Comparison of virulence factors and R plasmids of Salmonella spp. isolated from healthy and ill swine

The antibiotic resistance and virulence profiles of Salmonella spp. isolated from healthy (group 1) and ill (group 2) swine were compared. Parameters studied included colicin and siderophore production; mannose-sensitive hemagglutination of erythrocytes; resistance to the lethal effect of serum complement; resistance to antibiotics; and the transmissibility of these characteristics to recipient organisms. Group 1 (19 isolates) had 14 serotypes, and group 2 (20 isolates) had 2 serotypes. Isolates from group 2 were resistant to more antibiotics and had a greater ability to hemagglutinate erythrocytes and transfer R plasmids to recipient organisms, but a lesser ability to produce siderophore than group 1. All 39 isolates resisted the lethal effects of serum complement. Colicin was produced by 1 of 19 from group 1 and 0 of 20 from group 2. A donor Escherichia coli isolated from a pig with enteritis transferred R plasmids to 62% of group 1 and 0% of group 2 Salmonella spp. when they were used as recipient organisms. A transconjugant from the mating of donor E. coli to a group 1 Salmonella spp. was further able to pass an R plasmid to recipient E. coli and salmonellae. Plasmid isolation from group 1 yielded 1 of 19 strains with a 56-megadalton plasmid, while 20 of 20 strains from group 2 contained three to five plasmids from 2.4 to 60 megadaltons in size.     

Comparison of virulence gene profiles of Escherichia coli strains isolated from healthy and diarrheic swine

A combination of uni- and multiplex PCR assays targeting 58 virulence genes (VGs) associated with Escherichia coli strains causing intestinal and extraintestinal disease in humans and other mammals was used to analyze the VG repertoire of 23 commensal E. coli isolates from healthy pigs and 52 clinical isolates associated with porcine neonatal diarrhea (ND) and postweaning diarrhea (PWD). The relationship between the presence and absence of VGs was interrogated using three statistical methods. According to the generalized linear model, 17 of 58 VGs were found to be significant (P < 0.05) in distinguishing between commensal and clinical isolates. Nine of the 17 genes represented by iha, hlyA, aidA, east1, aah, fimH, iroN(E. coli), traT, and saa have not been previously identified as important VGs in clinical porcine isolates in Australia. The remaining eight VGs code for fimbriae (F4, F5, F18, and F41) and toxins (STa, STb, LT, and Stx2), normally associated with porcine enterotoxigenic E. coli. Agglomerative hierarchical algorithm analysis grouped E. coli strains into subclusters based primarily on their serogroup. Multivariate analyses of clonal relationships based on the 17 VGs were collapsed into two-dimensional space by principal coordinate analysis. PWD clones were distributed in two quadrants, separated from ND and commensal clones, which tended to cluster within one quadrant. Clonal subclusters within quadrants were highly correlated with serogroups. These methods of analysis provide different perspectives in our attempts to understand how commensal and clinical porcine enterotoxigenic E. coli strains have evolved and are engaged in the dynamic process of losing or acquiring VGs within the pig population.     

The virulence plasmids of Salmonella.

Certain Salmonella serovars belonging to subspecies I carry a large, low-copy-number plasmid that contains virulence genes. Virulence plasmids are required to trigger systemic disease; their involvement in the enteric stage of the infection is unclear. Salmonella virulence plasmids are heterogeneous in size (50-90 kb), but all share a 7.8 kb region, spv, required for bacterial multiplication in the reticuloendothelial system. Other loci of the plasmid, such as the fimbrial operon pef, the conjugal transfer gene traT and the enigmatic rck and rsk loci, may play a role in other stages of the infection process. The virulence plasmid of Salmonella typhimurium LT2 is self-transmissible; virulence plasmids from other serovars, such as Salmonella enteritidis and Salmonella choleraesuis, carry incomplete tra operons. The presence of virulence plasmids in host-adapted serovars suggests that virulence plasmid acquisition may have expanded the host range of Salmonella.     

R plasmids with thermosensitive transferability in Salmonella strains isolated from humans.

Temperature dependence of transfer was examined with ten R plasmids originating from clinical isolates of Salmonella. Six of the plasmids were thermosensitive upon transfer, five of which were originally harbored in S. typhimurium and the remaining one in S. derby. One of these plasmids, pNR502, which conferred resistance to kanamycin, streptomycin (Sm) and tetracycline (Tc) on its host was stably maintained both in Salmonella and Escherichia coli at either 30, 37, or 43 C. Another plasmid, pNR516, which was resistant to chloramphenicol, sulfathiazole, Sm and Tc, was slightly unstable only at 43 C. The remaining four plasmids, pNR503, pNR510, pNR512 and pNR514, conferred resistance to Sm and Tc. Of these plasmids, the former two were stably maintained at both 30 and 37 C, but were unstable at 43 C. The latter two were slightly unstable at the lower temperatures and considerably unstable at 43 C. Kinetics of the transfer of the plasmid pNR503 revealed that the efficiency of transfer of the plasmid between E. coli strains was affected not only by the temperature of the conjugation but also by the preincubation temperature of the donor culture before the conjugation.     

