Michael P. Hays

A field evaluation of mortality rate and growth performance in pigs vaccinated against porcine circovirus type 2

OBJECTIVE To evaluate, under field conditions, the effects of a commercial porcine circovirus type 2 (PCV2) vaccine on mortality rate and growth performance in a herd infected with PCV2 that had a history of porcine circovirus disease. DESIGN Randomized controlled clinical trial. ANIMALS 485 commercial, cross-bred, growing pigs. PROCEDURES Prior to weaning, pigs were randomly assigned within litter to a vaccination or unvaccinated control group. Pigs in the vaccination group were given a commercial PCV2 vaccine at weaning and 3 weeks later. Mortality rate was recorded, and pigs were weighed prior to vaccination, when moved from the nursery, and prior to marketing. Infection status was assessed by serologic testing and detection of viral DNA in serum. RESULTS Compared with control pigs, pigs vaccinated against PCV2 had a significantly lower mortality rate during the finishing phase, significantly higher average daily gain during the finishing phase, and significantly lower likelihood of being lightweight at the time of marketing. For vaccinated pigs, overall mortality rate was reduced by 50% and average daily gain during the finishing period was increased by 9.3%. At the time of marketing, vaccinated pigs weighed an average of 8.8 kg (19.4 lb) more than control pigs, without any difference in days to marketing. Serum PCV2 antibody titers increased in control pigs, and PCV2 DNA was detected, indicating active PCV2 infection. CONCLUSIONS AND CLINICAL RELEVANCE Results suggested that vaccination against PCV2 was effective at reducing mortality rate and improving growth performance among pigs in a herd infected with PCV2.

Detection of Eperythrozoon suis using the polymerase chain reaction.

Eperythrozoon suis is an extracellular red blood cell parasite that causes icteroanemia in acutely ill pigs and a variety of syndromes in chronically infected pigs. Current techniques to detect E. suis infection are limited by variability of parasitemias and antibody responses in infected animals. The polymerase chain reaction (PCR) was investigated to determine its potential as a means of detecting E. suis infection in pigs. With DNA samples extracted from either purified E. suis organisms or E. suis-infected pig blood, PCR produced an amplification product 492 base pairs in length. This amplification product hybridized successfully with the fragment of the DNA probe from which the primer sequences had been selected. Sensitivity studies indicated that the PCR protocol was capable of amplifying total genomic E. suis DNA in quantities as low as 450 pg. When PCR was used with DNA from blood samples from a splenectomized pig that had been infected with E. suis, amplification products were detectable as early as 24 hours postinfection. This preliminary analysis indicates that PCR shows promise as a means of efficiently detecting E. suis infection in pigs.

Surface characteristics influencing bacterial adhesion to polymeric substrates

Superhydrophobic surfaces have been reported to reduce bacterial adhesion, but interactions between bacterial media and solid surfaces at the interface have rarely been associated with the solid area fraction (f) from the Cassie–Baxter wetting state. This study aimed to investigate the effective surface area for bacterial adhesion by analyzing the solid area fraction of surfaces where the bacterial medium is in contact with a solid surface. Also, the self-cleaning ability of the superhydrophobic surface against adhered bacteria was examined. The influences of roughness, surface energy, entrapped air, and surface charge of substrate materials on bacterial adhesion were examined, and the critical surface characteristics that are conducive to reducing Escherichia coli adherence to polymeric surfaces were determined. Moderate hydrophobicity with water contact angle of about 90° produced the highest level of bacterial adhesion. Entrapped air at the interface of superhydrophobic surfaces interfered with the direct contact of bacteria to solid surfaces, leading to less bacterial adhesion. The superhydrophobic surface with a reduced solid area fraction displayed self-cleaning ability, where initially-adhered bacteria were removed by washing. The superhydrophilic substrate with negative zeta potential exhibited limited bacterial binding, due to the reduced hydrophobic interaction and possible repulsive interaction between bacteria and surface. The findings of this study can be utilized for an effective surface design to circumvent bacterial adhesion as an alternative solution to using antibiotics.

