Marian Price-Carter

Immune responses associated with progression and control of infection in calves experimentally challenged with Mycobacterium avium subsp. paratuberculosis

This study examined the immune responses related to the infection, progression and control of Mycobacterium avium subsp. paratuberculosis (MAP) infection in calves. Twenty calves were challenged orally with MAP and 11 non-challenged calves served as controls. Approximately half the calves from each group were sacrificed at either 7 or 15 months post-challenge (PC). The majority of the challenged calves (19/20) shed MAP in feces 2-4 months PC, but thereafter fecal shedding reduced markedly. The severity of infection was reduced at 15 months PC compared to that at 7 months PC as seen from a significantly lower isolation of MAP from tissues and lower lesion scores (P<0.05). In addition, there was a reduction in the upregulation of gene expression of gamma interferon, interleukin-10 (IL-10) and inducible nitric oxide synthase from the antigen-stimulated mesenteric lymph node (MLN) cultures of the challenged calves. No evidence of infection was detected in the control calves. The severity of the infection in individual calves at 15 months PC as indicated from the number of tissue culture positive sites, was negatively related to IL-10 released from antigen-stimulated peripheral blood mononuclear cells (P<0.05). Collectively the data indicated that the severity of the MAP infection was reduced in the calves at 15 months PC and in a specific time period during infection, IL-10 may play a role in reducing the severity of this disease.

Comparison of 45 variable number tandem repeat (VNTR) and two direct repeat (DR) assays to restriction endonuclease analysis for typing isolates of Mycobacterium bovis.

Restriction endonuclease analysis (REA), developed 25 years ago for genotyping Mycobacterium bovis strains, is an important tool for bovine tuberculosis control in New Zealand. While REA gives excellent discrimination, it is technically difficult to perform compared to PCR-based typing systems which are faster and simpler to operate. Genotyping of M. bovis by the use of variable number tandem repeat loci (VNTR) and spoligotyping, either alone or together, has now become the preferred approach for typing M. bovis. Here, we evaluated the widest range of VNTR loci yet investigated for M. bovis, including two VNTR loci not previously studied, one of which (4155) had particular utility for characterizing New Zealand isolates. VNTR typing provided substantial geographical resolution of 26 of the most commonly found REA types and this was improved by the addition of two PCR assays based on parts of the direct repeat (DR) locus. Overall, 68 REA types of M. bovis common in New Zealand were discriminated into 33 VNTR/DR groups by using a minimum of nine VNTR and two DR assays. These 11 VNTR/DR assays concorded for three isolates each of 45 of the REA types but showed some variation with at least one of the VNTR/DR assays for the remaining 23 REA types. Major differences were found in allelic variation of some VNTRs between isolates from New Zealand and other countries, emphasizing the importance of adapting M. bovis typing systems to suit individual countries.

Molecular epidemiology of Mycobacterium avium subsp. paratuberculosis isolated from sheep, cattle and deer on New Zealand pastoral farms

The present study aimed to describe the molecular diversity of Mycobacterium avium subsp. paratuberculosis (MAP) isolates obtained from sheep, cattle (beef and dairy) and deer farms in New Zealand. A total of 206 independent MAP isolates (15 beef cattle, 89 dairy cattle, 35 deer, 67 sheep) were sourced from 172 species-mobs (15 beef cattle, 66 dairy cattle, 31 deer, 60 sheep). Seventeen subtypes were identified, using a combination of variable number of tandem repeats (VNTR) and short sequence repeat (SSR) methods. Rarefaction analysis, analysis of molecular variance (AMOVA), Fst pairwise comparisons and proportional similarity index (PSI) were used to describe subtype population richness, genetic structure and potential associations between livestock sectors and New Zealand two main islands (North and South). The rarefaction analysis suggests a significantly higher subtype richness in dairy cattle herds when compared to the other livestock sectors. AMOVA results indicate that the main source of subtype variation is attributable to the livestock sector from which samples were sourced suggesting that subtypes are generally sector-specific. The pairwise Fst results were similar, with low Fst values for island differences within a livestock sector when compared to between sector analyses, representing a low subtype differentiation between islands. However, for a given island, potential associations were seen between dominant subtypes and specific livestock sectors. Three subtypes accounted for 76% of the isolates. The most common of these was isolated from sheep and beef cattle in the North Island, the second most frequent subtype was mainly isolated from dairy cattle (either island), while the third most common subtype was associated with deer farmed in the South Island. The PSI analysis suggests similarities in subtypes sourced from sheep and beef cattle. This contrasted with the isolates sourced from other livestock sectors, which tended to present sector-specific subtypes. Sheep and beef cattle were mainly infected with MAP Type I, while dairy cattle and deer were almost exclusively infected with MAP Type II. However, when beef cattle and deer were both present at farm level, they harboured similar subtypes. This study indicates that cross-species transmission of MAP occurs on New Zealand farms although close contact between species appears to be required, as in the case of sheep and beef cattle which are commonly grazed together in New Zealand.

