Stuart C. Smith

Isolation and molecular analysis of colonising and non-colonising strains of Campylobacter jejuni and Campylobacter coli following experimental infection of young chickens

Fourteen-day-old chickens were inoculated with selected Campylobacter coli and C. jejuni strains. C. jejuni strains were of two subgroups based on a polymorphism detected using a DNA probe and represented the profiles typical for the majority of strains of either chicken or human origin. All C. coli strains previously isolated from humans colonised chickens, whereas from 4/7 C. jejuni strains of human origin, failed to colonise. Of 12 Campylobacter strains of chicken origin, 10 established a persistent colonisation in the chickens, and 2 strains colonised poorly or not at all. Four strains that failed to colonise chickens were each inoculated into groups of five birds. Three strains again did not colonise any of the chickens and the fourth strain colonised four out of the five chickens, but was poorly excreted. When infected chickens were placed in the same enclosure to facilitate interchange of strains, C. jejuni strain 331 was found to be dominant and colonised all 12 chickens by 21 days, displacing all other strains. C. jejuni strain 331, was then inoculated into groups of five birds with previously established colonisation by C. jejuni and C. coli strains. Strain 331 was able to replace the C. jejuni strain in all five birds but established co-colonisation with C. coli strain. Naturally occurring co-colonisation by two C. jejuni strains was detected in one chicken out of 200 tested. There was no obvious correlation between the type of DNA polymorphism in strains of chicken origin and their ability to colonise chickens.

Detection of a novel campylobacter cytotoxin

The culture filtrates from 10 Campylobacter species were screened for the presence of cytotoxins on a variety of selected tissue culture cell lines. Some Campylobacter jejuni strains showed no effects on tissue culture cell lines compared with other C. jejuni strains, especially C. jejuni 81116, which consistently produced a cytotoxin that was lethal to tissue culture cells. It was observed that CHO cells were the most sensitive cell line in detecting campylobacter cytotoxins. Samples containing the culture filtrate of C. jejuni 81116 prepared at various growth stages were used to determine the subcellular location of the cytotoxin. This C. jejuni 81116 cytotoxin appears to be a heat‐stable toxin that is secreted from the cell during stationary phase; cytotoxin activity can be abolished with proteolytic enzymes.

Bacterial expression of the major antigenic regions of porcine rotavirus VP7 induces a neutralizing immune response in mice.

The outer capsid protein of rotavirus, VP7, is a major neutralization antigen. A chimeric protein comprising Escherichia coli (E. coli) outer membrane protein A (OmpA) and part of porcine rotavirus VP7 containing all three antigenic regions (217 amino acids) was expressed in Salmonella and E. coli as an outer-membrane associated protein. Mice immunized intraperitoneally or orally, respectively, with live E. coli or Salmonella cells expressing this chimeric protein produced antibodies against native VP7 as determined by enzyme-linked immunosorbent assays and neutralization tests. This indicates that the VP7 fragment from a porcine rotavirus which is antigenically similar to human rotavirus serotype 3, when expressed in bacteria as a chimeric protein, can form a structure resembling its native form at least in some of the major neutralization domains. These results indicate that the use of a live bacterial vector expressing rotavirus VP7 may represent a strategy for the development of vaccines against rotavirus-induced diarrhoea in infants.

Biochemical and immunochemical characterisation of strains of Treponema hyodysenteriae

The protein composition of 18 clinical isolates of Treponema hyodysenteriae from pigs with swine dysentery in Australia were compared by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblot analysis. Coomassie Blue stained SDS-PAGE-profiles of whole cell and outer membrane (OM) proteins demonstrated the same gel pattern among the T. hyodysenteriae isolates, particularly the OM proteins in the molecular mass (Mr) range of 30 kDa to 40 kDa. The T. hyodysenteriae isolates were categorised into two distinct groups (A and B) based on the strain-variability in the 37 kDa OM protein. Immunoblotting of whole cell proteins after SDS-PAGE using serum from rabbits and pigs immunised with known T. hyodysenteriae serotypes revealed a number of common immunoreactive bands in all isolates. LPS typing of the T. hyodysenteriae isolates by immunoblotting with the rabbit antiserum revealed one additional serotype emphasising the LPS heterogeneity among the strains isolated from geographic locations in Australia, Great Britain and the U.S.A. Immunoblotting of the OM preparations revealed several common immunoreactive polypeptides corresponding to Mr values of 34 kDa to 30 kDa among the T. hyodysenteriae and T. innocens isolates but a distinct 39 kDa found only in the T. hyodysenteriae isolates. Trypsin proteolysis of intact. T. hyodysenteriae cells caused selective loss of these and other major abundant proteins identifying the location of the 39 kDa, 36 kDa, 34 kDa and 30 kDa proteins on the cell surface and suggesting a possible role of these proteins in the pathogenesis of swine dysentery.

