Epidemiology, diagnostics, and management of tuberculosis in domestic cattle and deer in New Zealand in the face of a wildlife reservoir

The control of tuberculosis (TB) in cattle and farmed deer in New Zealand has been greatly influenced by the existence of a wildlife reservoir of Mycobacterium bovis infection, principally the Australian brushtail possum (Trichosurus vulpecula). The reduction in possum numbers in areas with endemic M. bovis infection through vigorous vector control operations has been a major contributor to the marked reduction in the number of infected cattle and farmed deer herds in the past two decades. Management of TB in cattle and farmed deer in New Zealand has involved a combination of vector control, regionalisation of diagnostic testing of cattle and deer herds, abattoir surveillance and movement control from vector risk areas. Accurate diagnosis of infected cattle and deer has been a crucial component in the control programme. As the control programme has evolved, test requirements have changed and new tests have been introduced or test interpretations modified. Subspecific strain typing of M. bovis isolates has proved to be a valuable component in the epidemiological investigation of herd breakdowns to identify whether the source of infection was domestic livestock or wildlife. New initiatives will include the use of improved models for analysing diagnostic test data and characterising disease outbreaks leading to faster elimination of infection from herds. The introduction of the National Animal Identification Tracing programme will allow better risk profiling of individual herds and more reliable tracing of animal movements. TB in cattle and farmed deer in New Zealand can only be controlled by eliminating the disease in both domestic livestock and the wildlife reservoir.

Use of ethanol extract of Mycobacterium bovis for detection of specific antibodies in sera of farmed red deer (Cervus elaphus) with bovine tuberculosis

Background

Bovine tuberculosis (bTB) in wildlife species poses a threat to domestic livestock in many situations. Control programs for bTB in livestock depend on testing and slaughtering the positive animals; however, the currently available diagnostic tests often have poor specificity. In our previous study, we developed a specific and sensitive enzyme linked immunosorbent assay (ELISA) for another mycobacterial disease – Johne’s disease, using surface antigens of Mycobacterium avium ssp. paratuberculosis (MAP) extracted by briefly agitating the bacilli in 80% ethanol solution. The ELISA test was named ethanol vortex ELISA (EVELISA). The objective of this study is to examine whether EVELISA technique could be used to specifically detect anti-Mycobacterium bovis (M. bovis) antibodies in the serum of M. bovis-infected farmed red deer (Cervus elaphus). We tested a total of 45 red deer serum samples, divided in 3 groups – uninfected animals (n = 15), experimentally infected with M. bovis (n = 15) and experimentally infected with MAP (n = 15).

Results

The presence of anti-M. bovis antibodies was tested using an ethanol extract of M. bovis. Without absorption of anti-MAP cross reactive antibodies, it was found that 13 out of the 15 MAP-infected animals showed high antibody binding. Using heat killed MAP as an absorbent of cross reactive antibodies, anti-M. bovis antibodies were detected in 86.7% of M. bovis-infected animals with minor false positive results caused by MAP infection.

Conclusions

The results from this study suggest that EVELISA may form a basis for a sensitive and specific test for the diagnosis of bTB in farmed red deer.

Global gene expression profiling of monocyte-derived macrophages from red deer (Cervus elaphus) genotypically resistant or susceptible to Mycobacterium avium subspecies paratuberculosis infection

Mycobacterium avium subspecies paratuberculosis (MAP) can cause a chronic inflammatory bowel disease, Johne's disease (JD), in ruminant animals. This study has explored the molecular basis of resistance and susceptibility to this disease in red deer breeds previously confirmed to express polarised phenotypes by experimental infection trials and following natural infection. Monocyte-derived macrophage cultures were obtained from uninfected red deer selected for either a resistant or susceptible phenotype. Cells were infected with MAP in vitro and gene expression analysed by RNA-Seq. Transcriptome analysis revealed a more disrupted gene expression profile in macrophages from susceptible animals compared with cells from resistant animals in terms of the number of genes up- or downregulated. Highly upregulated genes were related to chemotaxis (CXCL10, CSF3, and CCL8) and type 1 interferon signalling (RSAD2, IFIT1, IFIT2, ISG12, ISG15, USP18, and HERC6). Upregulation of these genes was observed to be greater in macrophages from susceptible animals compared to cells from resistant animals in response to in vitro MAP infection. These data support the use of transcriptomic approaches to enable the identification of markers associated particularly with susceptibility to MAP infection.