Distribution of "classic" virulence factors among Salmonella spp

Whether an infection with Salmonella spp. leads to a disease largely depends on the virulence of the strain and the constitution of the host. The virulence of the strain is determined by so-called virulence factors. Whereas a number of virulence factors of Salmonella have been identified only recently, others have been studied for decades. These latter virulence factors i.e., virulence-plasmids, toxins, fimbriae and flagella are therefore referred to as "classic" virulence factors. Here we present an overview on the distribution of (genes coding for) these virulence factors among Salmonella spp. The pathogenicity islands of Salmonella are also reviewed, all be it briefly, since they contain a major part of the virulence genes.     

Temperature sensitive R plasmids isolated from Proteus strains.

Out of 32 R plasmids isolated from Proteus strains, 17 were found to be temperature sensitive with respect to inheritance in E. coli cells. They were fi- and classified into incompatibility group T or V. Cells carrying T group Rms273 plasmid were temperature sensitive with respect to growth and conjugal transfer in both E. coli and Proteus. The V group YOR-10 plasmid was stable in Proteus even at 42 C. However, the loss frequency of YOR-10 plasmid in E. coli reached 100% after 4 hr of incubation at 42 C, in spite of stable inheritance at 25 C. Conjugal transfer of the YOR-10 plasmid in E. coli was also strongly inhibited at 42 C. It has been concluded that instability of V group R plasmids in E. coli is due to their thermosensitive inheritance in the progeny cells at high temperatures.     

Prevalence of the virulence plasmids of nontyphoid Salmonella in the serovars isolated from humans and their association with bacteremia.

To determine if the virulence plasmid is one of the elements contributing to Salmonella bacteremia in humans, 436 clinical Salmonella isolates of different serovars were examined by a specific multiplex polymerase chain reaction assay for the presence of a virulence plasmid. These serovars showed differences in their ability to produce particular disease syndrome in humans. In the serovars usually causing bacteremia without concomitant gastroenteritis (primary bacteremia), i.e., S. choleraesuis, S. dublin, and S. enteritidis in this study, the rate of virulence plasmid carriage was 100%, while among those occasionally generating bacteremia following an episode of gastroenteritis (secondary bacteremia), the majority were plasmidless. Only a portion of S. typhimurium strains harbored a virulence plasmid; however, the rates of virulence plasmid carriage in S. typhimurium were not statistically different between non-fecal and fecal isolates (90% vs. 85%, 0.1 < P < 0.9). These results indicate that the virulence plasmids may be important for primary bacteremia, but not secondary bacteremia, to occur.     

Proposed virulence factors among coagulase-negative staphylococci isolated from two healthy populations

Proposed virulence factors, including multiple antibiotic resistance and slime-mediated adherence, among coagulase-negative staphylococci colonizing healthy individuals from two different study populations were examined. Resistance to methicillin was more commonly seen than initially anticipated. In addition, adherence characteristics, as quantitated by a microtiter plate method, were very similar to those of strains of coagulase-negative staphylococci causing nosocomial infections.     

A common virulence region on plasmids from eleven serotypes of Salmonella

Cured derivatives of Salmonella dublin and S. typhimurium showed reduced virulence following oral infection of mice (10(4)-10(5)-fold for S. dublin, 10(2)-fold for S. typhimurium). Large plasmids from S. dublin and S. typhimurium independently restored virulence to the cured S. dublin but truncated S. dublin plasmids with deletions in a previously identified virulence region did not. This common virulence region identified in plasmids from S. dublin and S. typhimurium was shown to be carried on plasmids from 11 other serotypes of Salmonella but was absent from 10 plasmid-containing serotypes. TnA and Tn10 were transduced from the virulence region of two TnA-insertion mutants of S. dublin and one Tn10-insertion mutant of S. typhimurium that showed diminished virulence to recipient wild-type strains of S. dublin, S. enteritidis and S. typhimurium. Each transductant showed a decrease in mouse virulence within the range 10(3)-10(5). It is therefore proposed that similar virulence determinants are expressed in different serotypes. It was also shown that integration that occurred during curing was Tn10 dependent.     

Conjugal transfer of R plasmids to and from Enterobacteriaceae isolated from sewage.