Enhanced karyotype resolution of Cryptosporidium parvum by contour-clamped homogeneous electric fields

Previous karyotype analysis with contour-clamped homogeneous electric fields (CHEF) indicated that the Cryptosporidium parvum karyotype comprises a minimum of five chromosomes all less than 1.6 Mb in size. In this study we were able to improve the resolution of the karyotype using a modified CHEF gel electrophoretic procedure that allows for the routine identification of seven C. parvum chromosomes ranging in size from about 0.945 to 2.2 Mb. Our data also suggest that an eighth chromosome is present and comigrates with another chromosome at about 1.3 Mb.

Characteristic Differences in Reverse Transcription-Polymerase Chain Reaction Products of Ovine, Bovine, and Human Respiratory Syncytial Viruses

In reverse transcription-polymerase chain reactions (RT-PCR) and DNA hybridizations using primers and an oligonucleotide probe to the fusion (F) protein mRNA of bovine respiratory syncytial virus (BRSV), all the BRSV isolates and a goat isolate could be distinguished from prototype isolates of human respiratory syncytial viruses (HRSV) and ovine (sheep and bighorn sheep) respiratory syncytial viruses (RSV). However, RT-PCR amplifications with primers to sequences of the HRSV F protein mRNA resulted in amplified products of ≍ 243 bp if mRNA templates of subgroup A HRSV strains were present and slightly larger amplified products with subgroup B HRSV strains. No amplified products were observed in HRSV-primed RT-PCR with BRSV or goat or ovine RSV mRNA templates. Although the ovine RSV isolates were antigenically cross-reactive with the goat RSV, HRSV and BRSV isolates, they were not amplified with either HRSV- or BRSV-specific primers in RT-PCR. These results confirm previous immunological comparisons suggesting that some ovine RSV isolates should be considered as distinct respiratory syncytial viruses.

Detection of Escherichia coli O157:H7 in cattle feces using a polymerase chain reaction-based fluorogenic 5' nuclease (TaqMan) detection assay after secondary enrichment.

Currently, methods for recovering and identifying Escherichia coli O157:H7 from cattle feces are inconsistent and hindered by their inability to specifically and rapidly detect small numbers of organisms from this complex and highly variable matrix. A standard approach for isolating and characterizing E. coli O157:H7 from cattle feces was compared with a polymerase chain reaction (PCR)-based 5′ nuclease assay specific for E. coli O157:H7 that included a secondary enrichment step. The PCR-based method proved a better indicator of the presence of the organism than the culture procedure. Retests indicated that the inclusion of a secondary enrichment step and the subsequent analysis by the 5′ nuclease assay were reproducible and specific. Escherichia coli O157:H7 could be detected in fecal samples that were otherwise negative after a primary enrichment step, immunomagnetic separation, and plating onto sorbitol MacConkey agar plates containing cefixime and tellurite (CT-SMAC). In samples that were initially identified as culture positive but PCR negative, retesting of the culture isolates on CT-SMAC indicated that the sorbitol fermentation interpretations could frequently not be repeated in retests, whereas retesting using the 5′ nuclease assay on the original samples demonstrated a high level of agreement with the initial PCR conclusions. These results indicate the necessity of confirmatory evaluation of isolates culturally recovered by standard cultural methods that involve the interpretation of CT-SMAC. The high level of disagreement between initial culture results and retests, and the high level of agreement between initial PCR results and retests, indicates the advantages of a gene-based detection system for identifying E. coli O157:H7 in cattle feces. Screening large numbers of fecal samples for E. coli O157:H7 would appear to be feasible by integrating the use of enrichment media in serial rounds of incubation with a PCR-based fluorogenic detection procedure in high throughput detection systems that had automated liquid-handling capabilities.

Experimental infections and natural outbreaks of eperythrozoonosis in pigs identified by PCR-DNA hybridizations

Eperythrozoon-specific DNA amplification reactions and subsequent hybridizations with an eperythrozoon DNA probe (KSU-2) were used in experimental infection studies to identify Eperythrozoon suis DNA in the blood of splenectomized and nonsplenectomized pigs. The results indicate that E. suis DNA is present in nonsplenectomized pigs at levels that can be amplified by polymerase chain reaction (PCR) and identified in DNA hybridizations within 24 hours after infection. The ability of the E. suis PCR/hybridization assay to detect eperythrozoonosis was further demonstrated in blood samples collected from pigs in 2 separate natural outbreaks in Oklahoma. Results from these initial samplings indicate that pigs infected with E. suis from geographically distinct locations can be identified using the eperythrozoon-specific PCR/hybridization assay, which offers many advantages over conventional laboratory procedures for diagnosing eperythrozoonosis in pigs.