Innate immune markers that distinguish red deer (Cervus elaphus) selected for resistant or susceptible genotypes for Johne's disease

While many factors contribute to resistance and susceptibility to infectious disease, a major component is the genotype of the host and the way in which it is expressed. Johne’s disease is a chronic inflammatory bowel disease affecting ruminants and is caused by infection with Mycobacterium avium subspecies paratuberculosis (MAP). We have previously identified red deer breeds (Cervus elaphus) that are resistant; have a low rate of MAP infection and do not progress to develop Johne’s disease. In contrast, susceptible breeds have a high rate of MAP infection as seen by seroconversion and progress to develop clinical Johne’s disease. The aim of this study was to determine if immunological differences exist between animals of resistant or susceptible breeds. Macrophage cultures were derived from the monocytes of deer genotypically defined as resistant or susceptible to the development of Johne’s disease. Following in vitro infection of the cells with MAP, the expression of candidate genes was assessed by quantitative PCR as well as infection rate and cell death rate. The results indicate that macrophages from susceptible animals show a significantly higher upregulation of inflammatory genes (iNOS, IL-1α, TNF-α and IL-23p19) than the macrophages from resistant animals. Cells from resistant animals had a higher rate of apoptosis at 24 hours post infection (hpi) compared to macrophages from susceptible animals. The excessive expression of inflammatory mRNA transcripts in susceptible animals could cause inefficient clearing of the mycobacterial organism and the establishment of disease. Controlled upregulation of inflammatory pathways coupled with programmed cell death in the macrophages of resistant animals may predispose the host to a protective immune response against this mycobacterial pathogen.

Evidence of Mycobacterium avium subsp. paratuberculosis infection in Dutch farmed red deer

Paratuberculosis is a chronic disease in ruminants caused by Mycobacterium avium subsp. paratuberculosis (MAP). Most economic losses due to MAP occur in the dairy industry. However, the infection is not restricted to cattle, but also occurs in other ruminants, such as sheep, goat, and deer. Although deer are of minimal economic importance in The Netherlands, they may constitute a source of infection for the dairy industry. This pilot study was conducted to estimate the prevalence of Johne's disease in farmed red deer in The Netherlands. Serum and faecal samples were collected from 140 animals, originating from 8 different farms. Four of the farms had animals that tested positive for Johne's disease. The within-herd MAP seroprevalence varied between 4.8% and 21.2%. In conclusion, this pilot study provides evidence of MAP infection in the Dutch farmed deer population, and thus there might be a risk of MAP transmission between farmed red deer and dairy cattle.

Peripheral blood mononuclear cell population changes associated with age and Mycobacterium avium subspecies paratuberculosis infection in red deer (Cervus elaphus)

In this study we aimed to document the maturation of the immune system in red deer and investigate the hypothesis that an immature immune system may predispose young red deer (Cervus elaphus) to an increased susceptibility to Johne's disease. Peripheral blood mononuclear cell populations were analysed using flow cytometry techniques to monitor changes associated with age and severity of infection with Mycobacterium avium subspecies paratuberculosis in red deer. The percentage of cells expressing cell population markers CD4, CD8, WC1, gammadelta TCR, CD14 and B-B4 as well as the cell activation markers CD25, CD44, ACT1 and ACT31 were analysed in relation to age and M. avium subsp. paratuberculosis infection status and disease severity. Significant changes in both cell surface markers and cell activation markers were observed as animals matured irrespective of their response to infection. The levels of CD4 and CD8 increased with age and the levels of B-B4, WC1, CD14 and gammadelta TCR decreased similar to previous studies in cattle. No differences were observed in cell surface markers or cell activation markers in relation to M. avium subsp. paratuberculosis infection status and disease severity. This research demonstrates that peripheral blood cell populations change with age in red deer and suggests that studies of cell surface markers and activation markers in peripheral blood samples do not provide information on the age-related susceptibility to Johne's disease.

Age susceptibility of red deer (Cervus elaphus) to paratuberculosis

The aim of this study was to measure the relative susceptibility of three age classes of red deer (Cervus elaphus) to the various manifestations of infection and disease states due to Mycobacterium avium subsp. paratuberculosis (MAP) after experimental oral challenge. Three groups of seronegative female deer (30 three-month-old weaners, 20 fifteen-month-old yearlings and 20 adults) received four oral doses of approximately 10(9) colony forming units (cfu) of a bovine strain of MAP. They were monitored for 50 weeks by weighing, blood sampling for immunological assays, skin testing and faecal culturing. Clinically affected animals were promptly euthanised and the remaining deer were killed at the end of the study. Necropsies were carried out and samples of intestine and associated lymph nodes were taken for culture and histopathology from all deer. Ten weaners developed clinical paratuberculosis and were euthanased 20-28 weeks post-challenge (pc). No clinical cases occurred in the yearlings or adults. All 10 clinically affected weaners had severe gross and histopathological lesions typical of paratuberculosis (Johne's disease). At slaughter, gross lesions were seen in the jejunal lymph nodes of 8/17 weaners, 2/19 yearlings, and 0/20 adults. MAP was cultured from samples of the intestine and/or lymph nodes from all 10 clinical cases and from 16/17 weaners, 19/19 yearlings and 18/20 adult hinds at slaughter. Lesion Severity Scores of deer slaughtered 50 weeks pc averaged 4.9, 3.5 and 1.1 for the weaner, yearling and adult groups, respectively. At some time over the course of the trial, 24/28 weaners were antibody positive and immediately prior to slaughter, 13/17 weaners, 15/19 yearlings and 3/20 hinds were antibody positive. There is a strong age-related resistance against clinical disease and subclinical disease, but not to infection with MAP, after heavy oral challenge.

