intra proteasome tap mhc i golgi calnexin calreticulin tapasin cd8 t c extra li mhc ii golgi vesicle...
TRANSCRIPT
![Page 1: INTRA Proteasome TAP MHC I Golgi Calnexin Calreticulin Tapasin CD8 T C EXTRA Li MHC II Golgi Vesicle CLIP HLA-DM CD4 T H Summary](https://reader036.vdocuments.net/reader036/viewer/2022062518/56649ef35503460f94c057b5/html5/thumbnails/1.jpg)
INTRA
Proteasome
TAP
MHC I
Golgi
Calnexin
Calreticulin
Tapasin
CD8 TC
EXTRA
Li
MHC II
Golgi
Vesicle
CLIP
HLA-DM
CD4 TH
Summary
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Exam EE129 Thursday 7:00pm
Help session: Tomorrow 6-8pm CIVL 3153
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Alleles: different forms of one geneAllotypes: different forms of one protein (isoforms)
Polymorphic: alternative forms of one gene = Many allelesOligomorphic: a few forms of one gene = Few allelesMonomorphic: no polymorphism
Homozygous: same allele on both inherited chromosomesHeterozygous: different allele on both inherited chromosomes
MHC in humans is called HLA (human leukocyte antigen complex)
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Figure 3-13 part 1 of 2
Variable
Invariant
No rearrangements or somatic changesDiversity is derived from 1) Gene families
2) Genetic polymorphism
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HLA-A,B,C-present peptide antigens to CD8Tcells and interactwith NK-cells
HLA-E,G-interactwith NK-cells
HLA-F-?
HLA-DP,DQ,DR- present peptide antigens to CD4Tcells
HLA-DM,DO-regulate peptide loading of DP,DQ,DR
Human leukocyte antigen complexAbs used to ID MHC molecules react with leukocytes not RBCs
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Figure 3-24 part 1 of 2
Heavy Chain
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Heavy Chains
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2-microglobulin on chr15• and chain = GeneA and GeneB• Complicated nomenclature you don’t need to know• Haplotype - combination of alleles inherited from Chr6• 2% meiotic recombination rate generates population diversity
Chr6
Chromosome Organization of HLA complex
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• Cytokines coordinately regulate the group of genes - class I heavy chain and other associated genes
• TAP transporter, Tapasin, Proteasome subunits - LMP2 and LMP7
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Interferon , , and ----> Class I , 2M, TAP, LMP2, LMP7
Interferon ----> CIITA ---> HLA II genes, li chain
MHC class II transactivator (CIITA) - deficiency leads to bare lymphcyte syndrome
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MHC I (single peptide binding chain ): 3 genes present antigen
HLA-A, HLA-B, HLA-C
MHC II (two chains, and ): 3 genes present antigen
HLA-DQ, HLA-DP, HLA-DR
Each MHC II locus encodes a gene for the chain and a gene for the chain:
e.g. HLA-DQA, HLA-DQB => MHC II isoformsHLA-DPA, HLA-DPB => MHC II isoformsHLA-DRA, HLA-DRB => MHC II isoforms
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Maternal: 3 MHC I genes HLA-AM, HLA-BM, HLA-CM
Paternal: 3 MHC I genes HLA-AP, HLA-BP, HLA-CP
Maternal: 3 MHC II genes HLA-DPAM, HLA-DPBM
HLA-DQAM, HLA-DQBM
HLA-DRAM, HLA-DRBM
Paternal: 3 MHC II genes HLA-DPAP, HLA-DPBP
HLA-DQAP, HLA-DQBP
HLA-DRAP, HLA-DRBP
6 different MHC I proteins on all cells
6 different MHC II proteins on all cells(some individuals have 8 due to two HLA-DRB genes)
Heterozygous
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Homozygous = one DR type
Heterozygous = up to four DR types
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Figure 3-34
Red – heterozygous for all the highly polymorphic HLA I and IIYellow - Homozygous for one locusBlue - Homozygous for two or three loci
Correlation is mainly with HLA class I
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Figure 3-28 part 1 of 2
MHC
MHC isoform can bind multiple peptides
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Figure 3-28 part 2 of 2
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Figure 3-29
L-lysine V- valine R-arginineY-tyrosine W-tryptophan
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Figure 3-30
Co-
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Figure 3-31Large circles- total # antigenicpeptides that can be presentedvia MHCI & MHCII
small circles- total # antigenicpeptides that can be presentedvia an individual MHCI & MHCII haplotype
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Figure 3-32 part 1 of 2
Advantages for heterozygous for the MHC
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Figure 3-32 part 2 of 2
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Recombination betweenalleles of the same gene
Generation of new MHC alleles
HLA B*5301-Found in Africanpopulations andassociated withresistance tosevere malaria
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Figure 3-33 part 2 of 2
HLA B*4601- Found in southeast Asian populations andassociated with susceptibility to nasopharyngeal carcinoma.
Recombination betweenalleles of the differentgene
Generation of newMHC alleles
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MHC selection by Infectious Disease
• Pathogens adapt to avoid MHC - recent MHC isoform may provide a survival advantage (hence higher frequency level)
• Epidemic diseases place survival advantages on those who can best present pathogenic peptides
• Only a minority of HLA alleles are common to all humans- most are recent and specific to ethnic groups
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HLA Type and Disease Susceptibility
Ankylosing spondylitis B27IDDM DR4/DR3Multiple Sclerosis DR2Narcolepsy DR2Rheumatoid arthritis DR4Lupus (SLE) DR3AIDS (rapid) HLA-A29, HLA-B22
HLA-C16, HLA-DR11AIDS (slow) HLA-B14, B27, B57
HLA-C8, C14
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MHC polymorphism and Organ Transplants
• Developing T cells that recognize complexes of peptide and MHC molecules on HEALTY tissue (self-peptides presented by self MHC) are DESTROYED
• This results in the preservation of T cells that recognize non-self MHC (allogenic MHC). Called alloreactive T cells (1-10%) of total T-cell repertoire
• IS is primed for rejection of foreign organs that express allogenic MHC