The potential of the transfer of natural plasmids between sewage strains has been studied. In vitro transfer was conducted at 37 degrees C in tryptone soya broth and sterile raw sewage as mating media. In situ transfer was carried out in sterile raw sewage within membrane diffusion chambers at 10.6 degrees C. When the recipient was a laboratory strain of Escherichia coli K-12, the in situ frequency values were significantly lower (P less than 0.001) than those obtained in vitro for the same mating pair. When the laboratory recipient was replaced with recipients from the same sewage source, frequency values decreased progressively from the optimum conditions to the most adverse. However, in situ frequency values were higher than those for the same donors mated with a laboratory recipient.     

Serotypes and virulence factors of Shiga toxin-producing Escherichia coli isolated from healthy Norwegian sheep

AIMS: To characterize a number of Shiga toxin-producing Escherichia coli (STEC) isolates from sheep and to discuss the potential of these isolates as human pathogens. METHODS AND RESULTS: Twelve different O-groups and seven different H-types were identified by standard serotyping methods. The most common serotypes were O5:NM, O6:H10, O91:NM and O128:NM. Polymerase chain reaction (PCR) was used for the detection of virulence factor genes. Of 102 isolates, 86.3% carried stx1 and 83% of these were also positive in the stx1OX3-specific PCR. stx2 was carried by 55.9% of the isolates and 77.2% of these were also positive in the stx2d-specific PCR. The Vero cell assay showed high toxin production in 70.6% of the isolates. None of the isolates carried eae. CONCLUSIONS: The study supports the animal-host relationship suggested in other studies with STEC serogroups O5, O91 and O128 strongly associated with sheep. Most sheep STEC carry stx1OX3 (except O91) and the dominating stx2 variant is stx2d. One stx profile clearly dominates within a serotype. SIGNIFICANCE AND IMPACT OF THE STUDY: In spite of the predominance of certain sheep-associated STEC, sheep cannot be excluded as carriers of human pathogenic STEC.     

Effect of conjugative R plasmids on the virulence of antibiotic-sensitive Salmonella strains and their streptomycin-resistant mutants

The pathogenicity level of antibiotic sensitive and streptomycin resistant strains of S. typhimurium, S. paratyphi B and S. kottbus changed under the effect of identical R plasmids more frequently in contrary directions. The conjugative plasmids of antibiotic resistance widened the ranges of the virulence changes in the Salmonella serovars for albino mice. It was found that 7 out of 8 plasmids studied significantly decreased and increased the virulence of the antibiotic sensitive Salmonella strains. As a rule, R plasmids of various origin decreased the virulence of all the tested streptomycin chromosome resistant causative agents of salmonellosis.     

Effect of the R plasmids of Salmonella typhimurium strains of various origins on salmonella virulence

Antibiotic-multiresistant S. typhimurium strains, phagovars 20 and 25, of different origin (isolated in hospital infections transferred through everyday contacts and by alimentary route, as well as from samples taken from open water basins and sewage) have been found to carry both transmissible and nontransmissible R plasmids. The frequency of the transfer of R plasmids to Escherichia coli K-12 C 600 rif varies within 0.6 X 10(-5) and 0.7 X 10(-3) per donor cell. The direct transfer of plasmids to S. typhimurium has been mostly realized only in the presence of the mobilizing plasmid, the transfer frequency being 1.0 X 10(-7) to 2.2 X 10(-4) per donor cell. S. typhimurium transconjugates show decreased virulence in both enteral and intraperitoneal infection of mice.     

Importance of pre-enrichment media for isolation of Salmonella spp. from swine and poultry

The performance of two new (1-day) culture methods, Salmonella Enrichment Broth (SEB) and Revive, and an alternative pre-enrichment broth, designated Universal pre-enrichment broth (UB), was compared to the internationally accepted buffered peptone water (BPW). The study was directed towards detection of Salmonella in 100 faecal samples from porcine and 100 neck-skin samples from poultry. The sensitivity (number of positive cases per method among all the positive cases) of the conventional pre-enrichment in BPW was found to be 0.77 for swine and 0.66 for poultry samples, while a combination of the BPW method with parallel pre-enrichment of the same sample in UB resulted in high sensitivity for swine (0.92) and poultry (0.95) samples. A 2-h pre-enrichment in the non-selective Revive, followed by overnight enrichment in selective broth, resulted in a low sensitivity, particularly for the neck-skin samples (0.16, P=0.001). The SEB method in the porcine samples resulted in a sensitivity (0.71) comparable to the standard method (P=0.31). In conclusion, additional pre-enrichment of samples in UB may substantially increase the culture sensitivity. During routine screening of large numbers of samples, it may be advantageous to use SEB rather than standard culturing.     