Efficacy, immune responses and side-effects of vaccines against Johne's disease in young red deer (Cervus elaphus) experimentally challenged with Mycobacterium avium subsp paratuberculosis

AIMS

To test the efficacy of a commercially available and an experimental vaccine against Johne's disease in young red deer (Cervus elaphus), using experimental challenge with live virulent Mycobacterium avium subsp paratuberculosis (M. ptb), measure injection-site reactions, and assess the effects of vaccination and challenge on results of subsequent skin tests and ancillary blood tests for bovine tuberculosis (Tb).

METHODS

Ninety 6-8-week-old red deer fawns were randomly allocated to three equal groups of 30, and received either a 1-ml S/C injection of either a commercially available whole-cell killed vaccine with a mineral-oil adjuvant (COM), or a live attenuated M. ptb experimental vaccine with a lipid adjuvant (EXP), or were unvaccinated controls. Ten weeks later (Week 10), all 90 fawns received an oral challenge with approximately 10(8) cfu of a bovine strain of M. ptb daily for 4 days. The fawns were regularly weighed and monitored for clinical signs of Johne's disease, and regularly blood-sampled and tested for antibodies to M. ptb, using the Paralisa test, an IgG1 ELISA, and for antibodies to Mycobacterium bovis, using a similar test. A mid-cervical tuberculin skin test (MCT) was administered at Week 23, and comparative cervical skin tests (CCTs) were administered at Weeks 37 and 57. All animals were electively killed at Week 59, injection sites inspected, gastrointestinal tracts examined for gross lesions, and samples taken for culture and histopathology.

RESULTS

There were no clinical cases of Johne's disease but, at slaughter, more gross lesions in intestinal lymph nodes were observed in Control (20%) than COM animals (0%; p<0.05). This latter group also had less severe histopathological lesions in samples of intestines and lymph nodes compared with the Control group (p<0.05), but not deer in the EXP group. Over 89% of deer in all three groups were shown by culture to be infected with M. ptb, while only 21-33% of faecal samples were culture-positive. Time to positive culture was longer for COM vs EXP and Control groups (p<0.01), reflecting fewer M. ptb organisms in samples from the ileocaecal valve (ICV) in that group. Almost all (>or=90%) deer reacted to the MCT at Week 23, and there were no significant differences between groups. One or two deer in each group were classified as Tb reactors to the CCT at Week 37, and none were classified as Tb reactors to the CCT at Week 57. At the time of challenge, over 50% of deer in the COM group were classified as positive (9/28) or suspicious (7/28) for M. ptb antibodies in the Paralisa test, one animal in the EXP group was classified as suspicious, and all the Controls were negative. From Week 23 to the end of the trial, 25/28 (89%) deer in the COM group were Paralisa-positive or -suspicious. The proportion of animals in the EXP and Control groups that were Paralisa-positive peaked at Week 39 (60% and 55%, respectively). The majority of deer in the COM group had significant levels of antibody to M. bovis 10 weeks after vaccination, while the proportion of M. bovis-antibody positive Control deer rose gradually throughout the trial, reaching 23/30 (77%) at slaughter. Injection-site lesions in COM deer ranged from 10-38 mm in diameter 4 weeks after vaccination, and then resolved. Minimal injection-site lesions were observed in EXP deer. At slaughter, 14 months after vaccination, 19/28 deer in the COM group had 5-15-mm nodules that were easily trimmed from the carcass.

CONCLUSIONS

The experimental challenge with M. ptb produced subclinical Johne's disease in the majority of deer, but did not cause any clinical disease. The number and severity of gross and microscopic lesions was significantly reduced in the COM compared with Control and EXP groups; vaccination of the EXP group did not appear to give significant protection. Deer vaccinated with the commercial vaccine are likely to give a false-positive reaction to the MCT but should have an avian reaction to the CCT, if it is carried out >12 months after vaccination. Most of the deer vaccinated with the commercial vaccine produced significant levels of antibodies against both M. ptb and M. bovis, which interfered with ancillary Tb tests. If this vaccine or similar oil-based vaccines are used on deer farms in the future, it may be advisable to only vaccinate animals destined for slaughter, that would not need to be Tb-tested, but would be 'works-monitored' for evidence of Tb instead.

