Abstract
The cross-talk between the innate and the adaptive immune system is facilitated by the initial interaction of antigen with dendritic cells. As DCs express a large array of TLRs, evidence has accumulated that engagement of these molecules contributes to the activation of adaptive immunity. We have evaluated the immunostimulatory role of the highly-conserved outer membrane lipoprotein P6 from non-typeable Haemophilus influenzae (NTHI) to determine whether the presence of the lipid motif plays a critical role on its immunogenicity. We undertook a systematic analysis of the role that the lipid motif plays in the activation of DCs and the subsequent stimulation of antigen-specific T and B cells. To facilitate our studies, recombinant P6 protein that lacked the lipid motif was generated. Mice immunized with non-lipidated rP6 were unable to elicit high titers of anti-P6 Ig. Expression of the lipid motif on P6 was also required for proliferation and cytokine secretion by antigen-specific T cells. Upregulation of T cell costimulatory molecules was abrogated in DCs exposed to non-lipidated rP6 and in TLR2−/− DCs exposed to native P6, thereby resulting in diminished adaptive immune responses. Absence of either the lipid motif on the antigen or TLR2 expression resulted in diminished cytokine production from stimulated DCs. Collectively; our data suggest that the lipid motif of the lipoprotein antigen is essential for triggering TLR2 signaling and effective stimulation of APCs. Our studies establish the pivotal role of a bacterial lipid motif on activating both innate and adaptive immune responses to an otherwise poorly immunogenic protein antigen.
Highlights
The initiation of a robust and long-lasting immune response to infections and vaccination is thought to depend on effective TLR mediated recognition and signaling on innate immune cells
The lipoprotein protein 6 (P6) is found in the bacterial outer membrane and is highly conserved among all non-typeable Haemophilus influenzae (NTHI) strains, thereby making it an ideal protein target for vaccination studies
In order to validate the importance of lipid expression and its contribution to the immunogenicity of P6, we generated a recombinant version of P6 that lacks the Nterminal tri-palmitoyl lipid motif
Summary
The initiation of a robust and long-lasting immune response to infections and vaccination is thought to depend on effective TLR mediated recognition and signaling on innate immune cells. TLR stimulation in innate immune cells, such as dendritic cells and macrophages, activates various cytokine genes that instruct the nature of the ensuing T cell and B cell response [1]. The innate immune cell itself is influenced by the TLR signal and results in upregulation of T cell co-stimulatory molecules and secretion of proinflammatory cytokines. The nature of this response orchestrates the magnitude and quality of the ensuing T cell and B cell response, effective vaccination requires potent TLR activation [2]. This study has examined the TLR mediated augmentation of innate and adaptive immune responses to a candidate vaccine antigen for a respiratory pathogen
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