Your search keyword '"Mustelidae immunology"' showing total 33 results

1. Is moving from targeted culling to BCG-vaccination of badgers (Meles meles) associated with an unacceptable increased incidence of cattle herd tuberculosis in the Republic of Ireland? A practical non-inferiority wildlife intervention study in the Republic of Ireland (2011-2017).

Author

Martin SW, O'Keeffe J, Byrne AW, Rosen LE, White PW, and McGrath G

Subjects

Animals, Cattle, Incidence, Ireland epidemiology, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis, Bovine epidemiology, Vaccination statistics & numerical data, BCG Vaccine immunology, Disease Reservoirs veterinary, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Abstract

Bovine tuberculosis (BTB) remains as a costly disease of cattle-herds in the Republic of Ireland (ROI). This persistence is partially attributable to the presence of M. bovis infection in a wildlife reservoir, the European badger (Meles meles). Thus, both area-wide and limited-area targeted-badger-culling have been part of the ROI-BTB control/eradication program to help reduce the future incidence of a cattle-herd BTB breakdown (i.e. a "new herd-level occurrence of BTB"). However, neither badger-culling practice can be sustained as a major component in the ongoing BTB eradication program in the ROI. Vaccination of badgers with Bacille Calmette-Guérin (BCG) has been proposed as an alternative to badger culling. Thus, in 2011, a five-year non-inferiority study was implemented in seven counties in the ROI. This study was designed to compare and contrast the cattle-herd-BTB-incidence in areas where intramuscular badger vaccination would be implemented versus the cattle-herd-BTB-incidence in the remaining area of the same county where targeted-badger-culling was maintained as the standard treatment response to probable badger-sourced BTB breakdowns. Our outcome of interest was a new cattle-herd-BTB-episode (breakdown) with a total of >2 standard skin-test (SICTT) reactors detected during the episode. Treatments (badger vaccination or targeted badger culling) were cluster allocated based on where the majority of the herd owner's land was located. To assess the impact of the two treatments, we compared the incidence-risk, of our defined outcome, for cattle herds in the area under vaccination to the outcome incidence-risk for cattle herds in the remainder of the same county after 4 and 5 years of having implemented badger vaccination. A random-effects logit model with adjustment for clustering by treatment, and statistical control of herd-type, herd-size and five-year prior-BTB-episode history was used for our analyses. Although not included in the logistic model, a relative badger density metric based on the annual number of badgers captured-per-sett-night of capturing effort was developed for each treatment area; this metric indicated that relative badger density was approximately 40 % higher in vaccination areas than in the targeted badger-culling areas during our study. Overall, our study results indicated that vaccination was not inferior to targeted badger-culling in four counties and badger vaccination was deemed to produce ambivalent results in one (County Cork North) of the seven study sites in the ROI. A post-study investigation, in County Galway, where vaccination was deemed inferior to target culling, revealed that widespread purchases of cattle from a nearby cattle mart, by herd owners in the vaccination-area, was associated with the increased herd and vaccination-area risk of BTB. No single "biasing hypothesis" was evident for the apparent vaccine inferiority in the second study site (County Monaghan) where vaccination was deemed inferior to targeted culling; hence no further investigations were conducted., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2020

2. Survival of Mycobacterium bovis BCG oral vaccine during transit through a dynamic in vitro model simulating the upper gastrointestinal tract of badgers.

Author

Williams GA, Koenen ME, Havenaar R, Wheeler P, Gowtage S, Lesellier S, and Chambers MA

Subjects

Administration, Oral, Animals, Bacterial Load, Disease Reservoirs microbiology, Hydrogen-Ion Concentration, In Vitro Techniques, Microbial Viability immunology, Models, Biological, Tuberculosis immunology, Tuberculosis prevention & control, Tuberculosis veterinary, Upper Gastrointestinal Tract immunology, Upper Gastrointestinal Tract metabolism, Upper Gastrointestinal Tract microbiology, Vaccination methods, BCG Vaccine administration & dosage, BCG Vaccine immunology, Mustelidae immunology, Mustelidae microbiology, Mycobacterium bovis immunology, Vaccination veterinary

Abstract

In developing an oral bait BCG vaccine against tuberculosis in badgers we wanted to understand the conditions of the gastrointestinal tract and their impact on vaccine viability. Conditions mimicking stomach and small-intestine caused substantial reduction in BCG viability. We performed in vivo experiments using a telemetric pH monitoring system and used the data to parameterise a dynamic in vitro system (TIM-1) of the stomach and small intestine. Some BCG died in the stomach compartment and through the duodenum and jejunum compartments. BCG survival in the stomach was greatest when bait was absent but by the time BCG reached the jejunum, BCG viability was not significantly affected by the presence of bait. Our data suggest that from a starting quantity of 2.85 ± 0.45 x 108 colony-forming units of BCG around 2 log10 may be killed before delivery to the intestinal lymphoid tissue. There are economic arguments for reducing the dose of BCG to vaccinate badgers orally. Our findings imply this could be achieved if we can protect BCG from the harsh environment of the stomach and duodenum. TIM-1 is a valuable, non-animal model with which to evaluate and optimise formulations to maximise BCG survival in the gastrointestinal tract., Competing Interests: At the time of this work, authors Marjorie E Koenen and Robert Havenaar were employees of Netherlands Organization for Applied Scientific Research (TNO). This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2019

3. Immunological responses of European badgers (Meles Meles) to infection with Mycobacterium bovis.

Author

Lesellier S

Subjects

Animals, Animals, Wild immunology, Animals, Wild microbiology, Antigens, Bacterial immunology, Disease Reservoirs microbiology, Immunity, Cellular, Ireland, Mustelidae microbiology, United Kingdom, Mustelidae immunology, Mycobacterium bovis pathogenicity, Tuberculosis immunology

Abstract

Mycobacterium bovis is the main cause of bovine tuberculosis and its eradication is proving difficult in many countries because of wildlife reservoirs, including European badgers (Meles meles) in the UK Ireland. Following the development of badger specific immunological reagents, many studies have shown that some aspects of the cellular and serological immune responses of badgers to virulent M. bovis and the attenuated M. bovis BCG (Bacille of Calmette and Guérin) strain are similar to those seen in other animal hosts infected with M. bovis. However, badgers also appear to have developed specific immunological responses to M. bovis infection which may be associated with mild inflammatory responses. Badgers may therefore represent an interesting natural host for M. bovis that can provide a more thorough understanding of efficient immunological responses to tuberculosis., (Crown Copyright © 2018. Published by Elsevier Ltd. All rights reserved.)

