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Abstract
Antigens (Ags) in Mycobacterium tuberculosis (Mtb) that are constitutively expressed, overexpressed during growth, essential for survival, and highly conserved may be good vaccine targets if they induce the appropriate anti-Mtb Th1 immune response. In this context, stress response-related antigens of Mtb might serve as attractive targets for vaccine development as they are rapidly expressed and are up-regulated during Mtb infection in vivo. Our group recently demonstrated that GrpE, encoded by rv0351 as a cofactor of heat-shock protein 70 (HSP70) in the DnaK operon, is a novel immune activator that interacts with DCs to generate Th1-biased memory T cells in an antigen-specific manner. In this study, GrpE was evaluated as a subunit vaccine in comparison with the well-known HSP70 against the hyper-virulent Mtb Beijing K-strain. Both HSP70- and GrpE-specific effector/memory T cells expanded to a similar extent as those stimulated with ESAT-6 in the lung and spleen of Mtb-infected mice, but GrpE only produced a similar level of IFN-γ to that produced by ESAT-6 stimulation during the late phase and the early phase of Mtb K infection, indicating that GrpE is highly-well recognised by the host immune system as a T cell antigen. Mice immunised with the GrpE subunit vaccine displayed enhanced antigen-specific IFN-γ and serum IgG2c responses along with antigen-specific effector/memory T cell expansion in the lungs. In addition, GrpE-immunisation markedly induced multifunctional Th1-type CD4+ T cells co-expressing IFN-γ, TNF-α, and IL-2 in the lungs of Mtb K-infected mice, whereas HSP70-immunisation induced mixed Th1/Th2 immune responses. GrpE-immunisation conferred a more significant protective effect than that of HSP70-immunisation in terms of bacterial reduction and improved inflammation, accompanied by the remarkable persistence of GrpE-specific multifunctional CD4+ T cells. These results suggest that GrpE is an excellent vaccine antigen component for the development of a multi-antigenic Mtb subunit vaccine by generating Th1-biased memory T cells with multifunctional capacity, and confers durable protection against the highly virulent Mtb K.
Highlights
The prevention of tuberculosis (TB) is the most effective control measure to reduce the incidence of TB, the protection efficacy of bacillus Calmette-Guerin (BCG), the only currently available licensed TB vaccine[1], is thought to be insufficient to protect against pulmonary TB and latent infection
We found that GrpE is rapidly recognised by the host immune system and produces a similar level of IFN-γ to that produced by ESAT-6-stimulation during Mycobacterium tuberculosis (Mtb) K infection
These results indicate that heat-shock protein 70 (HSP70) and GrpE were successfully purified for subsequent experiments
Summary
The prevention of tuberculosis (TB) is the most effective control measure to reduce the incidence of TB, the protection efficacy of bacillus Calmette-Guerin (BCG), the only currently available licensed TB vaccine[1], is thought to be insufficient to protect against pulmonary TB and latent infection. The identification of Ags triggering protective T cell subsets at the early infection course is a goal of TB vaccine development In this regard, Ags in Mtb that are constitutively expressed, overexpressed during growth, essential for survival and growth, and highly conserved may be good vaccine targets if they induce a prompt anti-Mtb Th1 immune response[13,14]. Ags in Mtb that are constitutively expressed, overexpressed during growth, essential for survival and growth, and highly conserved may be good vaccine targets if they induce a prompt anti-Mtb Th1 immune response[13,14] Following this rationale, many Mtb vaccine Ag targets, including Ag85 complex antigens, ESAT-6 (early secreted anti-genic target-6), and heat shock proteins (HSPs), have been evaluated as target vaccine antigens because they are abundantly expressed and induce a strong cell-mediated immune defense response by evoking T-cell proliferation and IFN-γ production in an antigen-specific dependent manner, especially during the early phase of Mtb infection[15,16]. Due to the host immune response to HSPs, the constitutive over-expression of Mtb HSP70 results in the reduced survival of Mtb during prolonged infection[24], indicating that it may be possible to design interventions capable of promoting an immediate and durable host immune response to control Mtb
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