Autoreactive antibodies are present in sheep with Johne's disease and cross-react with Mycobacterium avium subsp. paratuberculosis antigens

Mycobacterial infection has been linked to the generation of autoantibodies, including anti-neutrophil cytoplasmic autoantibodies (ANCA), in clinical studies and small animal models. In an attempt to identify antibodies that react with both self and mycobacterial antigens in naturally infected ruminants, we generated a phage display library comprising single chain antibody fragments (scFv) from sheep with Johne's disease (JD). The library was screened simultaneously against ovine small intestinal tissue and Mycobacterium avium subsp. paratuberculosis (MAP). A clone (termed AutoH1) reacted strongly with host tissue and MAP, recognizing a proteinase-susceptible 32 kDa determinant in ovine gut tissues and lymphatics, and in blood granulocytes but not mononuclear cells. In granulocytes, binding was to cytoplasmic granules and cell membranes; in MAP, AutoH1 bound bacterial cell wall determinants. We further identified a synthetic peptide sequence recognized by AutoH1, using this to generate a carrier:peptide fusion protein (paH1). Sera of normal and JD sheep were screened for AutoH1-like autoantibody activity; 7/11 JD animals showed autoreactivity that could be blocked by paH1, while 0/21 normal animals showed no such serological reactivity. It is possible that the severe pathology observed in ruminant JD may have an autoimmune component, possibly due to ANCA-type binding; this remains to be further investigated.

Experimental infections in young red deer(Cervus elaphus)with a bovine and an ovine strain ofMycobacterium aviumsubspparatuberculosis

AIMS

To compare the virulence of a 'bovine' and an 'ovine' strain of Mycobacterium avium subsp paratuberculosis (M. ptb) in red deer (Cervus elaphus) after experimental inoculation orally, and to examine the relationship between the dose of the bovine strain given and immunological, clinical and histopathological outcomes in young red deer.

METHODS

Newly-weaned 4-month-old male red deer (n=81) were randomly assigned to one of five groups. Three groups (n=16) received high (10(9) colony forming units (cfu); HB), medium (10(7) cfu; MB) or low (10(3) cfu; LB) oral doses of a bovine strain of M. ptb, one group (n=16) received medium (10(7) cfu; MO) doses of an ovine strain of M. ptb, and a Control group (n=17) was not dosed. The HB and Control groups were grazed together, the MB and LB groups were grazed together, and the MO group was grazed alone, in separate small paddocks on a quarantined area of the farm for 45 weeks. Liveweight, clinical signs and immunoglobulin G1 (IgG1) antibody levels were monitored for up to 45 weeks. Deer affected with Johne's disease were euthanised when they showed obvious clinical signs. Unaffected deer were slaughtered at the end of the trial (Week 45), and all deer were necropsied. Faeces and tissue samples were cultured for M. ptb, and fixed tissues were examined for histopathology.

RESULTS

Between 21 and 38 weeks post-challenge (pc), 5/16 animals in the HB group developed early signs of Johne's disease and were euthanised. The remaining deer in the five groups were all apparently healthy and reached good liveweights (approximately 100 kg average), and were euthanised and examined 45 weeks pc. Three deer (two HB and one MB) had small caseous lesions in their jejunal lymph nodes (JJLNs) and one HB animal had a small caseous lesion in a retropharyngeal lymph node. The remaining animals had no grossly-visible lesions. Mycobacterium avium subsp paratuberculosis was cultured from samples from 100% of the HB and MB animals, 50% of the LB group, 69% of the MO group and all Control animals. Thus all Control deer were infected by natural transmission from the HB group but none developed signs of clinical disease. Examination of histological sections of jejunum, ileocaecal valve (ICV) and associated lymph nodes showed a gradation of severity of lesions that was positively correlated (p<0.001) with dose of the bovine strain administered; mean lesion severity scores were 4.8, 2.9 and 0.9 for HB, MB and LB groups, and 2.2 and 0.9 for the Control and MO groups, respectively. IgG1 antibody levels at the time of euthanasia were also correlated with lesion severity scores at slaughter (p<0.001).

CONCLUSIONS

The ovine strain of M. ptb used in this study was less virulent for red deer than the bovine strain. The correlation between dose of the bovine strain and the severity of lesions suggests that clinical Johne's disease in yearling red deer likely results from high oral challenge with a bovine strain whilst they are young. The minimum oral infective dose may be close to 10(3) cfu for this bovine strain.

Production and characterization of monoclonal antibodies against a major membrane protein of Mycobacterium avium subsp. paratuberculosis

The Mycobacterium avium subsp. paratuberculosis 35-kDa major membrane protein (MMP) encoded by MAP2121c is an important membrane antigen recognized in cattle with Johne's disease. In this study, purified recombinant MMP was used to produce two stable monoclonal antibodies, termed 8G2 and 13E1, which were characterized by immunoblotting, epitope mapping, and immunofluorescence microscopy.