Published

2018

4. Assessment of the safety of Bacillus Calmette-Guérin vaccine administered orally to badgers (Meles meles).

Author

Perrett S, Lesellier S, Rogers F, Williams GA, Gowtage S, Palmer S, Dalley D, Davé D, Weyer U, Wood E, Salguero FJ, Nunez A, Reed N, and Chambers MA

Subjects

Administration, Oral, Animals, Animals, Wild, BCG Vaccine administration & dosage, Body Temperature, Cattle, Disease Reservoirs microbiology, Female, Immunization, Male, Mustelidae microbiology, Time Factors, Tuberculosis, Bovine transmission, BCG Vaccine adverse effects, BCG Vaccine immunology, Mustelidae immunology, Mycobacterium bovis immunology, Tuberculosis, Bovine prevention & control

Abstract

European badgers (Meles meles) are a wildlife reservoir for Mycobacterium bovis (M. bovis) in parts of England, Wales and Ireland, constituting a potential source of tuberculosis (TB) infection for cattle. Vaccination of badgers against TB is one of the tools available for helping reduce the prevalence of bovine TB in badgers, made possible by the licensing in 2010 of Bacillus Calmette-Guérin (BCG) vaccine for intramuscular administration to badgers (BadgerBCG). However, practical limitations associated with administering an injected vaccine to wild animals make an oral, bait-delivered form of the vaccine highly desirable. Evaluation of the safety of oral BCG to badgers and the environment is a mandatory step on the road to licensing an oral vaccine. This study had the following objectives: (a) to determine whether adverse effects followed the oral administration of BCG vaccine to badgers; (b) to measure the quantity and frequency of BCG excreted in the faeces of vaccinated badgers; and (c) to assess whether there was evidence of the vaccine spreading to unvaccinated, 'sentinel' badgers sharing the same environment as vaccinated animals. We report here that the oral administration per badger of ≥6.4 × 10 9  cfu BCG, followed 14 days later by a single oral dose of ≥6.4 × 10 7  cfu BCG caused no adverse physical effects and did not affect the social behaviour and feeding habits of the vaccinated animals. BCG was cultured from the faeces of two of nine vaccinated animals (372 cfu/g and 996 cfu/g, respectively) approximately 48 h after the higher dose of BCG was administered and by one of the nine vaccinated animal (80 cfu/g) approximately 24 h after receiving the lower dose of BCG. We found no evidence for the transmission of BCG to unvaccinated, sentinel, badgers housed with the vaccinated animals despite the occasional excretion of BCG in faeces., (Crown Copyright © 2018. Published by Elsevier Ltd. All rights reserved.)

Published

2018

5. Quantitative interferon-gamma responses predict future disease progression in badgers naturally infected with Mycobacterium bovis.

Author

Buzdugan SN, Chambers MA, Delahay RJ, and Drewe JA

Subjects

Animals, Disease Progression, Female, Male, Mustelidae immunology, Predictive Value of Tests, Tuberculosis immunology, Tuberculosis microbiology, United Kingdom, Animals, Wild microbiology, Interferon-gamma Release Tests veterinary, Mustelidae microbiology, Mycobacterium bovis, Tuberculosis veterinary

Abstract

The diagnosis and control of Mycobacterium bovis infection (bovine tuberculosis: TB) continues to present huge challenges to the British cattle industry. A clearer understanding of the magnitude and duration of immune response to M. bovis infection in the European badger (Meles meles) - a wildlife maintenance host - may assist with the future development of diagnostic tests, and vaccination and disease management strategies. Here, we analyse 5280 diagnostic test results from 550 live wild badgers from a naturally-infected population to investigate whether one diagnostic test (a gamma interferon release [IFNγ] assay, n = 550 tests) could be used to predict future positive results on two other tests for the same disease (a serological test [n = 2342 tests] and mycobacterial culture [n = 2388 tests]) and hence act as an indicator of likely bacterial excretion or disease progression. Badgers with the highest IFNγ optical density (OD) values were most likely to subsequently test positive on both serological and culture tests, and this effect was detectable for up to 24 months after the IFNγ test. Furthermore, the higher the original IFNγ OD value, the greater the chance that a badger would subsequently test positive using serology. Relationships between IFNγ titres and mycobacterial culture results from different types of clinical sample suggest that the route of infection may affect the magnitude of immune response in badgers. These findings identify further value in the IFNγ test as a useful research tool, as it may help us to target studies at animals and groups that are most likely to succumb to more progressive disease.

Published

2017

6. Badger macrophages fail to produce nitric oxide, a key anti-mycobacterial effector molecule.

Author

Bilham K, Boyd AC, Preston SG, Buesching CD, Newman C, Macdonald DW, and Smith AL

Subjects

Animals, Cattle, Imidazoles pharmacology, Immunity, Innate, Interferon-gamma genetics, Interferon-gamma metabolism, Interferon-gamma pharmacology, Interleukin-1beta genetics, Interleukin-1beta metabolism, Lipopolysaccharides pharmacology, Macrophages cytology, Macrophages drug effects, Mustelidae immunology, Mycobacterium drug effects, Nitric Oxide Synthase Type II classification, Nitric Oxide Synthase Type II genetics, Nitric Oxide Synthase Type II metabolism, Phylogeny, Recombinant Proteins biosynthesis, Recombinant Proteins isolation & purification, Recombinant Proteins pharmacology, Toll-Like Receptor 9 antagonists & inhibitors, Toll-Like Receptor 9 genetics, Toll-Like Receptor 9 metabolism, Tuberculosis, Bovine microbiology, Tuberculosis, Bovine pathology, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, Up-Regulation drug effects, Macrophages metabolism, Mustelidae metabolism, Nitric Oxide metabolism

Abstract

The European badger is recognised as a wildlife reservoir for bovine tuberculosis (bTB); the control of which is complex, costly and controversial. Despite the importance of badgers in bTB and the well-documented role for macrophages as anti-mycobacterial effector cells, badger macrophage (bdMφ) responses remain uncharacterised. Here, we demonstrate that bdMφ fail to produce nitric oxide (NO) or upregulate inducible nitric oxide synthase (iNOS) mRNA following Toll-like receptor (TLR) agonist treatment. BdMφ also failed to make NO after stimulation with recombinant badger interferon gamma (bdIFNγ) or a combination of bdIFNγ and lipopolysaccharide. Exposure of bdMφ to TLR agonists and/or bdIFNγ resulted in upregulated cytokine (IL1β, IL6, IL12 and TNFα) mRNA levels indicating that these critical pathways were otherwise intact. Although stimulation with most TLR agonists resulted in strong cytokine mRNA responses, weaker responses were evident after exposure to TLR9 agonists, potentially due to very low expression of TLR9 in bdMφ. Both NO and TLR9 are important elements of innate immunity to mycobacteria, and these features of bdMφ biology would impair their capacity to resist bTB infection. These findings have significant implications for the development of bTB management strategies, and support the use of vaccination to reduce bTB infection in badgers.

Published

2017

7. Testing of a palatable bait and compatible vaccine carrier for the oral vaccination of European badgers (Meles meles) against tuberculosis.

