Andrew Keyser scite author profile

BackgroundPreviously we have shown that Ag85B-TB10.4 is a highly efficient vaccine against tuberculosis when delivered in a Th1 inducing adjuvant based on cationic liposomes. Another Th1 inducing adjuvant, which has shown a very promising profile in both preclinical and clinical trials, is IC31®. In this study, we examined the potential of Ag85B-TB10.4 delivered in the adjuvant IC31® for the ability to induce protection against infection with Mycobacterium tuberculosis. In addition, we examined if the antigen dose could influence the phenotype of the induced T cells.Methods and FindingsWe found that vaccination with the combination of Ag85B-TB10.4 and IC31® resulted in high numbers of polyfunctional CD4 T cells co-expressing IL-2, IFN-γ and TNF-α. This correlated with protection against subsequent challenge with M.tb in the mouse TB model. Importantly, our results also showed that both the vaccine induced T cell response, and the protective efficacy, was highly dependent on the antigen dose. Thus, whereas antigen doses of 5 and 15 µg did not induce significant protection against M.tb, reducing the dose to 0.5 µg selectively increased the number of polyfunctional T cells and induced a strong protection against infection with M.tb. The influence of antigen dose was also observed in the guinea pig model of aerosol infection with M.tb. In this model a 2.5 fold increase in the antigen dose reduced the protection against infection with M.tb to the level observed in non-vaccinated animals.Conclusions/SignificanceSmall changes in the antigen dose can greatly influence the induction of specific T cell subpopulations and the dose is therefore a crucial factor when testing new vaccines. However, the adjuvant IC31® can, with the optimal dose of Ag85B-TB10.4, induce strong protection against Mycobacterium tuberculosis. This vaccine has now entered clinical trials.

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HspX‐mediated protection against tuberculosis depends on its chaperoning of a mycobacterial molecule

Taylor

Wieczorek

Keyser

et al. 2012

Immunol Cell Biol

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New approaches consisting of ‘multistage' vaccines against (TB) are emerging that combine early antigenic proteins with latency-associated antigens. In this study, HspX was tested for its potential to elicit both short- and long-term protective immune responses. HspX is a logical component in vaccine strategies targeting protective immune responses against primary infection, as well as against reactivation of latent infection, because as previously shown, it is produced during latency, and as our studies show, it elicits protection within 30 days of infection. Recent studies have shown that the current TB vaccine, bacilli Calmette-Guerin (BCG), does not induce strong interferon-γ T-cell responses to latency-associated antigens like HspX, which may be in part why BCG fails to protect against reactivation disease. We therefore tested HspX protein alone as a prophylactic vaccine and as a boost to BCG vaccination, and found that HspX purified from M. tuberculosis cell lysates protected mice against aerosol challenge and improved the protective efficacy of BCG when used as a booster vaccine. Native HspX was highly immunogenic and protective, in a dose-dependent manner, in both short- and long-term infection models. Based on these promising findings, HspX was produced as a recombinant protein in E. coli, as this would enable facile purification; however, recombinant HspX (rHspX) alone consistently failed to protect against aerosol challenge. Incubation of rHspX with mycobacterial cell lysate and re-purification following incubation restored the capacity of the protein to confer protection. These data suggest the possibility that the native form may chaperone an immunogenic and protective antigen that is mycobacteria-specific.

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Kinetics of the Immune Response Profile in Guinea Pigs after Vaccination withMycobacterium bovisBCG and Infection withMycobacterium tuberculosis

et al. 2009

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Mycobacterial infection induces the secretion of high-mobility group box 1 protein

Grover¹,

Taylor

Troudt

et al. 2008

Cell Microbiol

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Initiation of Acquired Immunity in the Lungs of Mice Lacking Lymph Nodes after Infection with Aerosolized Mycobacterium tuberculosis

Kashino¹,

Vallerskog

Martens

et al. 2010

The American Journal of Pathology

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Recent evidence points to lung draining lymph nodes as the site that initiates the immune response in mice infected with aerosolized Mycobacterium tuberculosis. Here we expanded these studies and showed that infection of mice that lack lymph nodes with aerosolized M. tuberculosis results in a massive mononuclear cell infiltrate in the lungs within 14 days postinfection. This infiltration clearly resembles an expansion of the bronchus-associated lymphoid tissue. As expected , no bronchus-associated lymphoid tissue was observed in M. tuberculosis-infected wild-type control mice. Importantly , acquired specific immune response to M. tuberculosis antigens could be detected in lung lymphocytes harvested from mice lacking lymph nodes as early as 14 days postinfection. In addition , the bacterial burden in these mice was indistinguishable from that observed in wild-type C57BL/6 control mice. These results indicate that in the absence of lymph nodes , priming of the immune response occurs in the lung tissues after infection of mice with aerosolized M. tuberculosis and clearly illustrate the enormous plasticity of the immune system to develop resistance to foreign pathogens. (Am J

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Andrew Keyser

Protection and Polyfunctional T Cells Induced by Ag85B-TB10.4/IC31® against Mycobacterium tuberculosis Is Highly Dependent on the Antigen Dose

HspX‐mediated protection against tuberculosis depends on its chaperoning of a mycobacterial molecule

Kinetics of the Immune Response Profile in Guinea Pigs after Vaccination withMycobacterium bovisBCG and Infection withMycobacterium tuberculosis

Mycobacterial infection induces the secretion of high-mobility group box 1 protein

Initiation of Acquired Immunity in the Lungs of Mice Lacking Lymph Nodes after Infection with Aerosolized Mycobacterium tuberculosis

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