Changes in influenza viruses require regular reformulation of strain-specific influenza vaccines. Vaccines based on conserved antigens provide broader protection. Influenza matrix protein 2 (M2) is highly conserved across influenza A subtypes. To evaluate its efficacy as a vaccine candidate, we vaccinated mice with M2 peptide of a widely shared consensus sequence. This vaccination induced antibodies that cross-reacted with divergent M2 peptide from an H5N1 subtype. A DNA vaccine expressing fulllength consensus-sequence M2 (M2-DNA) induced M2-specific antibody responses and protected against challenge with lethal influenza. Mice primed with M2-DNA and then boosted with recombinant adenovirus expressing M2 (M2-Ad) had enhanced antibody responses that crossreacted with human and avian M2 sequences and produced T-cell responses. This M2 prime-boost vaccination conferred broad protection against challenge with lethal influenza A, including an H5N1 strain. Vaccination with M2, with key sequences represented, may provide broad protection against influenza A.
Antigens that are expressed on the surface of pathogens in an organized, highly repetitive form can activate specific B cells by cross-linking of antigen receptors in a multivalent fashion. B cells respond to these multivalent antigens in the absence of MHC class II-restricted T-cell help by a mechanism that depends on the expression of a functional Bruton's tyrosine kinase (Btk). Accordingly, this class of immunogens has been designated T-cell-independent type 2 (TI-2) antigens. The unique properties of the B-cell response to TI-2 antigens are critically dependent on the formation of a small number of antigen receptor clusters, each of which contains approximately 10 to 20 antigen-bound membrane Ig (mIg) molecules. These clusters induce local membrane association of multiple activated Btk molecules, which results in long-term mobilization of intracellular ionized calcium. Such persistent calcium fluxes efficiently recruit transcription factors and thereby induce T-cell-independent B-cell activation and proliferation. While this first signal of multivalent mIg cross-linking can induce B-cell proliferation, we propose that a second signal is required for a TI-2 Ig secretory response. We have found that engagement of members of the Toll-like receptor (TLR) family could provide second signals that selectively induce Ig secretion in B cells that were activated by multivalent, but not by bivalent, antigen receptor engagement. This finding demonstrates a general mechanism by which TLRs recognize molecular motifs on the surface of pathogens and provide the TI-2-activated B cell with a second signal. In addition, TLR-dependent recognition of these non-self motifs by cells of the innate immune system can induce these cells to provide alternative and/or additional second signals in the TI-2 response. The complement system provides another link between the B cell and the innate immune system, and facilitates the mIg signal transduction by recruitment of CD21 in the immune response. Thus, the TI-2 response provides the host with a combination of "the best of both worlds": the recruitment of the fine specificity of the adaptive immune response and the utilization of both the speed of the innate immune system and the wealth of cytokines produced by its member cells upon stimulation by pathogenic organisms or their products. By combining these two pathways, the TI-2 response enables the host to rapidly produce antigen-specific Ig effector molecules that can be secreted at a sufficient rate to keep up with the rapid multiplication of invading infectious microorganisms, and will also prevent the intracellular spreading of a significant part of this population.
Little is known regarding the role of Toll-like receptors (TLRs) in regulating protein-and polysaccharidespecific immunoglobulin (Ig) isotype production in response to an in vivo challenge with an extracellular bacterium. In this report we demonstrate that MyD88
؊/؊ mice. In this regard, a marked enhancement in the induction of proinflammatory cytokines was observed in the absence of IL-10, relative to controls. Ig isotype titers specific for the phosphorycholine determinant of C-polysaccharide were similarly regulated, but to a much more modest degree. These data suggest that proinflammatory and anti-inflammatory cytokines differentially regulate an in vivo protein-and polysaccharide-specific Ig response to an extracellular bacteria.
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