Author

Gowtage S, Williams GA, Henderson R, Aylett P, MacMorran D, Palmer S, Robertson A, Lesellier S, Carter SP, and Chambers MA

Subjects

Administration, Oral, Animals, Cattle, Drug Delivery Systems methods, Iopanoic Acid administration & dosage, Mustelidae microbiology, Tuberculosis, Bovine immunology, Tuberculosis, Bovine microbiology, Vaccine Potency, Vaccines, Edible, BCG Vaccine administration & dosage, Disease Reservoirs microbiology, Mustelidae immunology, Mycobacterium bovis immunology, Tuberculosis, Bovine prevention & control, Vaccination methods

Abstract

The oral vaccination of wild badgers (Meles meles) with live Bacillus Calmette-Guérin (BCG) is one of the tools being considered for the control of bovine tuberculosis (caused by Mycobacterium bovis) in the UK. The design of a product for oral vaccination requires that numerous, and often competing, conditions are met. These include the need for a highly palatable, but physically stable bait that will meet regulatory requirements, and one which is also compatible with the vaccine formulation; in this case live BCG. In collaboration with two commercial bait companies we have developed a highly attractive and palatable bait recipe designed specifically for European badgers (Meles meles) that meets these requirements. The palatability of different batches of bait was evaluated against a standardised palatable control bait using captive badgers. The physical properties of the bait are described e.g. firmness and colour. The microbial load in the bait was assessed against European and US Pharmacopoeias. The bait was combined with an edible vaccine carrier made of hydrogenated peanut oil in which BCG vaccine was stable during bait manufacture and cold storage, demonstrating <0.5 log 10 reduction in titre after 117weeks' storage at -20°C. BCG stability in bait was also evaluated at +4°C and under simulated environmental conditions (20°C, 98% Relative Humidity; RH). Finally, iophenoxic acid biomarkers were utilised as a surrogate for the BCG vaccine, to test variants of the vaccine-bait design for their ability to deliver biomarker to the gastrointestinal tract of individual animals. These data provide the first detailed description of a bait-vaccine delivery system developed specifically for the oral vaccination of badgers against Mycobacterium bovis using live BCG., (Crown Copyright © 2016. Published by Elsevier Ltd. All rights reserved.)

Published

2017

8. No Compensatory Relationship between the Innate and Adaptive Immune System in Wild-Living European Badgers.

Author

Sin YW, Newman C, Dugdale HL, Buesching C, Mannarelli ME, Annavi G, Burke T, and Macdonald DW

Subjects

Adaptation, Physiological immunology, Alleles, Animals, Female, Haplotypes, Major Histocompatibility Complex genetics, Major Histocompatibility Complex immunology, Male, Mustelidae genetics, Seasons, Selection, Genetic, Adaptive Immunity genetics, Genetic Variation immunology, Immunity, Innate genetics, Mustelidae immunology

Abstract

The innate immune system provides the primary vertebrate defence system against pathogen invasion, but it is energetically costly and can have immune pathological effects. A previous study in sticklebacks found that intermediate major histocompatibility complex (MHC) diversity correlated with a lower leukocyte coping capacity (LCC), compared to individuals with fewer, or many, MHC alleles. The organization of the MHC genes in mammals, however, differs to the highly duplicated MHC genes in sticklebacks by having far fewer loci. Using European badgers (Meles meles), we therefore investigated whether innate immune activity, estimated functionally as the ability of an individual's leukocytes to produce a respiratory burst, was influenced by MHC diversity. We also investigated whether LCC was influenced by factors such as age-class, sex, body condition, season, year, neutrophil and lymphocyte counts, and intensity of infection with five different pathogens. We found that LCC was not associated with specific MHC haplotypes, MHC alleles, or MHC diversity, indicating that the innate immune system did not compensate for the adaptive immune system even when there were susceptible MHC alleles/haplotypes, or when the MHC diversity was low. We also identified a seasonal and annual variation of LCC. This temporal variation of innate immunity was potentially due to physiological trade-offs or temporal variation in pathogen infections. The innate immunity, estimated as LCC, does not compensate for MHC diversity suggests that the immune system may function differently between vertebrates with different MHC organizations, with implications for the evolution of immune systems in different taxa., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

9. Age-related declines in immune response in a wild mammal are unrelated to immune cell telomere length.

Author

Beirne C, Waring L, McDonald RA, Delahay R, and Young A

Subjects

Animals, England, Female, Interferon-gamma metabolism, Male, Aging, Immunity, Innate, Interferon-gamma genetics, Mustelidae genetics, Mustelidae immunology, Mustelidae physiology, Telomere, Tuberculosis immunology

Abstract

Senescence has been hypothesized to arise in part from age-related declines in immune performance, but the patterns and drivers of within-individual age-related changes in immunity remain virtually unexplored in natural populations. Here, using a long-term epidemiological study of wild European badgers (Meles meles), we (i) present evidence of a within-individual age-related decline in the response of a key immune-signalling cytokine, interferon-gamma (IFNγ), to ex vivo lymphocyte stimulation, and (ii) investigate three putative drivers of individual variation in the rate of this decline (sex, disease and immune cell telomere length; ICTL). That the within-individual rate of age-related decline markedly exceeded that at the population level suggests that individuals with weaker IFNγ responses are selectively lost from this population. IFNγ responses appeared to decrease with the progression of bovine tuberculosis infection (independent of age) and were weaker among males than females. However, neither sex nor disease influenced the rate of age-related decline in IFNγ response. Similarly, while ICTL also declines with age, variation in ICTL predicted neither among- nor within-individual variation in IFNγ response. Our findings provide evidence of within-individual age-related declines in immune performance in a wild mammal and highlight the likely complexity of the mechanisms that generate them., (© 2016 The Authors.)

Published

2016

10. Genetic variation of the MHC class II DRB genes in the Japanese weasel, Mustela itatsi, endemic to Japan, compared with the Siberian weasel, Mustela sibirica.

Author

Nishita Y, Abramov AV, Kosintsev PA, Lin LK, Watanabe S, Yamazaki K, Kaneko Y, and Masuda R

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Exons genetics, Gene Frequency, Genetic Variation, Molecular Sequence Data, Mustelidae immunology, Phylogeny, Pseudogenes genetics, Selection, Genetic, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Species Specificity, Genes, MHC Class II, Mustelidae genetics

Abstract

Major histocompatibility complex (MHC) genes encode proteins that play a critical role in vertebrate immune system and are highly polymorphic. To further understand the molecular evolution of the MHC genes, we compared MHC class II DRB genes between the Japanese weasel (Mustela itatsi), a species endemic to Japan, and the Siberian weasel (Mustela sibirica), a closely related species on the continent. We sequenced a 242-bp region of DRB exon 2, which encodes antigen-binding sites (ABS), and found 24 alleles from 31 M. itatsi individuals and 17 alleles from 21 M. sibirica individuals, including broadly distributed, species-specific and/or geographically restricted alleles. Our results suggest that pathogen-driven balancing selection have acted to maintain the diversity in the DRB genes. For predicted ABS, nonsynonymous substitutions exceeded synonymous substitutions, also indicating positive selection, which was not seen at non-ABS. In a Bayesian phylogenetic tree, two M. sibirica DRB alleles were basal to the rest of the sequences from mustelid species and may represent ancestral alleles. Trans-species polymorphism was evident between many mustelid DRB alleles, especially between M. itatsi and M. sibirica. These two Mustela species divided about 1.7 million years ago, but still share many MHC alleles, indicative of their close phylogenetic relationship., (© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2015

11. Fourth year of badger vaccination project starts in Wales.

Subjects

Animals, Cattle, Disease Eradication, Program Evaluation economics, Vaccination statistics & numerical data, Wales, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Published

2015

12. Association of quantitative interferon-γ responses with the progression of naturally acquired Mycobacterium bovis infection in wild European badgers (Meles meles).

