Dairu Shu scite author profile

Vaccination against rumen methanogens offers a practical approach to reduce methane emissions in livestock, particularly ruminants grazing on pasture. Although successful vaccination strategies have been reported for reducing the activity of the rumen-dwelling organism Streptococcus bovis in sheep and S. bovis and Lactobacillus spp. in cattle, earlier approaches using vaccines based on whole methanogen cells to reduce methane production in sheep have produced less promising results. An anti-methanogen vaccine will need to have broad specificity against methanogens commonly found in the rumen and induce antibody in saliva resulting in delivery of sufficiently high levels of antibodies to the rumen to reduce methanogen activity. Our approach has focussed on identifying surface and membrane-associated proteins that are conserved across a range of rumen methanogens. The identification of potential vaccine antigens has been assisted by recent advances in the knowledge of rumen methanogen genomes. Methanogen surface proteins have been shown to be immunogenic in ruminants and vaccination of sheep with these proteins induced specific antibody responses in saliva and rumen contents. Current studies are directed towards identifying key candidate antigens and investigating the level and types of salivary antibodies produced in sheep and cattle vaccinated with methanogen proteins, stability of antibodies in the rumen and their impact on rumen microbial populations. In addition, there is a need to identify adjuvants that stimulate high levels of salivary antibody and are suitable for formulating with protein antigens to produce a low-cost and effective vaccine.Keywords: vaccine, antigen, antibody, methane, methanogens, Methanobrevibacter ruminantium Implications A number of different mitigation strategies are being investigated for reducing methane emissions from livestock, including the development of vaccines that specifically target the methane-producing methanogens in the rumen. Previous studies on vaccinating ruminants against the rumen-dwelling organisms Streptococcus bovis and Lactobacillus spp. have demonstrated the feasibility of vaccinating animals to produce salivary antibodies that neutralise the activity of these microbes in the rumen (Shu et al., 1999(Shu et al., , 2000a(Shu et al., , 2000b(Shu et al., and 2001Gill et al., 2000). Owing to the complexity of the rumen microbiota and diversity of methanogens in the rumen, an effective vaccine for reducing methane emissions from ruminants will need to target a wide range of methanogens in the rumen among an even more diverse assemblage of bacteria, fungi and protozoa. This paper reviews the progress towards developing an anti-methanogen vaccine. IntroductionA range of different strategies are being investigated to reduce methane emissions from farmed ruminants (reviewed by Martin et al., 2010;Buddle et al., 2011;Clark, 2013). Vaccination of ruminants against rumen methanogens has the potential to reduce methane emissions by decreasing the number or activity of meth...

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Revaccination of Cattle with Bacille Calmette-Guérin Two Years after First Vaccination when Immunity Has Waned, Boosted Protection against Challenge with Mycobacterium bovis

Parlane

Shu

Subharat

et al. 2014

PLoS ONE

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In both humans and animals, controversy exists concerning the duration of protection induced by BCG vaccine against tuberculosis (TB) and whether revaccination enhances protection. A long-term study was undertaken to determine whether BCG-vaccinated calves would be protected against challenge with Mycobacterium bovis 2½ years after vaccination and to determine the effect of revaccination after 2 years. Seventy–nine calves were divided into five groups (n = 15–17 calves/group) with four of the groups vaccinated subcutaneously with 105 CFU of BCG Danish at 2–4 weeks of age and the fifth group serving as non-vaccinated controls. Three of the four BCG-vaccinated groups were revaccinated 2 years after the initial vaccination. One BCG-vaccinated group was revaccinated with BCG. A second group was vaccinated subcutaneously with a TB protein vaccine consisting of biopolyester particles (Biobeads) displaying two mycobacterial proteins, ESAT-6 and Antigen 85A, mixed with an adjuvant. A third group was vaccinated with TB proteins from M. bovis culture filtrate, mixed with an adjuvant. Twenty-three weeks after the BCG revaccination, all animals were challenged endotracheally with virulent M. bovis and a further 13 weeks later, animals were killed and necropsied to determine protection against TB. The BCG-vaccinated animals produced positive tuberculin caudal fold intradermal (15 of 62 animals) and IFN-γ TB test responses (six of 62 animals) at 6 months after vaccination, but not at subsequent time-points compared to the non-vaccinated animals. Calves receiving a single vaccination with BCG vaccine 2½ years prior to challenge were not protected against TB, while those revaccinated with BCG 2 years after the initial vaccination displayed significant reductions in lung and pulmonary lymph node lesion scores compared to the non-vaccinated animals. In contrast, no reduction in lesion scores was observed in the animals revaccinated with the TB protein vaccines with their immune responses biased towards induction of antibody.