THE SEAL TUBERCULOSIS AGENT, MYCOBACTERIUM PINNIPEDII, INFECTS DOMESTIC CATTLE IN NEW ZEALAND: EPIDEMIOLOGIC FACTORS AND DNA STRAIN TYPING

Abstract The fur seal (Arctocephalus forsteri), which is abundant in coastal areas of New Zealand, harbors several zoonotic pathogens, including Mycobacterium pinnipedii, a member of the Mycobacterium tuberculosis complex. We describe the microbiology and epidemiology of seven cases of M. pinnipedii infection in beef cattle (Bos primigenius) in coastal areas of New Zealand in 1991–2011. Epidemiologic factors were analyzed on six case farms and a telephone survey of 55 neighboring farms. A DNA-strain typing, using analysis of variable number tandem repeats and the direct repeats (VNTR/DR) of those isolates, was used to compare them to M. bovis isolates commonly found in New Zealand cattle and wildlife. In all cases of M. pinnipedii in cattle, only one animal in the herd was found to be infected. In six of seven cases, the lesions were in the thoracic lymph nodes, indicating a likely aerosol pathway. The lack of multiple cases within a herd suggests that cow-to-cow transmission is uncommon, if it occurs at all. There was no significant difference between case and control farms in distance to sea, herd size, herd type, or farming practice. The odds ratio for access to the beach for cattle on the Chatham Islands was significantly higher than it was for farms on the mainland coastal areas (odds ratio [OR] = 3.6, 95% CI = 1.1–11.4) Likewise, the odds ratio for acquiring tuberculosis was increased when farmers had seen seals on the property (OR =  9, 95% CI = 1.4–56.1 ). In all case farms, cattle had access to seals by beach grazing areas or waterways connecting directly with the ocean. The VNTR/DR typing of the isolates showed some variation in the M. pinnipedii isolates, with only two being identical; all isolates were easily distinguishable from M. bovis isolates.

Using whole genome sequencing to investigate transmission in a multi-host system: bovine tuberculosis in New Zealand

BackgroundBovine tuberculosis (bTB), caused by Mycobacterium bovis, is an important livestock disease raising public health and economic concerns around the world. In New Zealand, a number of wildlife species are implicated in the spread and persistence of bTB in cattle populations, most notably the brushtail possum (Trichosurus vulpecula). Whole Genome Sequenced (WGS) M. bovis isolates sourced from infected cattle and wildlife across New Zealand were analysed. Bayesian phylogenetic analyses were conducted to estimate the substitution rate of the sampled population and investigate the role of wildlife. In addition, the utility of WGS was examined with a view to these methods being incorporated into routine bTB surveillance.ResultsA high rate of exchange was evident between the sampled wildlife and cattle populations but directional estimates of inter-species transmission were sensitive to the sampling strategy employed. A relatively high substitution rate was estimated, this, in combination with a strong spatial signature and a good agreement to previous typing methods, acts to endorse WGS as a typing tool.ConclusionsIn agreement with the current knowledge of bTB in New Zealand, transmission of M. bovis between cattle and wildlife was evident. Without direction, these estimates are less informative but taken in conjunction with the low prevalence of bTB in New Zealand’s cattle population it is likely that, currently, wildlife populations are acting as the main bTB reservoir. Wildlife should therefore continue to be targeted if bTB is to be eradicated from New Zealand. WGS will be a considerable aid to bTB eradication by greatly improving the discriminatory power of molecular typing data. The substitution rates estimated here will be an important part of epidemiological investigations using WGS data.

The evolution and distribution of phage ST160 within Salmonella enterica serotype Typhimurium.

Salmonellosis is an internationally important disease of mammals and birds. Unique epidemics in New Zealand in the recent past include two Salmonella serovars: Salmonella enterica subsp. enterica serovar Typhimurium definitive type (DT) 160 (S. Typhimurium DT160) and S. Brandenburg. Although not a major threat internationally, in New Zealand S. Typhimurium DT160 has been the most common serovar isolated from humans, and continues to cause significant losses in wildlife. We have identified DNA differences between the first New Zealand isolate of S. Typhimurium DT160 and the genome-sequenced strain, S. Typhimurium LT2. All the differences could be accounted for in one cryptic phage ST64B, and one novel P22-like phage, ST160. The majority of the ST160 genome is almost identical to phage SE1 but has two regions not found in SE1 which are identical to the P22-like phage ST64T, suggesting that ST160 evolved from SE1 via two recombination events with ST64T. All of the New Zealand isolates of DT160 were identical indicating the clonal spread of this particular Salmonella. Some overseas isolates of S. Typhimurium DT160 differed from the New Zealand strain and contained SE1 phage rather than ST160. ST160 was also identified in New Zealand isolates of S. Typhimurium DT74 and S. Typhimurium RDNC-April06 and in S. Typhimurium DT160 isolates from the USA. The emergence of S. Typhimurium DT160 as a significant pathogen in New Zealand is postulated to have occurred due to the sensitivity of the Salmonella strains to the ST160 phage when S. Typhimurium DT160 first arrived.