Author

Tomlinson AJ, Chambers MA, McDonald RA, and Delahay RJ

Subjects

Animals, Disease Progression, Immunity, Cellular, Interferon-gamma blood, Interferon-gamma immunology, Longitudinal Studies, Mustelidae microbiology, Tuberculin, Tuberculosis diagnosis, Interferon-gamma biosynthesis, Mustelidae immunology, Mycobacterium bovis immunology, Tuberculosis veterinary

Abstract

Bovine tuberculosis is one of the biggest challenges facing cattle farming in Great Britain. European badgers (Meles meles) are a reservoir host for the causal agent, Mycobacterium bovis. There have been significant recent advances in diagnostic testing for tuberculosis in humans, cattle and badgers, with the development of species-specific assays for interferon-γ (IFN-γ), an important cytokine in tuberculous infections. Using data collected from longitudinal studies of naturally infected wild badgers, we report that the magnitude of the IFN-γ response to M. bovis antigens at the disclosing test event was positively correlated with subsequent progression of disease to a seropositive or excreting state. In addition, we show that the magnitude of the IFN-γ response, despite fluctuation, declined with time after the disclosing event for all badgers, but remained significantly higher in those animals with evidence of disease progression. We discuss how our findings may be related to the immunopathogenesis of natural M. bovis infection in badgers., (© 2014 Crown copyright. Immunology © 2014 John Wiley & Sons Ltd. This article is published with the permission of the Controller of HMSO and the Queen's Printer for Scotland.)

Published

2015

13. Mortality trajectory analysis reveals the drivers of sex-specific epidemiology in natural wildlife-disease interactions.

Author

McDonald JL, Smith GC, McDonald RA, Delahay RJ, and Hodgson D

Subjects

Animals, Bayes Theorem, Cattle, Female, Longitudinal Studies, Male, Mustelidae genetics, Mustelidae immunology, Mycobacterium bovis immunology, Survival Analysis, Mustelidae microbiology, Sex Characteristics, Tuberculosis, Bovine epidemiology, Tuberculosis, Bovine mortality

Abstract

In animal populations, males are commonly more susceptible to disease-induced mortality than females. However, three competing mechanisms can cause this sex bias: weak males may simultaneously be more prone to exposure to infection and mortality; being 'male' may be an imperfect proxy for the underlying driver of disease-induced mortality; or males may experience increased severity of disease-induced effects compared with females. Here, we infer the drivers of sex-specific epidemiology by decomposing fixed mortality rates into mortality trajectories and comparing their parameters. We applied Bayesian survival trajectory analysis to a 22-year longitudinal study of a population of badgers (Meles meles) naturally infected with bovine tuberculosis (bTB). At the point of infection, infected male and female badgers had equal mortality risk, refuting the hypothesis that acquisition of infection occurs in males with coincidentally high mortality. Males and females exhibited similar levels of heterogeneity in mortality risk, refuting the hypothesis that maleness is only a proxy for disease susceptibility. Instead, sex differences were caused by a more rapid increase in male mortality rates following infection. Males are indeed more susceptible to bTB, probably due to immunological differences between the sexes. We recommend this mortality trajectory approach for the study of infection in animal populations.

Published

2014

14. Badger responses to small-scale culling may compromise targeted control of bovine tuberculosis.

Author

Bielby J, Donnelly CA, Pope LC, Burke T, and Woodroffe R

Subjects

Animals, Cattle, Female, Male, United Kingdom, Models, Biological, Mustelidae immunology, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis Vaccines immunology, Tuberculosis Vaccines pharmacology, Tuberculosis, Bovine epidemiology, Tuberculosis, Bovine immunology, Tuberculosis, Bovine prevention & control, Tuberculosis, Bovine transmission

Abstract

Where wildlife disease requires management, culling is frequently considered but not always effective. In the British Isles, control of cattle tuberculosis (TB) is hindered by infection in wild badger (Meles meles) populations. Large-scale badger culling can reduce the incidence of confirmed cattle TB, but these benefits are undermined by culling-induced changes in badger behavior (termed perturbation), which can increase transmission among badgers and from badgers to cattle. Test-vaccinate/remove (TVR) is a novel approach that entails testing individual badgers for infection, vaccinating test-negative animals, and killing test-positive animals. Imperfect capture success, diagnostic sensitivity, and vaccine effectiveness mean that TVR would be expected to leave some infected and some susceptible badgers in the population. Existing simulation models predict that TVR could reduce cattle TB if such small-scale culling causes no perturbation, but could increase cattle TB if considerable perturbation occurs. Using data from a long-term study, we show that past small-scale culling was significantly associated with four metrics of perturbation in badgers: expanded ranging, more frequent immigration, lower genetic relatedness, and elevated prevalence of Mycobacterium bovis, the causative agent of TB. Though we could not reject the hypothesis that culling up to three badgers per social group might avoid perturbation, we also could not reject the hypothesis that killing a single badger prompted detectable perturbation. When considered alongside existing model predictions, our findings suggest that implementation of TVR, scheduled for 2014, risks exacerbating the TB problem rather than controlling it. Ongoing illegal badger culling is likewise expected to increase cattle TB risks.

Published

2014

15. Overview of vaccination trials for control of tuberculosis in cattle, wildlife and humans.

Author

Buddle BM, Parlane NA, Wedlock DN, and Heiser A

Subjects

Animals, BCG Vaccine immunology, Cattle, Deer immunology, Deer microbiology, Humans, Mustelidae immunology, Mustelidae microbiology, Mycobacterium bovis immunology, Sus scrofa immunology, Sus scrofa microbiology, Swine, Tuberculosis, Bovine immunology, Vaccination veterinary, Vaccines, Attenuated immunology, BCG Vaccine administration & dosage, Tuberculosis, Bovine prevention & control

Abstract

Vaccination is a key strategy for control of tuberculosis (TB), and considerable progress has been made in the past 5 years to develop improved vaccines for humans and animals, differentiate vaccinated animals from those infected with Mycobacterium bovis and deliver vaccines to wildlife. Studies have moved from testing vaccines in small animal models to clinical trials in humans and from experimental challenge studies in cattle and wildlife to evaluation of vaccines in the field. Candidate vaccines undergoing testing in humans include live mycobacterial vaccines to replace bacille Calmette Guérin (BCG), subunit vaccines (virus vector or protein) to boost BCG and therapeutic vaccines used as an adjunct to chemotherapy. In cattle, a number of diagnostic tests have been developed and successfully tested for differentiating infected from vaccinated animals, which will facilitate the use of BCG vaccine in cattle. Encouraging results have been obtained from recent field trials in cattle using BCG vaccine to protect against natural exposure to M. bovis. To date, no subunit TB vaccines have induced improved protection compared with that for BCG, but prime-boost combinations of BCG with DNA, protein or virus-vectored vaccines have induced better protection than BCG vaccine alone. Development of an oral bait BCG formulation has demonstrated the practicality of delivering TB vaccines to wildlife. Oral BCG preparations have induced protection against experimental challenge of M. bovis in possums, badgers, wild boar and white-tailed deer and against natural exposure to M. bovis in possums. Recent progress in TB vaccine development has provided much impetus for their future use., (© 2013 Blackwell Verlag GmbH.)