An experimental intratonsilar infection model for bovine tuberculosis in African buffaloes, Syncerus caffer

An infection model for Mycobacterium bovis in African buffaloes, Syncerus caffer, was developed, using the intratonsilar route of inoculation. Two groups of 11 buffaloes each, aged approximately 18 months, were infected with either 3.2 x 10(2) cfu (low dose) or 3 x 10(4) cfu (high dose) of M. bovis strain isolated from a buffalo. A control group of six buffaloes received saline via the same route. The infection status was monitored in vivo using the comparative intradermal tuberculin test, and in vitro by the modified interferon-gamma assay. All buffaloes were euthanazed 22 weeks post infection and lesion development was assessed by macroscopic examination, culture and histopathology. It was found that the high dose caused macroscopic lesions in nine out of 11 buffaloes. Mycobacterium bovis was isolated from all buffaloes in the high-dose group and from six out of 11 in the low-dose group.

Isolation of high-affinity single-chain antibodies against Mycobacterium avium subsp. paratuberculosis surface proteins from sheep with Johne's disease

Johne's disease, caused by infection with Mycobacterium avium subsp. paratuberculosis, causes significant economic losses to the livestock farming industry. Improved investigative and diagnostic tools-necessary to understand disease processes and to identify subclinical infection-are much sought after. Here, we describe the production of single-chain antibodies with defined specificity for M. avium subsp. paratuberculosis surface proteins. Single-chain antibodies (scFv) were generated from sheep with Johne's disease by cloning heavy-chain and lambda light-chain variable regions and expressing these in fusion with gene III of filamentous phages. Two scFv clones (designated SurfS1.2 and SurfS2.2) were shown to be immunoreactive against M. avium subsp. paratuberculosis surface targets by flow cytometry, and immunoblotting identified specificity for a 34-kDa proteinase-susceptible determinant. Both antibodies were cross-reactive against Mycobacterium avium subsp. avium but nonreactive against Mycobacterium bovis or Mycobacterium phlei cells and were shown to be capable of enriching M. avium subsp. paratuberculosis cells by a factor of approximately 10(6)-fold when employed in magnetic bead separation of mixed Mycobacterium sp. cultures. Further, magnetic bead separation using SurfS1.2 and SurfS2.2 was capable of isolating as few as 10(3) M. avium subsp. paratuberculosis cells from ovine fecal samples, indicating the diagnostic potential of these reagents. Finally, inclusion of SurfS1.2 or SurfS2.2 in in vitro broth culture with M. avium subsp. paratuberculosis indicated that surface binding activity did not impede bacterial growth, although colony clumping was prevented. These results are discussed in terms of the potential use of single-chain phage display monoclonal antibodies as novel diagnostic reagents.

Immunoglobulin G1 enzyme-linked immunosorbent assay for diagnosis of Johne's Disease in red deer (Cervus elaphus)

This study was designed to develop a customized enzyme-linked immunosorbent assay (ELISA) for the serodiagnosis of Johne's disease (JD) in farmed deer. Two antigens were selected on the basis of their superior diagnostic readouts: denatured purified protein derivative (PPDj) and undenatured protoplasmic antigen (PpAg). ELISA development was based on the antigen reactivity of the immunoglobulin G1 (IgG1) isotype, which is a highly specific marker for mycobacterial disease seroreactivity in deer. Sensitivity estimates and test parameters were established using 102 Mycobacterium paratuberculosis-infected animals from more than 10 deer herds, and specificity estimates were determined using 508 uninfected animals from 5 known disease-free herds. A receiver-operated characteristic analysis determined that at a cut point of 50 ELISA units, there was a specificity of 99.5% and sensitivities of 84.0% with PPDj antigen, 88.0% with PpAg, and 91.0% when the antigens were used serially in a composite test. Estimated sensitivity was further improved using recombinant protein antigens unique for M. paratuberculosis, which identified infected animals that were unreactive to PPDj or PpAg. While 80% of animals that were seropositive in the IgG1 ELISA had detectable histopathology, the assay could also detect animals with subclinical disease. The test was significantly less sensitive (75%) for animals that were culture positive for M. paratuberculosis but with no detectable pathology than for those with pathological evidence of JD (>90%). When the IgG1 ELISA was used annually over a 4-year period in a deer herd with high levels of clinical JD, it eliminated clinical disease, increased production levels, and reduced JD-related mortality.

Immunological and molecular characterization of susceptibility in relationship to bacterial strain differences in Mycobacterium avium subsp. paratuberculosis infection in the red deer (Cervus elaphus)

Johne's disease (JD) infection, caused by Mycobacterium avium subsp. paratuberculosis, represents a major disease problem in farmed ruminants. Although JD has been well characterized in cattle and sheep, little is known of the infection dynamics or immunological response in deer. In this study, typing of M. avium subsp. paratuberculosis isolates from intestinal lymphatic tissues from 74 JD-infected animals showed that clinical isolates of M. avium subsp. paratuberculosis from New Zealand farmed red deer were exclusively of the bovine strain genotype. The susceptibility of deer to M. avium subsp. paratuberculosis was further investigated by experimental oral-route infection studies using defined isolates of virulent bovine and ovine M. avium subsp. paratuberculosis strains. Oral inoculation with high (10(9) CFU/animal) or medium (10(7) CFU/animal) doses of the bovine strain of M. avium subsp. paratuberculosis established 100% infection rates, compared to 69% infection following inoculation with a medium dose of the ovine strain. The high susceptibility of deer to the bovine strain of M. avium subsp. paratuberculosis was confirmed by a 50% infection rate following experimental inoculation with a low dose of bacteria (10(3) CFU/animal). This study is the first to report experimental M. avium subsp. paratuberculosis infection in red deer, and it outlines the strong infectivity of bovine-strain M. avium subsp. paratuberculosis isolates for cervines.