Newly attenuated Mycobacterium bovis mutants as vaccines against bovine tuberculosis, particularly for possums

Bovine tuberculosis costs New Zealand more than

Comparison of the BBL mycobacteria growth indicator tube, the BACTEC 12B, and solid media for the isolation of Mycobacterium bovis

80 million per year, mostly because extensive areas of the country are occupied by brushtail possums infected with Mycobacterium bovis. AgResearch has a major programme to produce new live tuberculosis vaccines that can be delivered to possums. Primary work involved development of molecular biological methods to enable genetic manipulation of M. bovis, including the production of random and specific mutants. Many avirulent mutants of M. bovis have been produced and their vaccine efficacy has been compared to BCG in guinea pigs. Selected mutants that perform at least as well as BCG are retested in guinea pigs using an extended vaccination protocol in which animals are pre-sensitized to environmental mycobacteria to mimic natural exposure. Ten candidate vaccines that have induced good protection in guinea pigs have been subsequently tested as vaccines in possums. While the protective efficacy of an M. bovis mutant inoculated into guinea pigs reliably indicated that some protection would be induced in possums, the most protective mutant in guinea pigs was different from that in possums. This illustrates the importance of testing in the target species as part of new vaccine development. An important outcome of this work was the identification of an operon in M. bovis whose inactivation produced an avirulent M. bovis vaccine candidate that was better than BCG in protecting possums from experimental tuberculosis. Allelic exchange methods are now being used to produce vaccine strains with multiple specific mutations to improve safety and immunological characteristics.

Experimental infection of New Zealand Merino sheep with a suspension of Mycobacterium avium subspecies paratuberculosis (Map) strain Telford: Kinetics of the immune response, histopathology and Map culture.

We compared different methods for their ability to isolate Mycobacterium bovis from tissue samples from animals with lesions resembling bovine tuberculosis. In the first trial, M. bovis was isolated from 86 of 200 tissue samples that were cultured using 2 liquid media, BACTEC 12B and BBL mycobacteria growth indicator tube (MGIT), and a solid medium, Middlebrook 7H11 supplemented with pyruvate (7H11P). M. bovis was isolated from 2 samples with MGIT but not BACTEC 12B. M. bovis was isolated from 9 samples with BACTEC but not MGIT; these 9 samples came from the North Canterbury/Marlborough region of New Zealand. The proportion of tissues from which M. bovis was isolated with BACTEC 12B or MGIT and the mean time for isolation was different for samples from the North Canterbury/Marlborough region but not the rest of New Zealand. In the second trial, M. bovis was isolated from 401 of 1,033 tissues that were cultured using MGIT, Middlebrook 7H9 broth, or solid 7H11P. The proportion of isolates of M. bovis and the mean time for their isolation with MGIT was different for the North Canterbury/Marlborough and the rest of New Zealand. The reason for this difference was not determined but may be related to the genotypes present in this region. Genotyping using variable number tandem repeats (VNTRs) of 197 isolates of M. bovis revealed that the 44 isolates from North Canterbury/Marlborough were represented by 2 closely related VNTR types that were not found in 153 isolates from the remainder of New Zealand.

Use of genomics to track bovine tuberculosis transmission.

A long-term study was undertaken to monitor immune responses, faecal cultures and clinical disease in sheep experimentally infected with Mycobacterium avium subspecies paratuberculosis (Map) strain Telford. New Zealand Merino lambs (N=56) were challenged with three oral doses of Map suspension. The lambs were weighed and faecal and blood samples obtained at different time-points. At 63 weeks post-challenge, surviving sheep were euthanised and samples of liver, ileo-caecal valve and mesenteric lymph node were collected for histopathology and Map culture. High IFN-γ and antibody responses were evident as early as 8 weeks post-C1 which persisted until the end of the trial. Approximately 92% of the sheep shed Map in faeces at 36 weeks post-challenge, with the prevalence decreasing to around 40% at the end of the trial. Thirteen sheep progressively lost weight and were euthanised between weeks 32 and 58 post-challenge. Nearly 58% of surviving sheep exhibited histo-pathological lesions in at least one of the three tissues sampled, while 42% showed acid-fast bacilli in at least one tissue. A positive Map culture in at least one tissue was obtained from approximately 85% of sheep. These results indicate that the three doses of Map challenge were highly effective in establishing Johnes disease in NZ Merino lambs.