Drug resistance and R plasmids in Pasteurella multocida isolates from swine

A total of 163 strains of Pasteurella multocida isolated from swine were examined for drug resistance and R plasmids. Strains resistant to sulfadimethoxine (Sar), ampicillin (Apr), streptomycin (Smr), kanamycin (Kmr), and chloramphenicol (Cpr) were found in 93.9, 1.8, 16.6, 1.2, and 10.4%, respectively. There were two patterns of drug resistance (Sar and SarCpr) in isolates from nasal cavities, and five patterns (Sar, SarSmr, SarSmrCpr, SarSmrApr, and SarSmrKmrCpr) in isolates from pneumonic lung specimens. Two isolates studied were proved to carry a nonconjugative R plasmid pJY2 or pJY8 with other unidentified plasmids, respectively. pJY2 (3.6 megadaltons) encoding resistance to SarSmr had one cleavage site for EcoRI or HindIII endonuclease and two sites for PstI endonuclease. pJY8 (5.5 megadaltons) encoding resistance to Sar SmrKmrCpr had one EcoRI site and two PstI sites.     

Characterization of antibiotic resistance genes linked to class 1 and 2 integrons in strains of Salmonella spp. isolated from swine

The aim of this study was to characterize the antibiotic resistance profiles, the integron-associated resistance determinants, and the potential ability of transferring these determinants by conjugation in Salmonella enterica isolated from swine. Fifty-four strains of Salmonella spp. were isolated from healthy swine. The percentages of resistance, determined by the plate dilution method were as follows: oxytetracycline (41%), streptomycin (39%), sulphamethoxazol+trimethoprim (19%), enrofloxacin-ciprofloxacin (13%), and amoxicillin (0%). The most important resistance serovars were Salmonella Branderburg, Salmonella Derby, Salmonella Typhimurium, and Salmonella Heidelberg. The oxytetracycline-resistant strains amplified the genes tetA (36%), tetB (64%); and the strains resistant to streptomycin and trimethoprim amplified the genes aadA1 (100%) and dfrA1 (100%), respectively. None of the fluoroquinolone-resistant strains amplified the gene qnr. Ten strains amplified the class 1 integron harboring the cassette aadA1. Six strains amplified the class 2 integron harboring the cassettes dfrA1, sat1, and aadA1. The conjugation assays showed that 2 strains transferred the tetA and aadA1 genes and the class 1 integron to a recipient strain. Taken together, the results obtained in this study show a high percentage of resistance in and the presence of integrons in strains of S. enterica isolated from swine. This information should support the implementation of regulations for the prudent use of antimicrobial agents in food-producing animals.     

Evidence for related virulence sequences in plasmids of Salmonella dublin and Salmonella typhimurium

Transposon-insertion mutants were prepared from virulent field isolates of Salmonella dublin and Salmonella typhimurium. Detailed restriction-enzyme mapping of the single sites of TnA insertion in two mutants (M51 and M173) of S. dublin that showed diminished virulence in a mouse assay indicated that these sites were about 5 kbp apart on the approximately 70 kbp plasmid harboured by the isolate. A Tn10-insertion mutant (M242) of S. typhimurium that showed diminished virulence was also identified. A single copy of Tn10 was inserted into the approximately 90 kbp plasmid harboured by this isolate. Hybridization studies indicated that homology existed between the region encompassing the sites of TnA insertion in M51 and M173 and that encompassing the site of Tn10 insertion in M242. Restriction mapping indicated that the two regions were very similar and could even be identical and, if so, the Tn10 insertion in M242 could be mapped to a point 1.5 kbp from the TnA insertion in M51 and 6.5 kbp from that in M173. It appeared that the maximal extent of the putative similarity/identity was between 13 and 23 kbp. It is proposed that this stretch of high homology could represent a virulence sequence that has been conserved during the evolutionary divergence of the two Salmonella serotypes.     

Conjugal transfer of R plasmids to and from Enterobacteriaceae isolated from sewage

A. FERNANDEZ-ASTORGA, A. FERNANDEZ DE ARANGUIZ, M. POCINO, A. UMARAN AND R. CISTERNA. 1992. The potential of the transfer of natural plasmids between sewage strains has been studied. In vitro transfer was conducted at 37°C in tryptone soya broth and sterile raw sewage as mating media. In situ transfer was carried out in sterile raw sewage within membrane diffusion chambers at 10.6°C. When the recipient was a laboratory strain of Escherichia coli K-12, the in situ frequency values were significantly lower ( P < 0.001) than those obtained in vitro for the same mating pair. When the laboratory recipient was replaced with recipients from the same sewage source, frequency values decreased progressively from the optimum conditions to the most adverse. However, in situ frequency values were higher than those for the same donors mated with a laboratory recipient.