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

Subharat

Shu

Wedlock

et al. 2012

Veterinary Immunology and Immunopathology

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Comparison of gene expression of immune mediators in lung and pulmonary lymph node granulomas from cattle experimentally infected with Mycobacterium bovis

Shu

Heiser

Wedlock

et al. 2014

Veterinary Immunology and Immunopathology

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Detection of microRNA in cattle serum and their potential use to diagnose severity of Johne's disease

Gupta

Maclean

Ganesh

et al. 2018

Journal of Dairy Science

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Mycobacterium avium subspecies paratuberculosis (MAP) causes Johne's disease in ruminants, which is characterized by chronic progressive granulomatous enteritis. The infection leads to wasting and weight loss in the animals and eventually death, causing considerable production losses to the agricultural industry worldwide. Currently available ELISA- and PCR-based diagnostic tests have limited sensitivity and specificity during early MAP infection in cattle, suggesting that there is an urgent demand for alternative diagnostic tests. Circulating microRNA (miRNA) have recently gained attention as potential biomarkers for several diseases in humans. However, knowledge and use of miRNA as biomarkers in diseases of ruminants, including Johne's disease, are very limited. Here we used NanoString nCounter technology (NanoString, Seattle, WA), a digital platform for amplification-free and hybridization-based quantitative measurement of miRNA in the sera of noninfected and naturally MAP-infected cattle with different severity of infection. Using probes developed against human miRNA, 26 miRNA were detected in cattle serum; 13 of these miRNA were previously uncharacterized for cattle. Canonical discrimination analysis using 20 miRNA grouped animals into 4 distinct clusters based on their disease status, suggesting that the levels of these miRNA can reflect disease severity. A model was developed using a combination of 4 miRNA (miR-1976, miR-873-3p, miR-520f-3p, and miR-126-3p), which distinguished moderate and severely infected animals from noninfected animals. Our study demonstrated the ability of the NanoString nCounter technology to detect differential expression of circulating miRNA in cattle and contributes to widely growing evidence that miRNA can be used as biomarkers in infectious diseases in cattle.

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Vaccination of cattle with a methanogen protein produces specific antibodies in the saliva which are stable in the rumen

Subharat

Shu

Zheng

et al. 2015

Veterinary Immunology and Immunopathology

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Dairu Shu

Activation of the mucosal immune system in irritable bowel syndrome

Reduced colonization of gastric mucosa by Helicobacter pylori in mice deficient in interleukin‐10¹

Progress in the development of vaccines against rumen methanogens

Revaccination of Cattle with Bacille Calmette-Guérin Two Years after First Vaccination when Immunity Has Waned, Boosted Protection against Challenge with Mycobacterium bovis

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

Comparison of gene expression of immune mediators in lung and pulmonary lymph node granulomas from cattle experimentally infected with Mycobacterium bovis

Detection of microRNA in cattle serum and their potential use to diagnose severity of Johne's disease

Vaccination of cattle with a methanogen protein produces specific antibodies in the saliva which are stable in the rumen

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Dairu Shu

Activation of the mucosal immune system in irritable bowel syndrome

Reduced colonization of gastric mucosa by Helicobacter pylori in mice deficient in interleukin‐101

Progress in the development of vaccines against rumen methanogens

Revaccination of Cattle with Bacille Calmette-Guérin Two Years after First Vaccination when Immunity Has Waned, Boosted Protection against Challenge with Mycobacterium bovis

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

Comparison of gene expression of immune mediators in lung and pulmonary lymph node granulomas from cattle experimentally infected with Mycobacterium bovis

Detection of microRNA in cattle serum and their potential use to diagnose severity of Johne's disease

Vaccination of cattle with a methanogen protein produces specific antibodies in the saliva which are stable in the rumen

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Resources

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Reduced colonization of gastric mucosa by Helicobacter pylori in mice deficient in interleukin‐10¹