Vaccinating with conserved Escherichia coli antigens does not alter the mouse intestinal microbiome

BackgroundEnterotoxigenic Escherichia coli (ETEC) causes diarrheal disease. Antigenic and structural heterogeneity among ETEC colonization factors has complicated vaccine development efforts. Identifying and characterizing conserved ETEC antigens that induce protective immunity is therefore of interest. We previously characterized three proteins (MipA, Skp, and ETEC_2479) that protected mice in an intranasal ETEC challenge model after vaccination. However, these proteins are conserved not only in multiple ETEC isolates, but also in commensal bacteria. While the impact of inactivated viral vaccines and live-attenuated bacterial vaccines on the host microbiota have been examined, the potential impact of using subunit vaccines consisting of antigens that are also encoded by commensal organisms has not been investigated.FindingsWe addressed this issue by characterizing changes to mouse intestinal microbiomes as a function of vaccination. We failed to observe significant changes to mouse health, to mouse weight gain as a function of time, or to the diversity or richness of mouse intestinal microbiomes, as measured by analyzing alpha- and beta-diversity, as well as overall community structure, before and after vaccination.ConclusionsWe conclude that despite the conservation of MipA, Skp, and ETEC_2479 among Gram-negative bacteria, vaccination with these antigens fails to alter significantly the host intestinal microbiome.

Citrobacter rodentium NleB Protein Inhibits Tumor Necrosis Factor (TNF) Receptor-associated Factor 3 (TRAF3) Ubiquitination to Reduce Host Type I Interferon Production

Interferon signaling plays important roles in both intestinal homeostasis and in the host response to pathogen infection. The extent to which bacterial pathogens inhibit this host pathway is an understudied area of investigation. We characterized Citrobacter rodentium strains bearing deletions in individual type III secretion system effector genes to determine whether this pathogen inhibits the host type I IFN response and which effector is responsible. The NleB effector limited host IFN-β production by inhibiting Lys63-linked ubiquitination of TNF receptor-associated factor 3 (TRAF3). Inhibition was dependent on the glycosyltransferase activity of NleB. GAPDH, a target of NleB during infection, bound to TRAF3 and was required for maximal TRAF3 ubiquitination. NleB glycosyltransferase activity inhibited GAPDH-TRAF3 binding, resulting in reduced TRAF3 ubiquitination. Collectively, our data reveal important interplay between GAPDH and TRAF3 and suggest a mechanism by which the NleB effector inhibits type I IFN signaling.

Variable-number tandem-repeat analysis of leptospiral DNA isolated from canine urine samples molecularly confirmed to contain pathogenic leptospires

OBJECTIVE To use variable-number tandem-repeat (VNTR) analysis to determine the infecting serovar and strain for leptospiral DNA isolated from canine urine samples confirmed through PCR testing to contain pathogenic leptospires and to evaluate the sensitivity and specificity of microscopic agglutination testing (MAT) for identifying the infecting serogroup. DESIGN Diagnostic survey and test evaluation. SAMPLE Leptospiral DNA isolated from urine samples from 98 dogs confirmed through PCR testing to have pathogenic leptospires in their urine. PROCEDURES VNTR analysis of DNA isolates was performed to identify the infecting leptospiral serovar and strain by use of primer pairs for the loci 4, 7, 10, and Lb5. Eighteen pathogenic and 2 saprophytic leptospiral serovars were used as reference strains for VNTR analysis. Results of MAT were compared with those of the PCR assay and VNTR analysis to determine the sensitivity and specificity of MAT for diagnosing leptospirosis and identifying the infecting serovar at various reciprocal titers. RESULTS VNTR analysis identified Leptospira kirschneri serovar Grippotyphosa strain DF as the most common infecting serovar in dogs (78/98 [80%]). Thirteen unique VNTR patterns could not be identified by comparison with the Leptospira reference strains used. The MAT had a maximum sensitivity of 41% and a specificity of 100% for identifying Grippotyphosa as the infecting serogroup. CONCLUSIONS AND CLINICAL RELEVANCE Findings confirmed the importance of Leptospira serovar Grippotyphosa among dogs in the United States. Serologic testing had poor sensitivity for identifying the infecting serogroup, and conclusions about emerging serogroups should be cautiously interpreted when serologic data are reported.