1 / 17

Principles of Immunology Antigen Processing 3/2/06

Principles of Immunology Antigen Processing 3/2/06. “Doubt is often the beginning of wisdom.” M. S. Peck. Word/Terms List. Cytosolic pathway Endocytic pathway Professional APC Proteasome Self-MHC Restriction. Self-MHC Restriction.

eavan
Download Presentation

Principles of Immunology Antigen Processing 3/2/06

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Principles of ImmunologyAntigen Processing3/2/06 “Doubt is often the beginning of wisdom.” M. S. Peck

  2. Word/Terms List • Cytosolic pathway • Endocytic pathway • Professional APC • Proteasome • Self-MHC Restriction

  3. Self-MHC Restriction • T lymphocytes only respond to antigen that is bound to MHC molecules • Furthermore the MHC haplotype of the APC must be the same haplotype as that of the lymphocyte • This is the principle of Self-MHC restriction

  4. Experiment of Zinkernagel and Doherty • Self-MHC restriction first demonstrated with T helper (CD4) cells • Later shown that CD8 cells also are Self-MHC restricted • Used lymphocytic choriomeningitis virus in mice

  5. Experiment of Zinkernagel and Doherty • Mouse was primed with LCM via blood stream so Ag/lymphocyte interface occurred in spleen • Activated T cells were harvested • T cells would only respond to MHC presenting target cells of the same haplotype that also had endogenously processed LCM antigens on the surface

  6. Requirement for Ag Processing • APCs that are “fixed”, i.e. rendering the membrane impermeable are unable to process antigen for T helper cells • If fixation is delayed then Ag will have reached the surface of the APC and T helper will be activated • OR if the antigen is degraded and then exposed to APC, the APC can still effectively activate T helper

  7. Professional APCs • All nucleated cells can present Ag to CD8 cells • As such these cells become “target cells” because the CTLs will target them for destruction • Dendritic cells, macrophages and B lymphocytes are “Professional” antigens presenting cells • Professional APCs have MHC II and a co-stimulatory signal

  8. Two Pathways for Antigen Processing • Cytosolic and the endocytic pathways • Cytosolic-Endogenous antigens • Endocytic-Exogenous antigens

  9. Cytosolic Pathway • This pathway normally controls levels of proteins in cells • Sequence • Proteins targeted for proteolysis are complexed with ubiquitin • Ubiquitin-protein complexes are degraded within proteasomes • Peptides are picked up by TAP (Transporter antigen-associated processing) proteins

  10. Cytosolic Pathway • Sequence(cont’d) • ATP hydrolysis (energy requiring) step • TAP translocates peptides of 8-10 amino acids into rough endoplasmic reticulum • MHC molecule is assembled with peptide • Involves three chaperone molecules, calnexin,calreticulin and tapasin • Non bound peptides are degraded

  11. Endocytic Pathway • Mode of Ag entry determines which MHC complex it will bind with and which T lymphocyte will be activated • Sequence • MHC II molecules are blocked by association with invariant chain • MHC II complex travels through Golgi apparatus • Invariant chain is degraded leaving CLIP sitting in peptide groove of MHC II molecule • HLA-DM catalyses exchange of exogenous Ag peptide • Exogenous Ag has gone through ever more acidic endosomes that have degraded it to peptides of 13-18 amino acids

More Related