expression. The fusion proteins were purified using metal affinity chromatography (MAC). Results show that the fusion proteins were expressed and secreted from S. gordonii with the His tag at either the N- or C-terminal position and could be purified using MAC. The M6 fusions retained immunoreactivity after expression and purification as determined by immunoblots and ELISA analyses. In addition, NucA fusions retained functional activity after MAC purification. The M6-His and NucA-His fusions were purified approximately 15- and 10-fold respectively with approximately 30% recovery of protein using MAC. This study shows that the polyhistidine tag in either the N- or C-terminal position is a viable way to purify secreted heterologous proteins from the supernatant of recombinant S. gordonii cultures. This study further illustrates the value of the SPEX system for secreted expression and purification of proteins.     

Specific detection and confirmation of Campylobacter jejuni by DNA hybridization and PCR.

Conventional detection and confirmation methods for Campylobacter jejuni are lengthy and tedious. A rapid hybridization protocol in which a 1,475-bp chromogen-labelled DNA probe (pDT1720) and Campylobacter strains filtered and grown on 0.22-micron-pore-size hydrophobic grid membrane filters (HGMFs) are used was developed. Among the environmental and clinical isolates of C. jejuni, Campylobacter coli, Campylobacter jejuni subsp. doylei, Campylobacter lari, and Arcobacter nitrofigilis and a panel of 310 unrelated bacterial strains tested, only C. jejuni and C. jejuni subsp. doylei isolates hybridized with the probe under stringent conditions. The specificity of the probe was confirmed when the protocol was applied to spiked skim milk and chicken rinse samples. Based on the nucleotide sequence of pDT1720, a pair of oligonucleotide primers was designed for PCR amplification of DNA from Campylobacter spp. and other food pathogens grown overnight in selective Mueller-Hinton broth with cefoperazone and growth supplements. All C. jejuni strains tested, including DNase-producing strains and C. jejuni subsp. doylei, produced a specific 402-bp amplicon, as confirmed by restriction and Southern blot analysis. The detection range of the assay was as low as 3 CFU per PCR to as high as 10(5) CFU per PCR for pure cultures. Overnight enrichment of chicken rinse samples spiked initially with as little as approximately 10 CFU/ml produced amplicons after the PCR. No amplicon was detected with any of the other bacterial strains tested or from the chicken background microflora. Since C. jejuni is responsible for 99% of Campylobacter contamination in poultry, PCR and HGMF hybridization were performed on naturally contaminated chicken rinse samples, and the results were compared with the results of conventional cultural isolation on Preston agar. All samples confirmed to be culture positive for C. jejuni were also identified by DNA hybridization and PCR amplification, thus confirming that these DNA-based technologies are suitable alternatives to time-consuming conventional detection methods. DNA hybridization, besides being sensitive, also has the potential to be used in direct enumeration of C. jejuni organisms in chicken samples.     

Identification and molecular cloning of a gene encoding a fibronectin-binding protein (CadF) from Campylobacter jejuni

Campylobacter jejuni , a Gram-negative bacterium, is a common cause of gastrointestinal disease. By analogy with other enteric pathogens such as Salmonella and Shigella , the ability of C. jejuni to bind to host cells is thought to be essential in the pathogenesis of enteritis. Scanning electron microscopy of infected INT407 cells suggested that C. jejuni bound to a component of the extracellular matrix. Binding assays using immobilized extracellular matrix proteins and soluble fibronectin showed specific and saturable binding of fibronectin to C. jejuni . Ligand immunoblot assays using ¹²⁵I-labelled fibronectin revealed specific binding to an outer membrane protein with an apparent molecular mass of 37 kDa. A rabbit antiserum, raised against the gel-purified protein, reacted with a 37 kDa protein in all C. jejuni isolates ( n  = 15) as tested by immunoblot analysis. Antibodies present in convalescent serum from C. jejuni -infected individuals also recognized a 37 kDa protein. The gene encoding the immunoreactive 37 kDa protein was cloned and sequenced. Sequencing of overlapping DNA fragments revealed an open reading frame (ORF) that encodes a protein of 326 amino acids with a calculated molecular mass of 36 872 Da. The deduced amino acid sequence of the ORF exhibited 52% similarity and 28% identity to the root adhesin protein from Pseudomonas fluorescens . Isogenic C. jejuni mutants which lack the 37 kDa outer membrane protein, which we have termed CadF, displayed significantly reduced binding to fibronectin. Biotinylated fibronectin bound to a protein with an apparent molecular mass of 37 kDa in the outer membrane protein extracts from wild-type C. jejuni as judged by ligand-binding blots. These results indicate that the binding of C. jejuni to fibronectin is mediated by the 37 kDa outer membrane protein which is conserved among C. jejuni isolates.     

A novel method for the purification of low soluble recombinant C-type lectin proteins

Snake venoms contain a complex mixture of many biological molecules including proteins. The purification of recombinant proteins is a key step in studying their function and structure with affinity chromatography as the common method used in their purification. In bacterial expression systems, hydrophobic recombinant proteins are usually precipitated into inclusion bodies, and contaminants are typically associated with tagged proteins after purification. The purpose of this study was to develop a procedure to purify hydrophobic recombinant proteins without an affinity tag. Snake venom mature C-type lectin-like proteins (CLPs) with a tag were cloned, expressed, and purified by repeated sonication and wash steps. The effects of the signal peptide on the expression and solubility of the recombinant protein were investigated. The CLPs in washed inclusion bodies were solubilized and refolded by dialysis. The CLPs without a tag were successfully purified with a yield 38 times higher than the traditional method, and inhibited blood platelet aggregation with an IC(50) of 100.57μM in whole blood. This novel procedure is a rapid, and inexpensive method to purify functional recombinant hydrophobic CLPs from snake venoms useful in the development of drug therapies.     

Genes coding for virulence determinants of Campylobacter jejuni in human clinical and cattle isolates from Alberta, Canada, and their potential role in colonization of poultry

Forty nine Campylobacter jejuni isolates from cattle feces collected from Alberta feedlots and 50 clinical C. jejuni isolates from people in Alberta were tested for the presence of 14 genes encoding putative virulence factors by PCR. These included genes implicated in adherence and colonization (flaC, cadF, docC, racR, jlpA, peb1, and dnaJ), invasion (virB11, ciaB, pldA, and iamA) and protection against harsh conditions (htrA, cbrA, and sodB). The genes examined were widely distributed in both the cattle fecal isolates and the human isolates. Of the isolates tested, 67% contained all of the genes except virB11. The cadF gene was found in 100% of the isolates tested. The presence or absence of virulence-associated genes was not associated with the ability of the organism to colonize birds. All of the C. jejuni isolates used to challenge birds were able to colonize the animals regardless of virulence gene profile. While some diversity in the profile of the occurrence of virulence-associated genes in C. jejuni exists, the distribution of these putative virulence-associated genes isolates from feedlot cattle feces and humans in Alberta was similar. In addition it was not possible to predict the ability of the selected isolates to colonize young chicks based on the presence of these genes coding for virulence determinants.