Factors influencing the protective efficacy of a BCG homologous prime-boost vaccination regime against tuberculosis

Tuberculosis due to Mycobacterium spp. continues to represent a major threat to human and animal health, prompting the search for effective vaccines. We have previously reported a sequential prime and boost homologous vaccination regime, using live avirulent M. bovis bacille Calmette-Guerin (BCG) strain 1173P2, that can provide significant protection to red deer (Cervus elaphus) against virulent M. bovis infection. Here, we have investigated the influence of varying the time-periods during and following the vaccination regime on the subsequent outcome of disease following post-vaccination pathogen challenge. Deer vaccinated using the standard regime of BCG-prime (week 0) and BCG-boost (week 8) followed by M. bovis challenge (week 14-16) were highly protected, showing significant reductions in the incidence of M. bovis infection and tuberculous lesions, as well as reduced pathogen burdens in sentinel lymphatic tissues. Decreasing the time-period between primary and secondary immunisations from 8 to 4 weeks had no significant impact on the protective efficacy afforded by BCG vaccination, while increasing this period to 43 weeks largely ablated protection. Increasing the time-period between secondary immunisation and M. bovis challenge from 6 to 26 or 52 weeks also had no significant impact on protection, suggesting that an appropriately timed BCG prime-boost vaccination regime can establish long-lasting protective immunological memory in deer. Finally, increasing the time-period between virulent M. bovis challenge and the subsequent post-mortem examination of disease outcome indicated that - once vaccinated by the standard prime-boost regime - deer remain refractory to disease if challenged and maintained for up to 52 weeks, suggesting that vaccinated animals harbouring low numbers of virulent M. bovis organisms do not succumb to disease activation over time. These findings are discussed in relation to concurrent measurements of in vivo and ex vivo immunological markers of disease and protection, as well as the wider implications of a standardised vaccine regimen for practical use in animal health.

Vaccination of sheep against M. paratuberculosis: immune parameters and protective efficacy

Johne's disease in ruminants is caused by the pathogenic bacterium Mycobacterium avium subspecies paratuberculosis (Map). Currently available Map commercial vaccines protect against clinical disease but not infection. In this study, the proprietary Johne's vaccine Neoparasec and an aqueous formulation of Map 316F (AquaVax) were tested in sheep. Detailed immunological examination of blood and gut-associated lymphoid tissues was carried out on animals after vaccination and challenge with virulent Map to identify markers of protective immunity. Neoparasec vaccination provided significant protection against disease while AquaVax did not. Immune animals had stronger cell-mediated responses and altered proportions of CD4+, CD8+, CD25+ and B cells in blood, spleen and the gut lymphatics, than diseased animals.

Experimental infection model for Johne's disease in sheep

Johne's disease in ruminants results in chronic enteritis caused by the pathogenic bacterium Mycobacterium avium subsp. paratuberculosis. This study examined two M. avium subsp. paratuberculosis strains (JD3 and W), using different doses and routes of infection, to establish the optimal time postchallenge when predictable levels of infection, gut lesions, and clinical disease occur in a large proportion of sheep. While a small proportion (25%) of sheep challenged with a low-passage-number laboratory culture of M. avium subsp. paratuberculosis (strain W) became infected, no infection was found in animals exposed to a high-passage-number culture isolate of strain W. In contrast, a primary tissue homogenate of M. avium subsp. paratuberculosis (JD3) resulted in high (90%) infection rates and gut histopathology following oral or intratonsillar challenge. The optimal conditions necessary to produce Johne's disease involve oral inoculation of 3-month-old lambs with four doses of 5 x 10(8) CFU of M. avium subsp. paratuberculosis isolated directly from the gut lymphatic tissues of clinically affected sheep. This resulted in consistent gut histopathology at 9 months and the onset of clinical disease by 11 months postchallenge.

The effect of Johne's vaccination on tuberculin testing in farmed red deer (Cervus elaphus)

AIM

To assess the degree of interference with bovine tuberculin testing in farmed red deer that vaccination of young deer with an oil-adjuvanted vs aqueous formulation of live attenuated Mycobacterium paratuberculosis Strain 316F vaccines would be likely to cause, and to compare immunological responses between vaccine formulations.

