Priming Biologically Active Antibody Responses Against an Isolated, Conformational Viral Epitope by DNA Vaccination

Riedl, Petra; Kholy, Shereen El; Reimann, Jörg; Schirmbeck, Reinhold

doi:10.4049/jimmunol.169.3.1251

Cited by 13 publications

(9 citation statements)

References 53 publications

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“…4). This confirms that the tight, noncovalent association between hsp73 and the viral DnaJ domain requires the intact 77-residue domain as described by us in other Ag systems (10,11,13,15,16). Hence, we have constructed DNA vaccines carrying the immunogenic pt10 domain, but differing in the level of expression and the association with hsp73.…”

Section: Construction Of An Hsp73-associated Polytope Dna Vaccinementioning

confidence: 51%

“…The N-terminal domain of T-Ag required for hsp73 association is located within the T 77 (but not the T 60 ) fragment that hence contains the intact J domain (15). From this observation we derived a vector system for the efficient expression of hsp73-associated, chimeric proteins (12,13,(15)(16)(17). In this system the T-Ag-derived J domain is fused N-terminally to different sequences from heterologous viral Ags of different origins and lengths.…”

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confidence: 99%

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Enhanced Priming of Multispecific, Murine CD8+ T Cell Responses by DNA Vaccines Expressing Stress Protein-Binding Polytope Peptides

Schirmbeck

Fissolo

Chaplin

et al. 2003

The Journal of Immunology

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A polytope DNA vaccine (pCI/pt10) was used that encodes within a 106-residue sequence 10-well characterized epitopes binding MHC class I molecules encoded by the K, D, or L locus (of H-2d, H-2b, and H-2k haplotype mice). The pCI/pt10 DNA vaccine efficiently primed all four Kb/Db-restricted CD8+ T cell responses in H-2b mice, but was deficient in stimulating most CD8+ T cell responses in H-2d mice. Comparing CD8+ T cell responses elicited with the pCI/pt10 DNA vaccine in Ld+ BALB/c and Ld− BALB/cdm2 (dm2) mice revealed that Ld-restricted CD8+ T cell responses down-regulated copriming of CD8+ T cell responses to other epitopes regardless of their restriction or epitope specificity. Although the pt10 vaccine could thus efficiently co prime multispecific CD8+ T cell responses, this priming was impaired by copriming Ld-restricted CD8+ T cell responses. When the pt10 sequence was fused to a 77-residue DnaJ-homologous, heat shock protein 73-binding domain (to generate a 183-residue cT77-pt10 fusion protein), expression and immunogenicity (for CD8+ T cells) of the chimeric Ag were greatly enhanced. Furthermore, priming of multispecific CD8+ T cell responses was readily elicited even under conditions in which the suppressive, Ld-dependent immunodominance operated. The expression of polytope vaccines as chimeric peptides that endogenously capture stress proteins during in situ production thus facilitates copriming of CD8+ T cell populations with a diverse repertoire.

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Section: Construction Of An Hsp73-associated Polytope Dna Vaccinementioning

confidence: 51%

mentioning

confidence: 99%

Enhanced Priming of Multispecific, Murine CD8+ T Cell Responses by DNA Vaccines Expressing Stress Protein-Binding Polytope Peptides

Schirmbeck

Fissolo

Chaplin

et al. 2003

The Journal of Immunology

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“…The regulation of Ag-specific CD8 responses is therefore of major therapeutic interest (41)(42)(43)(44). In summary, we could show that IL-20R2 regulates T cell activation directly and attenuates Ag-specific CD8 responses.…”

Section: Discussionmentioning

confidence: 68%

IL-20 Receptor 2 Signaling Down-Regulates Antigen-Specific T Cell Responses

Wahl

Müller

Leithäuser³

et al. 2009

The Journal of Immunology

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“…MVA may achieve this adjuvant capability through induction of TNF-␣ and IL-6 (25) both of which have been shown to support plasma cell survival (30). It is unclear exactly how intracellular Ag expression is able to enhance Ab responses, although it is possible that HBsAg may be secreted from the infected cell (31). Alternatively, endogenous production of Ag may allow it to access an alternative route of processing and presentation, such as using nascent as well as recycling MHC class II molecules, which may enhance CD4 ϩ T cell responses.…”

Section: Discussionmentioning

confidence: 99%

Novel Protein and Poxvirus-Based Vaccine Combinations for Simultaneous Induction of Humoral and Cell-Mediated Immunity

Hutchings

Gilbert

Hill

et al. 2005

The Journal of Immunology

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The presence of both cell-mediated and humoral immunity is important in protection from and clearance of a number of infectious pathogens. We describe novel vaccine regimens using combinations of plasmid DNA, poxvirus and protein to induce strong Ag-specific T cell and Ab responses simultaneously in a murine model. Intramuscular (i.m.) immunization with plasmid DNA encoding the middle Ag of hepatitis B (DNA) concurrently with a commercial hepatitis B virus (HBV) vaccine (Engerix-B) followed by boosting immunizations with both modified vaccinia virus Ankara (MVA) encoding the middle Ag of HBV and Engerix-B induced high levels of CD4+ and CD8+ T cells and high titer Ab responses to hepatitis B surface Ag (HbsAg). Substitution of Engerix-B with adjuvant-free rHBsAg induced similar T cell responses and greatly enhanced Ab levels. Repeated immunizations with recombinant or nonrecombinant MVA mixed with Ag induced higher titers of Abs compared with immunization with either Ag or Engerix-B further demonstrating this novel adjuvant effect of MVA. The poxviruses NYVAC, fowlpox (FP9) and ALVAC, and to a lesser extent, adenovirus, also displayed similar adjuvant properties when used in combination with rHBsAg. The use of poxviruses as an adjuvant for protein to concurrently induce Ag-specific T cells and Abs could be applied to the development of vaccines for many diseases, including HIV and malaria, where both cell mediated and humoral immunity may be important for protection.

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Priming Biologically Active Antibody Responses Against an Isolated, Conformational Viral Epitope by DNA Vaccination

Cited by 13 publications

References 53 publications

Enhanced Priming of Multispecific, Murine CD8+ T Cell Responses by DNA Vaccines Expressing Stress Protein-Binding Polytope Peptides

Enhanced Priming of Multispecific, Murine CD8+ T Cell Responses by DNA Vaccines Expressing Stress Protein-Binding Polytope Peptides

IL-20 Receptor 2 Signaling Down-Regulates Antigen-Specific T Cell Responses

Novel Protein and Poxvirus-Based Vaccine Combinations for Simultaneous Induction of Humoral and Cell-Mediated Immunity

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