The geometry of synthetic peptide-based immunogens affects the efficiency of T cell stimulation by professional antigen-presenting cells
Details
Publication Year 2000-04,Volume 12,Issue #4,Page 527-535
Journal Title
INTERNATIONAL IMMUNOLOGY
Publication Type
Journal Article
Abstract
In the pathway leading to antibody production there are two points at which CD4(+) T-h cells need to be recruited. The first of these is priming of T cells by their interaction with dendritic cells (DC) bearing antigen presented on MHC class II molecules and the second is the collaborative interaction of these primed T cells with B cells presenting the same antigen. We have previously shown that the configuration of T and B cell determinants within synthetic peptide immunogens can greatly influence the amount of immunogen required to produce an antibody response. Here we investigate whether the difference in potency of different immunogens is related to their ability to be presented by either DC or B cells. We show that determinants in a branched configuration, which are the most efficient at eliciting antibody in vivo, are presented to T cell clones by splenic CD8(-) DC 10-fold more efficiently than the corresponding determinants in a tandem linear arrangement. B cells also showed preferential presentation of branched immunogens to one T cell clone but in contrast to DC, not to a second T cell clone, indicating differences between the two antigen-presenting cell types. We also show that branched immunogens have a greater stability in serum compared to linear peptides, which may further enhance the differences in their in vivo potency.
Publisher
OXFORD UNIV PRESS
Keywords
INFLUENZA-VIRUS HEMAGGLUTININ; DENDRITIC CELLS; MHC MOLECULES; DETERMINANTS; ORIENTATION; RECEPTOR; EPITOPES; ALPHA; SEQUENCES; PATHWAYS
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Creation Date: 2000-04-01 12:00:00
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