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1.
Protein Eng Des Sel ; 25(3): 89-96, 2012 Mar.
Article in English | MEDLINE | ID: mdl-22233931

ABSTRACT

CD4+ T lymphocytes play a central role in the orchestration and maintenance of the adaptive immune response. Targeting of antigen to antigen presenting cells (APCs) increases peptide loading of major histocompatibility complex (MHC) class II molecules and CD4+ T-cell activation. APCs have been targeted by APC-specific recombinant antibodies (rAbs) with single T-cell epitopes integrated in the constant region of the heavy chain (C(H)). However, the strategy may be improved if several T-cell epitopes could be delivered simultaneously by one rAb. We here demonstrate that a single rAb can be loaded with multiple identical or different T-cell epitopes, integrated as loops between ß-strands in C(H) domains. One epitope was inserted in C(H)1, while two were placed in C(H)2 of IgG. T-cell proliferation assays showed that all three peptides were excised from loops and presented on MHC class II to T-cells. Induction of T-cell activation by each epitope in the multi-peptide rAb was as good, or even better, than that elicited by corresponding single-peptide rAbs. Furthermore, following DNA vaccination of mice with plasmids that encode CD40-specific rAbs loaded with either one or three peptides, T-cell responses were induced. Thus, integration of multiple epitopes in C(H) region loops of APC-specific rAbs is feasible and may be utilized in design of multi-vaccines.


Subject(s)
Antigen-Presenting Cells/immunology , CD4-Positive T-Lymphocytes/immunology , CD40 Antigens/immunology , Epitopes/immunology , Genes, Immunoglobulin , Immunoglobulin Constant Regions/immunology , Immunoglobulin Heavy Chains/genetics , Animals , Antigen Presentation , Genetic Vectors , Histocompatibility Antigens Class II/immunology , Humans , Immunoglobulin Constant Regions/genetics , Lymphocyte Activation , Mice , Mice, Inbred BALB C , Mice, Inbred C3H , Mice, Transgenic , Models, Molecular , Plasmids , Protein Conformation , Protein Engineering , Protein Structure, Tertiary , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/immunology , T-Cell Antigen Receptor Specificity , Vaccination , Vaccines, DNA
2.
J Immunol ; 181(10): 7062-72, 2008 Nov 15.
Article in English | MEDLINE | ID: mdl-18981126

ABSTRACT

Targeting of T cell epitopes to APC enhances T cell responses. We used an APC-specific Ab (anti-IgD) and substituted either of 18 loops connecting beta strands in human IgG constant H (C(H)) domains with a characterized T cell peptide epitope. All Ab-epitope fusion molecules were secreted from producing cells except IgG-loop 2(BC)C(H)1, and comparing levels, a hierarchy appeared with fusions involving C(H)2 > or = C(H)1 > C(H)3. Within each domain, fusion at loop 6(FG) showed best secretion, while low secretion correlated with the substitution of native loops that contain conserved amino acids buried within the folded molecule. Comparing the APC-specific rAb molecules for their ability to induce T cell activation in vitro, the six mutants with epitope in C(H)2 were the most effective, with loop 4C(H)2 ranking on top. The C(H)1 mutants were more resistant to processing, and the loop 6C(H)1 mutant only induced detectable activation. The efficiency of the C(H)3 mutants varied, with loop 6C(H)3 being the least effective and equal to loop 6 C(H)1. Considering both rAb secretion level and T cell activation efficiency, a total of eight loops may carry T cell epitopes to APC for processing and presentation to T cells, namely, all in C(H)2 in addition to loop 6 in C(H)1 and C(H)3. Comparing loop 4C(H)2 with loop 6C(H)1 mutants after injection of Ab in BALB/c mice, the former was by far the most efficient and induced specific T cell activation at concentrations at least 100-fold lower than loop 6C(H)1.


Subject(s)
Antigen Presentation/immunology , Epitopes, T-Lymphocyte/immunology , Histocompatibility Antigens Class II/immunology , Immunoglobulin Constant Regions/immunology , Immunoglobulin G/immunology , Lymphocyte Activation/immunology , Animals , Blotting, Western , Enzyme-Linked Immunosorbent Assay , Humans , Immunoglobulin Constant Regions/chemistry , Immunoglobulin G/chemistry , Mice , Mice, Inbred BALB C , Protein Structure, Secondary , Recombinant Fusion Proteins/chemical synthesis , Recombinant Fusion Proteins/chemistry , Recombinant Fusion Proteins/immunology
3.
J Immunol Methods ; 298(1-2): 93-104, 2005 Mar.
Article in English | MEDLINE | ID: mdl-15847800

ABSTRACT

In studies of the relation between structure and function of proteins of the immune system, there is a continuous need for screening of a large number of protein variants. To optimise the yield following transient gene expression in small or medium culture volumes, several parameters were investigated. First, secretion levels of a soluble form of human Fcgamma receptor IIA (FcgammaRIIA) were measured after transfection of 293, 293E, 293T as well as COS-7 cell lines. The transgene was under cytomegalovirus (CMV) promoter control on the expression vector pcDNA3, which also contains an SV40 origin of replication (SV40 ori). All 293 cell lines secreted more protein than COS-7 cells. Introduction of the Epstein Barr virus (EBV) origin of replication (oriP) greatly increased the protein expression from the 293E cells, both the amount of protein produced per day and the duration of production. At best, 293E cells secreted fully functional protein for 3-4 weeks provided supernatant was harvested every 2-3 days followed by medium replacement. This method was then used for expression of soluble forms of human FcgammaRI, FcgammaRIIB, the human neonatal Fc receptor (FcRn), a T cell receptor (TCR)-immunoglobulin (Ig) fusion protein, and human IgG3. With an initial culture volume of 5 ml, the yield was approximately 200 microg for FcgammaRIIA, 1.5 microg for FcgammaRI, 5 microg for FcRn, 20 microg for FcgammaRIIB, 40 microg for the TCR-Ig fusion protein and 850 microg for IgG3. Culture expansion during the 3 weeks of culture further increased the yield. Protein yield was also improved by scaling up the initial volume. This approach can provide sufficient amounts of protein for screening experiments, and in the case of antibody, milligrams of recombinant protein for extensive structural analysis can be obtained from one single transient transfection. The approach should be of interest to laboratories that do not have access to a bioreactor but still have a requirement for reasonable amounts of protein to be produced in an easy and cost-effective manner.


Subject(s)
Genetic Techniques , Immunoglobulin G/biosynthesis , Receptors, Antigen, T-Cell/biosynthesis , Receptors, Fc/biosynthesis , Recombinant Fusion Proteins/biosynthesis , Animals , Antigens, Polyomavirus Transforming , COS Cells , Cell Culture Techniques/methods , Chlorocebus aethiops , Cytomegalovirus/genetics , Epstein-Barr Virus Nuclear Antigens/genetics , Genetic Vectors , Humans , Promoter Regions, Genetic , Transfection , Transgenes
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