METHODS

Five-month-old red deer (n = 45) were randomly allocated to three treatment groups of 15 animals, which received either no vaccine, a single 2-ml dose of an oil-adjuvanted formulation or two 2-ml doses, 6 weeks apart, of an aqueous formulation of live attenuated M. paratuberculosis Strain 316F vaccine injected subcutaneously (S/C) in the neck (Control, Oil-adjuvant Ptb, and Aqueous Ptb groups, respectively). Injection- site reactions were described and measured on Weeks 3, 6 and 9. Animals were weighed and lymphocyte transformation tests (LTT) and antibody enzyme-linked immunosorbent assays (ELISA) using avian, bovine and Johnin tuberculin were conducted on blood samples collected at Weeks 0, 6, 12, 15, 24, 27, 36 and 39. A bovine mid-cervical skin test (MCT) was applied at Week 12, and comparative cervical skin tests (CCTs) at Weeks 24 and 36. At Week 42, the animals were slaughtered at a commercial deer slaughter premises and subjected to rigorous meat inspection.

RESULTS

Two animals were eliminated at the start of the trial due to a positive cross-reaction with bovine tuberculin in the initial LTT. Almost all animals reacted to the MCT at Week 12, with mean skin thicknesses of 3.9, 2.9 and 1.0 mm for the Oil-adjuvant Ptb, Aqueous Ptb and Control groups, respectively. When the CCT was conducted at Week 24, 2/15 Oil-adjuvant Ptb, 2/14 Aqueous Ptb and 1/14 Control animals were classified as CCT-positive to bovine tuberculin. By Week 36, all animals were CCT-negative. The Oil-adjuvant Ptb vaccination resulted in high persistent levels of antibody that reacted with bovine tuberculin, compared with negligible levels in the Aqueous Ptb group. Overall, a single dose of the Oil-adjuvant Ptb vaccine in deer stimulated a vigorous, cross-reactive immune response, evidenced by high LTT, skin-test and antibody reactions to bovine tuberculin, with both cell-mediated and humoral characteristics. By comparison, two doses of the Aqueous Ptb vaccine produced less cross-reactivity and a bias towards a cell-mediated response. The Oil-adjuvant Ptb vaccine resulted in moderate injection site lesions that were quite persistent, whereas the Aqueous Ptb vaccine resulted in smaller nodules that regressed more quickly.

CONCLUSIONS

Vaccination of farmed deer with an oil-adjuvanted Johne's vaccine has the potential to cause significant interference with routine tuberculin skin testing. The cross-reactivity should decline with time and the CCT should be able to clear MCT-positives, but there is a risk of false-positives to the blood test for tuberculosis (BTB), due to high persistent levels of antibody. The CCT could be used as a primary skin test in vaccinated deer on some farms. The Aqueous Ptb caused fewer problems with skin testing and produced significantly less bovine antibody than the Oil-adjuvant Ptb, but stimulated persistent cell-mediated immune responses that may provide some protection against Johne's disease.

Mycobacterial diseases of deer

The most significant mycobacterial diseases of free-living, captive and farmed deer are bovine tuberculosis, caused by Mycobacterium bovis, Johne's disease (paratuberculosis), caused by Mycobacterium avium subsp paratuberculosis (basonym M. paratuberculosis), and avian tuberculosis, caused principally by M. avium subsp avium. The first case of M. bovis infection in farmed deer was identified in New Zealand in 1978. In 1983, a voluntary scheme was introduced in New Zealand to control tuberculosis in farmed deer, followed by a compulsory tuberculosis control scheme in 1990. The primary control measure is the slaughter of infected animals, detected by skin testing and blood testing, together with movement control and vector control. The number of infected deer herds peaked in the mid 1990s at over 160 herds, but by 30 June 2002 this had been reduced to 79 (1.45%), and to 67 (1.23%) by June 2003. Deer-to-deer transmission occurs, but the majority of herd breakdowns are believed to be from infected vectors. Factors likely to affect the susceptibility of deer include age, environment, population density, exposure and genetics. Avian tuberculosis occasionally causes clinical disease in wild, captive and farmed deer in New Zealand and overseas. Mycobacterium intracellulare, and subspecies of M. avium other than M. paratuberculosis, are widespread throughout New Zealand and are thought to be largely responsible for the high level of sensitisation to avian purified protein derivative (PPD), which is used for comparison purposes in tuberculosis skin testing of deer in this country. Infections with these organisms are usually subclinical in farmed deer, although M. avium subsp avium commonly causes lesions in retropharyngeal, mesenteric and ileocaecal lymph nodes. These lesions cause problems because of their gross and microscopic similarity to those due to M. bovis infection. Birds and domestic animals are most likely to become infected via environmental contamination of food, water, bedding litter or soil, while carnivores or scavengers may also become infected by ingesting infected carcasses. Johne's disease has been reported in deer in the wild and in zoos, especially in North America, the United Kingdom (UK) and Europe. Since first being confirmed in farmed deer in New Zealand in 1979, the incidence of Johne's disease has increased steadily. To date, M. paratuberculosis has been identified in >600 farmed deer on 300 properties. The majority of cases have been identified from suspected tuberculous lesions submitted from deer slaughter plants. Clinically, Johne's disease in deer is similar to the disease in sheep and cattle, with typical signs of loss of weight and condition, and diarrhoea. However, outbreaks of Johne's disease frequently occur in young red deer, 8-15 months of age, whereas the clinical disease in sheep and cattle is sporadic and usually affects adults 3-5 years of age. The disease is characterised by a chronic granulomatous enteritis and lymphadenitis, especially affecting the jejunum and ileum and the mesenteric lymph nodes. Deer affected subclinically may have lesions in these lymph nodes at slaughter, which are grossly indistinguishable from those due to bovine tuberculosis. Because of the antigenic similarity between M. intracellulare and all the subspecies of M. avium, including M. paratuberculosis, the diagnostic tests for Johne's disease lack sensitivity and specificity, making control difficult.

