MHC - Antigen Presentation Flashcards
T cells can only recognise peptides antigens presented by BLANK
T cells can only recognise peptides antigens presented by MHC molecules
MHCs (Major Histocompatibility Complexes) also known as HLAs (Human Leukocyte Antigens)
MHC genes are highly polymorphic
TRUE OR FALSE
TRUE
MHC polymorphism is focused in the peptide binding site
T cells only ‘see’ peptides exhibited on a defined framework
TRUE OR FALSE
TRUE
Class I and II MHC molecules present similar/different types of peptides
Class I and II MHC molecules present DIFFERENT types of peptides
Peptide side chains fit in MHC pockets
There are several HLA (MHC) class I and II genes, what are they:
All nucleated cells express several types of Class I molecules on their cell surface:
HLA-A, HLA-B and HLA-C
Specialised antigen-presenting cells also express additional Class II molecule:
HLA-DR, HLA-DQ and HLA-DP
Each individual possesses two variants of each HLA molecule type
NOTE: These are all highly polymorphic
There are more types, but they don’t bind peptides: HLA-DM, HLA-DO, HLA-E, HLA-F, HLA-G
MHC expression is the same across all cell types
TRUE OR FALSE
FALSE Differential MHC expression on different cell types. e.g. Thymic epithelium heavily expresses Class II, also expresses class I (Applied in T cell development negative selection (aka MHC restriction)
How do Class I and Class II MHC capture different sets of peptides?
Class I MHC alerts T cells to intracellular infections e.g. viruses or tumour antigens:
- class I MHC is expressed on almost all cells
- captures peptides from endogenous antigens
- displays them to T cells that express the CD8 co-receptor
In contrast, Class II MHC alerts T cells to extracellular infections e.g. bacteria:
- class II MHC is expressed only on dendritic cells, B cells & some macrophages
- captures peptides from exogenous antigens
- displays them to T cells which express the CD4 co-receptor
Class I and II MHC molecules capture peptides from different cellular compartments
Antigen Presentation by Class I MHC molecules:
Cytosolic peptides (produced by the specialized immunoproteasome) are delivered to the ER lumen by Transporter Associated with antigen Processing (TAP) proteins
The peptide loading complex (PLC) orchestrates class I MHC assembly in the ER:
The ‘first draft’ peptide is edited by an aminopeptidase (ERAAP)
Class I MHC molecules capture peptides in the BLANK
Class I MHC molecules capture peptides in the Endoplasmic Reticulum (ER)
Antigen Presentation by Class II MHC molecules:
Phagocytosis, Macro-pinocytosis and Receptor-mediated Endocytosis drives antigen capture
Cathepsins in MIIC-endosome are only activated by acidity
Cathepsins degrade invariant chain
Antigen capture is boosted by inflammatory signals (e.g. PAMPs)
TLR activation transiently enhances the uptake of soluble antigens, immune complexes and phagocytosable forms of antigens:
How do newly synthesised MHC Class II molecules reach the lysosomal compartment in an ‘empty’ state?
Need to prevent newly synthesised, unfolded self proteins from binding to immature MHCs.
Invariant chain (CLIP fragment) stabilises MHC Class II by non-covalently binding to the immature MHC Class II molecule and forming a nonomeric complex
How are exogenous peptides generated and loaded onto MHC-II complexes in the lysosomal compartment if the Invariant chain is still present?
- Endo-lysosomal proteases (e.g. Cathepsins)
- HLA-DM catalyses ejection of CLIP and aids optimal peptide selection
- Successful peptide capture triggers export to cell surface
Endo-lysosomal proteases perform two key roles:
- generate peptides from antigen
2. initiate cleavage of Invariant chain (leaving CLIP fragment in place)
Cross-presentation of extracellular antigens by Class I MHC molecules:
Cross-presentation is the presentation of exogenous antigens on class I MHC, an important exception to the rule that only endogenous antigens appear on class I MHC.
Cross-presentation involves the cytosolic diversion of endocytosed exogenous antigens.
Antigen recognition by B Lymphocytes:
B cells and the antibodies they make can recognise virtually any chemical structure, unlike T cells, which can only recognize short peptides presented by MHC molecules.
Follicular dendritic cells (FDCs) [ FDCs ARE NOT DENDRITIC CELLS!!!] in lymphoid follicles capture and store opsonised antigens on their cell surface
B cells use mechanical force to extract antigens from FDCs