Antibacterial proteins from porcine polymorphonuclear neutrophils

Antibacterial peptides were purified from porcine neutrophil granules collected from healthy pigs. Granule proteins, extracted with 0.2 mol/L sodium acetate, were subjected to ion‐exchange chromatography and five peaks (designated A to E) were detected. Individual porcine neutrophil granule proteins were shown to inhibit the growth of target organisms Escherichia coli and Staphylococcus aureus. The antimicrobial activity was shown to be concentration and time dependent. Peak D showed strong antimicrobial activity against S. aureus and peak C (with a greater number of eluted proteins) was shown to be active against both S. aureus and E. coli. One of the peptides was purified further by reverse‐phase HPLC from peak fraction C. The MW of this peptide was approximately 5500 Da as determined by SDS‐PAGE and mass spectral analysis and was active against both E. coli and S. aureus in vitro sustaining a > 90% decrease, respectively, in CFU after a 2 h exposure with 50 μg of this peptide. Amino acid analysis showed the peptide was rich in aspartate/aspartic acid, glutamine/glutamic acid, proline, arginine and threonine. The antimicrobial activity of this peptide and other novel proteins in porcine neutrophilic granules demonstrates the probable role of these proteins and peptides in host defence of porcine neutrophils against bacterial infection.

Characterization of immunorelated peptides to porcidin P1.

Porcidin P1, an antimicrobial peptide purified from the granules of porcine polymorphonuclear neutrophils (PMN) using ultrafillration and reverse phase high performance liquid chromatography (RPHPLC), was covalently conjugated to BSA and used to generate monospecific polyclonal ascites. Antibodies raised against porcidin P1 were covalently coupled to an Affi‐gel Hz affinity column and used for immunoaffinity chromatography of peptides from porcine PMN cell extract. Eleven immunorelated peptides were eluted from the column from neutrophil cell extracts and purified to homogeneity by HPLC. The molecular weights of the immunorelated peptides were determined by mass spectral analysis and ranged in size from 1.91 to 10.65 kDa. Of the II immunorelated peptides which were bound to the affinity column, only six peptides were recognized by the anti‐porcidin antibodies after HPLC purification. Three immunoreactive peptides displayed potent antibacterial activity towards Staphylococcus aureus and Escherichia coli. reducing viability by as much as 99.9% (> 3 log reduction in CFU) when 5 μg/mL of each purified peptide was used. The polydonal monospecific antibodies also reacted with proteins from ovine and human PMN, illustrating possible structural relationships between small antibacterial peptides from the different species.

Identification of a Salmonella typhimurium genomic region involved in invasion of HeLa and Henle‐407 epithelial cells

To identify the invasion determinant, a cosmid library was constructed by cloning a genomic library of Salmonella typhimurium 82/6915 into a cosmid vector, pLA2917. A genomic region involved in invasion of cultured HeLa and Henle‐407 cells was subcloned into plasmid pGEM‐7Z. E. coli strain DH1 carrying pSV6235 consisting of a S. typhimurium 4.6 kb genomic region in pGEM‐7Z showed invasion of cultured HeLa and Henle‐407 cells. Nested sequential deletions were introduced into the 4.6 kb genomic region of pSV6235. The E. coli recombinants which contained less than 1.5 kb deletions from the 5′ end (SmaI site) of the genomic region invaded the cells as effectively as DH1 (pSV6235). The invasion of the recombinants carrying over 2.0 kb deletions from the end of pSV6235 was significantly inactivated compared to DH1 (pSV6235). Restriction enzyme analysis showed that the 3.1 kb fragment from the 3′ end of the 4.6 kb genomic region was distinguished from the Salmonella pathogenicity I genes of S. typhimurium such as the inv, spa, and hil regions showing invasion of the cultured eukaryotic cells.