Published

2013

16. Control strategies for wildlife tuberculosis in Ireland.

Author

Gormley E and Corner LA

Subjects

Animals, Animals, Wild immunology, BCG Vaccine, Cattle, Female, Ireland epidemiology, Mustelidae immunology, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis, Bovine immunology, Tuberculosis, Bovine transmission, Animals, Wild microbiology, Communicable Disease Control methods, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Abstract

The principal domestic maintenance host for Mycobacterium bovis is infected cattle. In countries where comprehensive surveillance schemes have been applied, tuberculosis rarely affects an animal to the extent that it presents with clinical disease. In the latter stages of an eradication campaign, the aim is to maintain the disease-free status of clear herds and eliminate foci of infection in herds as well as restricting movement of infected animals from these herds, other than to slaughter. However, the eradication of tuberculosis from cattle herds may be compromised if infected wildlife species, such as Eurasian badgers (Meles meles), share the same environment and contribute to transmission of infection. The options for dealing with tuberculosis in the wildlife reservoir hosts are limited to segregation of domestic animals from the wildlife, culling of the wildlife host or vaccination. Options are further limited by conservation and social reasons, particularly where culling is concerned. In Ireland and the UK, vaccination of badgers against M. bovis, if successfully employed, could directly facilitate the completion of bovine tuberculosis eradication. Programmes of research into vaccination of badgers are being undertaken in both countries, and there is clear evidence that vaccination induces protection. Vaccine trials in captive badgers have established that the M. bovis bacille Calmette-Guérin (BCG) vaccine can induce a protective response that limits the distribution and severity of tuberculosis disease following experimental challenge. In Ireland, a large-scale field trial of oral BCG vaccination is being conducted to measure the protection generated in wild badgers subjected to natural transmission of infection and to estimate vaccine efficacy. The results will provide a framework for the development and implementation of a national strategy to address the disease in badger populations and if successful will remove this major impediment to tuberculosis eradication from cattle., (© 2013 Blackwell Verlag GmbH.)

Published

2013

17. Defra extends its badger vaccination fund.

Subjects

Animals, BCG Vaccine administration & dosage, Cattle, Government, Mustelidae microbiology, Tuberculosis, Bovine transmission, United Kingdom, Vaccination economics, BCG Vaccine economics, Capital Financing, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Published

2013

18. Welsh badger vaccination project: progress so far.

Subjects

Animals, Cattle, Government, Mustelidae microbiology, Program Evaluation, Tuberculosis, Bovine transmission, Wales, BCG Vaccine administration & dosage, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Published

2013

19. Mycobacterium bovis infection in badger cubs: re-assessing the evidence for maternally derived immunological protection from advanced disease.

Author

Tomlinson A, Chambers M, and Delahay R

Subjects

Animals, Enzyme-Linked Immunosorbent Assay veterinary, Female, Immunity, Cellular immunology, Immunity, Humoral immunology, Mustelidae microbiology, Tuberculosis immunology, Immunity, Maternally-Acquired immunology, Mustelidae immunology, Mycobacterium bovis immunology, Tuberculosis veterinary

Abstract

The Eurasian badger (Meles meles) is a significant source of bovine tuberculosis in cattle in the UK and Ireland. Protection from infectious diseases, arising from maternal antibody transfer, is a well-established immunological phenomenon in mammals. In a previous study of wild badgers, transient serological responses in cubs were taken as evidence of maternal antibody transfer, and it was speculated this conferred protection from subsequent mycobacterial excretion following acquisition of tuberculosis. However successful defence against mycobacterial infections is likely to be dominated by a cell-mediated response. Using a substantially larger dataset from the same badger population, we revisited the hypothesis of maternally derived protection. Whilst we found a significant association between transient serological responses and absence of subsequent Mycobacterium bovis excretion, the likelihood of detection of such responses was not significantly associated either with badger age, or with infection in the breeding females within a cub's natal group. We concluded that although maternal antibody transfer in badgers almost certainly occurs, transient serological responses represent an invalid proxy, and the reduced likelihood of M. bovis excretion associated with transient responses was more likely to be due to the lower sensitivity of the Brock ELISA test in detecting badgers with less advanced disease., (Crown Copyright © 2012. Published by Elsevier B.V. All rights reserved.)

Published

2012

20. Welsh Government and National Trust to collaborate on badger vaccination.

Subjects

Animals, Cattle, Mustelidae microbiology, Tuberculosis, Bovine transmission, Vaccination legislation & jurisprudence, Wales, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Published

2012

21. BCG vaccination against tuberculosis in European badgers (Meles meles): a review.

Author

Robinson PA, Corner LA, Courcier EA, McNair J, Artois M, Menzies FD, and Abernethy DA

Subjects

Animals, Cattle, Disease Reservoirs microbiology, Humans, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis immunology, Tuberculosis microbiology, Tuberculosis prevention & control, Tuberculosis, Bovine immunology, Tuberculosis, Bovine microbiology, Vaccination veterinary, BCG Vaccine immunology, Disease Reservoirs veterinary, Mustelidae immunology, Tuberculosis veterinary, Tuberculosis, Bovine prevention & control

Abstract

Tuberculosis (TB) is a significant animal health problem in many parts of the world, and reservoirs of infection in wild animals complicate disease control efforts in farmed livestock, particularly cattle. Badgers (Meles meles) are a significant wildlife reservoir of Mycobacterium bovis infection for cattle in the United Kingdom (UK) and Republic of Ireland (ROI). Vaccination of badgers using an M. bovis strain bacille Calmette-Guérin (BCG) vaccine could potentially be an option in the national TB eradication strategy. Wildlife vaccination has been used successfully for other diseases in wildlife species, and may have a role to play in reducing M. bovis transmission at the wildlife-livestock interface. Research to date has provided evidence that BCG is protective in badgers, and a parenteral badger BCG vaccine has been licensed in the UK. Further research is required to develop effective strategies for vaccine deployment and to determine the effect of badger vaccination on cattle TB incidence., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

22. Farmers' confidence in vaccinating badgers against bovine tuberculosis.

Author

Enticott G, Maye D, Ilbery B, Fisher R, and Kirwan J

Subjects

Animal Husbandry, Animals, BCG Vaccine administration & dosage, BCG Vaccine immunology, Cattle, Female, Male, Mustelidae immunology, Politics, Tuberculosis Vaccines immunology, Tuberculosis, Bovine epidemiology, Tuberculosis, Bovine transmission, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis Vaccines administration & dosage, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Abstract

This paper examines UK farmers' levels of confidence in vaccinating badgers against bovine tuberculosis (bTB) and their trust in the Government's ability to deal with bTB. In 2010, a badger vaccine based on the BCG vaccine was licensed following field trials and used as part of the UK Government's Badger Vaccination Deployment Project. A stratified random sample of cattle farmers in five different locations of England was surveyed using a telephone survey to elicit their views of badger vaccination. The survey provided a total of 341 responses with a response rate of 80 per cent. Results suggest that the farmers are cautious about badger vaccination, appearing to be neither overly confident nor unconfident in it. However, the farmers did not reveal high levels of trust in the Government to manage bTB policy or badger vaccination. There were no differences in the levels of confidence or trust between farms that were under bTB restrictions at the time of the survey and those that were not or between farms with historically high levels of bTB. Analysis of principal components suggests that 33 per cent of the farmers accepted badger vaccination, but that acceptance is dependent on the wider social and political environment.

