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MHC. M AJOR H ISTOCOMPATIBILITY C OMPLEX. definition and basic features structure of MHC class I and II molecules structure and organization of MHC genes inheritance and expression of MHC genes. FUNCTION OF MHC MOLE C UL E (s) Presentation of antigens to T lymphocytes. GPLA. H-2. DLA.
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MHC MAJORHISTOCOMPATIBILITYCOMPLEX • definition and basic features • structure of MHC class I and II molecules • structure and organization of MHC genes • inheritance and expression of MHC genes
FUNCTION OF MHC MOLECULE(s) Presentation of antigens to T lymphocytes
GPLA H-2 DLA MHC FLA RT-1 SLA
HLA Human Leukocyte Antigens
BASIC FEATURES of MHC • polygenicity (> 200 genes) • polymorfism(genes within species have • alternative variants – alleles)
George Snell Jean Dausset Baruj Benacerraf 1980
Anchoring amino acids Cleft of MHC
TISSUE DISTRIBUTION AND NOMENCLATURE OF MHC ALL NUCLEATED CELLS DENDRITIC CELLS MACROFAGES B CELLS A a DP a b b2m a a DQ b B b2m a a b DR C b2m MHC class I MHC class II
CD4+ T cell (helper) CD8+ T cell (cytotoxic) TCR TCR CD8 CD4 MHC I MHC II A P C A P C
Peter C. Doherty Rolf M. Zinkernagel 1996
Figure 5-12 Nomenklature and genetic organization of HLA
HLA 6. chromosome centromere telomere DR TNF DQ DP C4BC4ABf C2 B A B A B A B C E A F G IIclass III class I class
Regions: II III I HLA-A HLA-B HLA-C HLA chr. 6
HLA-C HLA-A HLA-B HLA-B HLA-C HLA-A molecules cell membrane chromosome genes
Regions II III I chr. 6 DQA DQB DRA DRB DPA DPB
DP beta DP alfa DQ beta DR beta DQ alfa DR alfa DQ molecule DR molecule molecules cell membrane DP molecule DQA DQB DRA DRB DPA DPB chromosome genes
PROCESSING AND PRESENTATION OF PROTEIN ANTIGENS Antigen processing peptide derivation out of native proteins Antigen presentation Displaying peptidesin complex with self MHC on the cell surface
Features of antigens recognized by T lymphocytes • Peptide antigens 2. Linear determinantes 3. On the cell surface within own MHC
Two pathways of antigen processing and presentation • MHC class I pathway • MHC class IIpathway
COMMON FEATURES OF BOTH PATHWAY OF ANTIGEN PROCESSING AND PRESENTATION • peptide antigens are formed by proteolytic cleavage in the APC’s organelles • peptide binding to MHC occurs before they appear on the cell surface • organelles and enzymes of general protein metabolism are used • no distinction of foreign from self proteins
The Nobel Prize in Chemistry 2004 "for the discovery of ubiquitin-mediated protein degradation"
1. Human MHC class I molecules are a. MHC class I 2. Human MHC class II molecules are b. CD8+ T-lymphocytes 3. Processing and presentation of antigens is necessary for c. HLA-A, HLA-B, HLA-C 4. Exogenous antigens that enter the cell by endocytosis are presented within d. CD4+ T-lymphocytes 5. Endogenouslysynthesized (within the cell) antigensare presented in e. dendritic cells, macrophages and B lymphocytes 6. Peptides derived from endogenous proteins that form the complex with MHC class I are formed in f. MHC class II 7. MHC class I presents the peptides to g. recognition by T lymphocytes 8. MHC class II presents the peptides to h. all nucleated cells 9. MHC class I molecules are expressed on i. proteasome 10. MHC class II molecules are expressed on j. HLA-DR, HLA-DP, HLA-DQ c j g f a i b d h e 1.____ 2.____ 3.____ 4.____ 5.____ 6.____ 7.____ 8.____ 9.____ 10.____