Download presentation
Presentation is loading. Please wait.
Published byHailey Kerr Modified over 10 years ago
1
Making Peptides for Presentation A Pictorial Introduction SAMSI 3 March 2005
2
Antigen Presentation Antigen – peptide (MHC Class I and MHC Class II) – lipids (CD1) – zwitterionic polysaccharides (MHC Class II) Peptide processing – endogenous (Class I) – exogenous (Class II) – cross-presentation (exogenous peptides via Class I)
3
MHC Class I Function – Presents cytoplasmic peptides to CD8 T cells – Viral & intracellular pathogens Machinery – Proteasome – Peptide loading complex – Peptidases cytosol ER Prefers 9-mers (closed ends)
4
MHC RibbonsMHC-peptide : T Cell Ribbons
19
MHC Class II Function – Presents endocytosed peptides to CD4 cells – Extracellular pathogens – Antigen presenting cells only Machinery – Endosomes/lysosomes, extracellular(!) – Invariant chain – DM and DO – Endosomal proteases Invariant chain (Ii) processing Peptide cleavage Bind and trim Prefers … – eluted 13- to 22-mers (mode 17- to 19- mers) – can bind up to 51-mers with immunogenicity! – BUT core pockets fit a 9-mer, just like MHC Class I
25
Determinant captureCompetitive capture
29
Cross-Presentation Loading of exogenous ligands onto MHC Class I on APCs Essential for priming naïve CD8 T cells Vaccines targeting CD8 T cell responses Pathways: – particulate antigens – soluble antigens – direct inter-cellular transfer
33
CD1 Function – Present lipids Group 1 – CD1a, CD1b, CD1c, CD1e – Recognised by conventional T cells – mainly microbial lipids Group 2 – CD1d – Recognised by Natural Killer T cells – mainly self lipids
37
Speculations for vaccine design MHC Class I – DRiPs -> DNA vaccines which are designed to misfold (e.g. with kDel) – ERAP processing – proline in position 3 stops processing MHC Class II – multiple epitope vaccines –> spread out in space or time to minimize determinant capture conflicts – consider 3D structure -> pro-determinants CD1 – are lipids worth considering for vaccines?
38
References Immunology – http://www.nature.com/ni/focus/peptides/index.html http://www.nature.com/ni/focus/peptides/index.html Proteasome modeling – A mathematical model of protein degradation by the proteasome (2005, Biophys J preprint, Rob de Boer) – MAPPP: MHC class I antigenic peptide processing prediction (2003, Appl Bioinform, Mollenkopf) TAP modeling – Transporter associated with antigen processing preselection of peptides binding to the MHC: a bioinformatic evaluation (2004, J Immunol, Flower)
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.