Published

2012

23. BCG vaccination reduces risk of tuberculosis infection in vaccinated badgers and unvaccinated badger cubs.

Author

Carter SP, Chambers MA, Rushton SP, Shirley MD, Schuchert P, Pietravalle S, Murray A, Rogers F, Gettinby G, Smith GC, Delahay RJ, Hewinson RG, and McDonald RA

Subjects

Animals, Cattle, Mycobacterium bovis immunology, Tuberculosis prevention & control, Tuberculosis, Bovine prevention & control, Disease Reservoirs veterinary, Mustelidae immunology, Tuberculosis veterinary, Tuberculosis Vaccines, Vaccination veterinary

Abstract

Wildlife is a global source of endemic and emerging infectious diseases. The control of tuberculosis (TB) in cattle in Britain and Ireland is hindered by persistent infection in wild badgers (Meles meles). Vaccination with Bacillus Calmette-Guérin (BCG) has been shown to reduce the severity and progression of experimentally induced TB in captive badgers. Analysis of data from a four-year clinical field study, conducted at the social group level, suggested a similar, direct protective effect of BCG in a wild badger population. Here we present new evidence from the same study identifying both a direct beneficial effect of vaccination in individual badgers and an indirect protective effect in unvaccinated cubs. We show that intramuscular injection of BCG reduced by 76% (Odds ratio = 0.24, 95% confidence interval (CI) 0.11-0.52) the risk of free-living vaccinated individuals testing positive to a diagnostic test combination to detect progressive infection. A more sensitive panel of tests for the detection of infection per se identified a reduction of 54% (Odds ratio = 0.46, 95% CI 0.26-0.88) in the risk of a positive result following vaccination. In addition, we show the risk of unvaccinated badger cubs, but not adults, testing positive to an even more sensitive panel of diagnostic tests decreased significantly as the proportion of vaccinated individuals in their social group increased (Odds ratio = 0.08, 95% CI 0.01-0.76; P = 0.03). When more than a third of their social group had been vaccinated, the risk to unvaccinated cubs was reduced by 79% (Odds ratio = 0.21, 95% CI 0.05-0.81; P = 0.02).

Published

2012

24. Control of tuberculosis in badgers by vaccination: where next?

Author

Gormley E and Corner LA

Subjects

Animals, BCG Vaccine immunology, Cattle, Ireland, Mustelidae microbiology, Mycobacterium bovis immunology, Mycobacterium bovis pathogenicity, Tuberculosis, Bovine epidemiology, United Kingdom, BCG Vaccine therapeutic use, Disease Reservoirs veterinary, Mustelidae immunology, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Published

2011

25. Trial design to estimate the effect of vaccination on tuberculosis incidence in badgers.

Author

Aznar I, McGrath G, Murphy D, Corner LA, Gormley E, Frankena K, More SJ, Martin W, O'Keeffe J, and De Jong MC

Subjects

Animals, BCG Vaccine administration & dosage, BCG Vaccine immunology, Cattle, Incidence, Ireland epidemiology, Models, Statistical, Mustelidae immunology, Mycobacterium bovis immunology, Prevalence, Randomized Controlled Trials as Topic, Tuberculosis Vaccines immunology, Tuberculosis, Bovine epidemiology, Tuberculosis, Bovine transmission, Mustelidae microbiology, Research Design, Tuberculosis Vaccines administration & dosage, Tuberculosis, Bovine prevention & control, Vaccination veterinary

Abstract

The principal wildlife reservoir of Mycobacterium bovis in Ireland is the European badger. Studies in the Republic of Ireland (RoI) have shown that badgers culled in association with cattle herd tuberculosis breakdowns (focal culling) have a higher prevalence of infection than the badger population at large. This observation is one rationale for the medium term national strategy of focal badger culling. A vaccination strategy for the control of bovine tuberculosis (bTB) in badgers is a preferred long-term option. The Bacillus Calmette-Guérin (BCG) vaccine has been shown to decrease disease severity in captive badgers under controlled conditions. As the vaccine has been tested in a controlled environment with precise information on infection pressure, it cannot be assumed a priori that the effects of vaccination are similar in the wild, where other environmental and/or ecological factors prevail. For this reason we have designed a vaccine field trial to assess the impact of vaccination on the incidence of TB infection in a wild badger population. The selected study area for the vaccine trial (approximately 755 square kilometers) is divided into three zones each of which has similar characteristics in terms of size, number of main badger setts, cattle herds, cattle and land classification type. Three vaccination levels (100%, 50% and 0%) will be allocated to the three zones in a way that a gradient of vaccination coverage North to South is achieved. The middle zone (zone B) will be vaccinated at a 50% coverage but zone A and C will be randomly allocated with 100% or 0% vaccination coverage. Vaccination within zone B will be done randomly at individual badger level. The objective of this paper is to describe the design of a field tuberculosis vaccination trial for badgers, the epidemiological methods that were used to design the trial and the subsequent data analysis. The analysis will enable us to quantify the magnitude of the observed vaccination effect on M. bovis transmission in badgers under field conditions and to improve our knowledge of the biological effects of vaccination on susceptibility and infectiousness., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

26. Bacillus Calmette-Guérin vaccination reduces the severity and progression of tuberculosis in badgers.

Author

Chambers MA, Rogers F, Delahay RJ, Lesellier S, Ashford R, Dalley D, Gowtage S, Davé D, Palmer S, Brewer J, Crawshaw T, Clifton-Hadley R, Carter S, Cheeseman C, Hanks C, Murray A, Palphramand K, Pietravalle S, Smith GC, Tomlinson A, Walker NJ, Wilson GJ, Corner LA, Rushton SP, Shirley MD, Gettinby G, McDonald RA, and Hewinson RG

Subjects

Animals, BCG Vaccine immunology, Cattle, England, Mustelidae blood, Mustelidae microbiology, Mycobacterium bovis immunology, Mycobacterium bovis pathogenicity, Tuberculosis, Bovine transmission, BCG Vaccine therapeutic use, Disease Reservoirs veterinary, Mustelidae immunology, Tuberculosis, Bovine prevention & control

Abstract

Control of bovine tuberculosis (TB) in cattle has proven particularly challenging where reservoirs of infection exist in wildlife populations. In Britain and Ireland, control is hampered by a reservoir of infection in Eurasian badgers (Meles meles). Badger culling has positive and negative effects on bovine TB in cattle and is difficult, costly and controversial. Here we show that Bacillus Calmette-Guérin (BCG) vaccination of captive badgers reduced the progression, severity and excretion of Mycobacterium bovis infection after experimental challenge. In a clinical field study, BCG vaccination of free-living badgers reduced the incidence of positive serological test results by 73.8 per cent. In common with other species, BCG did not appear to prevent infection of badgers subjected to experimental challenge, but did significantly reduce the overall disease burden. BCG vaccination of badgers could comprise an important component of a comprehensive programme of measures to control bovine TB in cattle.

Published

2011

27. Oral vaccination of badgers (Meles meles) with BCG and protective immunity against endobronchial challenge with Mycobacterium bovis.