Diagnostic strategies and outcomes on three New Zealand deer farms with severe outbreaks of bovine tuberculosis

SETTING

Three commercial deer herds, each containing more than 500 deer, experienced outbreaks of tuberculosis (TB) ranging from a 6% prevalence to disease levels >50%. Intensive diagnostic testing was carried out over short time intervals after the initial diagnosis of TB.

OBJECTIVE

To eradicate M. bovis infection from herds of farmed red deer (Cervus elaphus) in New Zealand, which had significant outbreaks of tuberculosis (>5%), using complementary diagnostic tests and elective slaughter of all test positive animals.

DESIGN

Whole herd mid cervical skin tests (MCT) were used as the primary test and a comparative cervical test (CCT) as an ancillary test. In an attempt to enhance TB eradication, ancillary blood tests comprising; lymphocyte transformation tests (LT) and enzyme-linked immunosorbent assays (ELISA) were used in parallel with MCT, or as serial tests, to complement skin testing.

RESULTS

One deer herd (N), which had an acute outbreak (6%) of TB in adult stock, responded quickly to testing and the disease was eradicated within 12 months. A second more chronically infected herd (B), with low prevalence (2%) of TB initially in pregnant hinds which were retained over the breeding cycle, developed widespread uncontrollable spread of infection, that could not be contained by exhaustive testing. The final herd (S), which had an acute outbreak of TB at a prevalence >90% in young fawns, responded well to testing and became TB-free within 1 year.

CONCLUSIONS

TB can be eradicated from infected farmed deer herds, using currently available TB tests, irrespective of disease prevalence. The caveat is that disease must be diagnosed early in the acute phase of infection. Undiagnosed infection over winter in breeding hinds in one herd produced a refractory infection in adult males and females and uncontrollable spread to newborn fawns. Disease could not be eradicated using comprehensive diagnostic schedules. A widespread but controllable outbreak of acute TB in another herd, appeared to have caused sufficient selective pressure on adult stock that genetically resistant adults were selected within a very short time frame (<1 year).

Plasma zinc and immune markers in runners in response to a moderate increase in training volume

Changes in plasma zinc concentration and markers of immune function were examined in a group of 10 male runners (n = 10) following a moderate increase in training over four weeks. Seven sedentary males acted as controls. Fasting blood samples were taken at rest, before (T0) and after (T4) four weeks of increased (+ 16 %) training and after two weeks of reduced (-31 %) training (T6). Blood was analysed for plasma zinc concentration, differential leucocyte counts, lymphocyte subpopulations and lymphocyte proliferation using incorporation of 3H-thymidine. The runners increased their training volume by 16 % over the four weeks. When compared with the nonathletes, the runners had lower concentrations of plasma zinc (p = 0.012), CD3 + (p = 0.042) and CD19 + lymphocytes (p = 0.010) over the four weeks. Lymphocyte proliferation in response to Concanavalin A stimulation was greater in the runners (p = 0.0090). Plasma zinc concentration and immune markers remained constant during the study. Plasma zinc concentration correlated with total leucocyte counts in the athletes at T6 (r = -0.72, p < 0.05) and with Pokeweed mitogen stimulation in the nonathletes at T6 (r = -0.92, p < 0.05). Therefore, athletes are unlikely to benefit from zinc supplementation during periods of moderately increased training volume.

A strategic approach to vaccine development: animal models, monitoring vaccine efficacy, formulation and delivery

One of the most pressing issues in animal and human medicine currently is the need to develop new and more effective vaccines, against an ever increasing range of infectious diseases. Traditional vaccines have involved the use of killed microorganisms, live attenuated cultures or antigenic extracts. In spite of extensive research, there have been very few newly developed vaccines for humans or animals, over the past 20 years. Recent developments in our understanding of the pathways of immunity required to produce protection against different infections, allow immunological principles to be incorporated into the design new and better vaccines. This paper outlines the key variables that need to be taken into consideration when developing a new vaccine. Three critical areas will be considered in the review: (1) use of an appropriate experimental animal model of infection; (2) targeting appropriate immune markers for protection; (3) design of optimal vaccine formulation and delivery systems.