Author

Corner LA, Costello E, O'Meara D, Lesellier S, Aldwell FE, Singh M, Hewinson RG, Chambers MA, and Gormley E

Subjects

Administration, Oral, Animals, BCG Vaccine immunology, Cattle, Female, Immunity, Cellular, Interferon-gamma immunology, Lung pathology, Lymph Nodes microbiology, Male, Mycobacterium bovis immunology, Tuberculosis, Bovine immunology, BCG Vaccine administration & dosage, Mustelidae immunology, Tuberculosis, Bovine prevention & control

Abstract

Eurasian badgers (Meles meles) are a reservoir host of Mycobacterium bovis and are implicated in the transmission of tuberculosis to cattle in Ireland and Great Britain. The development of a vaccine for use in badgers is considered a key element of any long-term sustainable campaign to eradicate the disease from livestock in both countries. The aim of this study was to investigate the protective response of badgers vaccinated orally with Bacille Calmette-Guérin (BCG) encapsulated in a lipid formulation, followed by experimental challenge with M. bovis. A group of badgers was vaccinated by inoculating the BCG-lipid mixture containing approximately 10(8)colony forming units (cfu) of BCG into the oesophagus. The control group was sham inoculated with the lipid formulation only. Thirteen weeks after vaccination all the badgers were challenged with approximately 10(4)cfu of M. bovis delivered by endobronchial inoculation. Blood samples were taken throughout the study and the cell mediated immune (CMI) responses in peripheral blood were monitored by the IFN-gamma ELISA and ELISPOT assay. At 17 weeks after infection all the badgers were examined post-mortem to assess the pathological and bacteriological responses to challenge. All badgers in both groups were found to be infected. However, a significant protective effect of BCG vaccination was measured as a decrease in the number and severity of gross lesions, lower bacterial load in the lungs, and fewer sites of infection. The analysis of immune responses showed that vaccination with BCG did not generate any detectable CMI immunological responses, however the levels of the responses increased in both groups following M. bovis infection. The results of the study showed that vaccination with oral BCG in the lipid formulation generated a protective effect in the badgers., ((c) 2010 Elsevier Ltd. All rights reserved.)

Published

2010

28. Evaluation of a rapid serological test for the determination of Mycobacterium bovis infection in badgers (Meles meles) found dead.

Author

Chambers MA, Lyashchenko KP, Greenwald R, Esfandiari J, James E, Barker L, Jones J, Watkins G, and Rolfe S

Subjects

Animals, Female, Male, Mustelidae immunology, Sensitivity and Specificity, Tuberculosis diagnosis, Tuberculosis immunology, Antibodies, Bacterial blood, Immunoassay methods, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis veterinary

Abstract

Between October 2005 and May 2006, a total of 727 badgers found dead in Wales were reported, and 550 were delivered to the Regional Laboratories of the Veterinary Laboratories Agency (VLA). Of the 459 carcasses suitable for examination, 55 were deemed to be infected with Mycobacterium bovis on the basis of culture, spoligotyping, and variable-number tandem repeat typing. Acid-fast bacteria were observed histologically in a further six badgers, but these bacteria were not confirmed as M. bovis by culture. A rapid serological test (BrockTB Stat-Pak) performed on thoracic blood showed a sensitivity of 35% and a specificity of 99%. Presence of M. bovis infection was 45 times more likely to be confirmed postmortem by culture in BrockTB Stat-Pak-reactive animals than in seronegative ones. Using visible carcass lesions as a marker of bovine tuberculosis (bTB) infection had a similar sensitivity (38%) but was significantly less specific (84%) than serology. The overall accuracy of the antibody detection was 93% (346 correct results from 374 tests), whereas the accuracy of regarding visible lesions as a marker for bTB infection was 78% (354 correct from 453 carcasses examined). Culture remains the gold standard method for detecting M. bovis infection in badgers. However, where resources are limited and/or an instant result is preferred, the BrockTB Stat-Pak could be used in field surveillance efforts to identify animals which should be examined further by only submitting test-negative animals to more detailed postmortem examination and culture.

Published

2010

29. Performance of TB immunodiagnostic tests in Eurasian badgers (Meles meles) of different ages and the influence of duration of infection on serological sensitivity.

Author

Chambers MA, Waterhouse S, Lyashchenko K, Delahay R, Sayers R, and Hewinson RG

Subjects

Age Factors, Animals, Immunologic Tests standards, Sensitivity and Specificity, Time Factors, Tuberculosis diagnosis, Immunologic Tests veterinary, Mustelidae immunology, Mycobacterium bovis, Tuberculosis veterinary

Abstract

Background: In parts of Great Britain and Ireland, Eurasian badgers (Meles meles) constitute a reservoir of Mycobacterium bovis infection and a potential source of infection for cattle. In vitro diagnostic tests for live badgers are an important component of strategies to control TB in this species. Immunological tests have been developed for badgers, although little is known about the influence of the age of the animal on test performance. To address this, we evaluated the performance of three immunological tests for badgers with respect to the age of the animal: the Brock Test and BrockTB STAT-PAK serological tests and the recently developed interferon-gamma enzyme immunoassay (IFNgamma EIA). Data published elsewhere suggested that seropositivity was associated with more progressive forms of TB in the badger. To gain further evidence for this, we used longitudinal data from a well-studied population of badgers to test for an association between the sensitivity of the Brock Test and the duration of TB infection., Results: Sensitivity of the two serological tests was approximately 54% for both cubs and adults. Sensitivity of the IFNgamma EIA was lower in cubs (57%) compared with adults (85%) when a common cut-off value was used to define test positivity. Taking data from the cubs alone, the IFNgamma EIA cut-off value could be adjusted to increase the sensitivity to 71% with no loss in specificity. As a general observation, specificity of all tests was higher in cubs, although only significantly so in the case of the Brock Test. Using logistic regression analysis to adjust for age, sensitivity of the Brock Test was significantly lower at first culture positive event (58%), but increased to >80% as infection progressed., Conclusion: These data suggest that serodiagnosis could be a valuable tool for detecting a higher proportion of badgers with the greatest probability of transmitting infection. The age category of the badger appeared to exert little influence on the performance of the serological tests. Although data were only available for the IFNgamma EIA in a small number of cubs, reduced sensitivity of the test in these individuals suggests a lower cut-off may be needed when testing younger animals.

Published

2009

30. Immunological responses following experimental endobronchial infection of badgers (Meles meles) with different doses of Mycobacterium bovis.

Author

Lesellier S, Corner L, Costello E, Sleeman P, Lyashchenko KP, Greenwald R, Esfandiari J, Glyn Hewinson R, Chambers M, and Gormley E

Subjects

Animals, Antibodies, Bacterial blood, Antigens, Bacterial, Dose-Response Relationship, Immunologic, Enzyme-Linked Immunosorbent Assay, Female, Immunity, Cellular, Immunoassay, Male, Mustelidae microbiology, Mycobacterium bovis pathogenicity, Time Factors, Tuberculosis immunology, Tuberculosis microbiology, Mustelidae immunology, Mycobacterium bovis immunology, Tuberculosis veterinary

Abstract

The Eurasian badger (Meles meles) is a wildlife reservoir for Mycobacterium bovis infection in Ireland and Great Britain and has been implicated in the transmission of tuberculosis to cattle. Vaccination of badgers is an option that could be used as part of a strategy to control the disease. In this study we used an endobronchial infection procedure to inoculate groups of badgers with three different doses (3x10(3), 2x10(2) and <10 Colony Forming Units (CFUs)) of M. bovis. After 17 weeks the disease status of each animal was determined by post-mortem pathology and culture for M. bovis. Each of the inoculum doses resulted in establishment of infection in the badgers. The cell-mediated immune (CMI) responses were measured by lymphocyte transformation assay (LTA) of peripheral blood mononuclear cells (PBMCs) cultured with bovine tuberculin (PPD-B). In each infected group the CMI responses increased with a kinetic profile corresponding to the delivered dose and the post-mortem pathology. The serological responses were measured by ELISA and a multi-antigen print immunoassay (MAPIA) in order to investigate any changes in the antigenic repertoire associated with different infective doses. In contrast to the CMI responses, the ELISA and MAPIA showed that the recognition of antigens by the badgers was intermittent and not strongly influenced by the dose of M. bovis.

Published

2009

31. Immunological responses and protective immunity in BCG vaccinated badgers following endobronchial infection with Mycobacterium bovis.

Author

Lesellier S, Corner L, Costello E, Lyashchenko K, Greenwald R, Esfandiari J, Singh M, Hewinson RG, Chambers M, and Gormley E

Subjects

Animals, Antibodies, Bacterial blood, Cattle, Colony Count, Microbial, Immunoglobulin G blood, Interferon-gamma metabolism, Leukocytes, Mononuclear immunology, Lung microbiology, Peptide Fragments metabolism, Severity of Illness Index, Tuberculosis, Bovine pathology, BCG Vaccine immunology, Disease Reservoirs, Mustelidae immunology, Mustelidae microbiology, Mycobacterium bovis immunology, Tuberculosis, Bovine prevention & control

Abstract

European badgers (Meles meles) are a reservoir host of Mycobacterium bovis and are implicated in the transmission of tuberculosis to cattle in Ireland and Great Britain. The development of a vaccine for use in badgers is considered a key element of any campaign to eradicate the disease in livestock in both countries. In this study we have vaccinated groups of badgers with approximately 5 x 10(5)cfu of the BCG vaccine delivered via two alternative routes, subcutaneous and mucosal (intranasal/conjunctival). Following experimental endobronchial infection with approximately 10(4)cfu of M. bovis, all badgers were euthanised at 12 weeks post-infection. At post-mortem examination both vaccinated groups had significantly reduced severity of disease compared with the non-vaccinated controls. The analysis of immune responses throughout the study showed that vaccination with BCG did not generate any detectable immunological responses as measured by IFN-gamma production in antigen-stimulated peripheral blood mononuclear cells (PBMC) and IgG serological responses. However, the levels of the responses increased following M. bovis infection, and the kinetic profiles corresponded to the severity of lesions recorded post-mortem. Significant differences were observed in the timing of development of the immune responses between vaccinates and controls. The results suggest that the immunological responses are associated with the levels of protective immunity and could be used as markers to monitor control of disease in badgers following vaccination.

Published

2009

32. Antigen specific immunological responses of badgers (Meles meles) experimentally infected with Mycobacterium bovis.

Author

Lesellier S, Corner L, Costello E, Sleeman P, Lyashchenko K, Greenwald R, Esfandiari J, Singh M, Hewinson RG, Chambers M, and Gormley E

Subjects

Animals, Antibodies, Bacterial blood, Female, Immunoglobulin G blood, Lymphocyte Activation, Male, Mustelidae microbiology, Tuberculin immunology, Antigens, Bacterial immunology, Mustelidae immunology, Mycobacterium bovis immunology

Abstract

European badgers (Meles meles) are considered to be an important reservoir of infection for Mycobacterium bovis and are implicated in the transmission of tuberculosis to cattle in Ireland and Great Britain. Accurate tests are required for tuberculosis surveillance in badger populations and to provide a basis for the development of strategies, including vaccination, to reduce the incidence of the infection. In this study, we have developed an endobronchial M. bovis infection model in badgers in which we measured cell-mediated immune and serological responses for up to 24 weeks post-infection. Groups of badgers were subjected to necropsy at 6-week intervals and the gross lesion severity status compared with immune responses measured in blood samples taken throughout the course of the study. The panel of antigens included bovine and avian tuberculins (PPD) as well as single antigens, ESAT-6, CFP-10, MPB70, Rv3019c, Rv3873, Rv3878 and Rv3879, all known to be recognised by the immune system in other animal models of tuberculosis infection. Our results demonstrated that M. bovis infected badgers responded to specific antigens as early as 6 weeks post-infection, consistent with the presence of visible lesions. The data also revealed unique patterns of antigen recognition with high levels of PBMC proliferation in the presence of CFP-10 but low proliferation levels with ESAT-6. Using a multi-antigen print immunoassay (MAPIA), we were able to confirm that MPB83 is the dominant antigen recognised by serum antibodies in infected badgers.

Published

2008

33. The safety and immunogenicity of Bacillus Calmette-Guérin (BCG) vaccine in European badgers (Meles meles).

Author

Lesellier S, Palmer S, Dalley DJ, Davé D, Johnson L, Hewinson RG, and Chambers MA

Subjects

Animals, BCG Vaccine adverse effects, BCG Vaccine immunology, Behavior, Animal, Body Temperature, Body Weight, Cattle, Disease Reservoirs microbiology, Female, Male, Mustelidae blood, Mustelidae microbiology, Mycobacterium bovis immunology, Mycobacterium bovis pathogenicity, Safety, Tuberculosis, Bovine prevention & control, Tuberculosis, Bovine transmission, BCG Vaccine pharmacology, Mustelidae immunology

Abstract

European badgers (Meles meles) are a wildlife reservoir for Mycobacterium bovis (M. bovis) in Great Britain (GB) and the Republic of Ireland and therefore constitute a potential source of infection for cattle. Reduction of badger densities in the Republic of Ireland has resulted in an associated reduction in the risk of a herd break-down with bovine tuberculosis and a study to determine whether this is also the case in GB has been running since 1997. If badgers are a significant source of M. bovis infection for cattle, vaccinating badgers with Bacillus Calmette-Guérin (BCG) might prove to be a long term, cost-effective strategy for controlling bovine tuberculosis whilst preserving badger populations. As a first step towards BCG vaccination of wild badgers, it was necessary to demonstrate safety of the vaccine in captive badgers. Therefore, captive badgers were vaccinated with a commercial source of BCG that is already licensed for administration to humans in GB-BCG Danish SSI. Using a protocol prescribed by the Veterinary Medicines Directorate (VMD) of GB, badgers were vaccinated with two consecutive doses of BCG via either the subcutaneous (s.c.) or intra-muscular (i.m.) routes. The first dose was high, ranging from 16 to 22 x 10(7) colony-forming units (CFU), and was followed 15 weeks later by a lower dose in the range of 4-7 x 10(5)CFU. Local reaction at the site of injection and general responses (body temperature, haematology and blood serum chemistry), behaviour and excretion of BCG were monitored for 28 weeks from the time of the first vaccination. The only side-effect observed was the occurrence of localised swelling at the site of BCG injection that disappeared 48 days after i.m. vaccination but persisted longer in the group vaccinated by the s.c. route. Immunological responses were measured at regular intervals. Strong cellular responses were observed 13 days after the first vaccination, which persisted for 76 days. The lower dose induced a weaker and shorter-lived response.

Published

2006