Major Histocompatability Complex: Structure and Function Flashcards Preview

IAHI Block 1 > Major Histocompatability Complex: Structure and Function > Flashcards

Flashcards in Major Histocompatability Complex: Structure and Function Deck (23)
Loading flashcards...
1
Q

Passive immunization

A

Transferring B cells (serum antibodies) from a previously infected host to a non-infected host to transfer protection from infection to the non infected host

2
Q

Why is passive immunization in humans expensive?

A

Gamma-globulin (IgG) injection for HIV patients has half life of about 30 days

3
Q

Will the transfer of T cells protect a new host? Why or why not?

A

Only if the two hosts are genetically identical
T-cells always recognize foreign antigen in the context of self
New strain has different “non-self” MHC molecules presenting the antigen

4
Q

MHC restriction

A

T-Cell receptors are specific for LCMV antigen, but are restricted by self-MHC, so they don’t protect allogeneic host

5
Q

What happens when tumors are transplanted from one strain of mice into same inbred and different inbred strains

A

Tumors flourished and killed syngeneic mice

Tumors were rejected when implanted into allogeneic mice

6
Q

Tumor rejection genes are ________

A

codominant

7
Q

Gene structure of MHC

A

Over 200 genes are encoded within the MHC which spans 7 million base pairs on chromosome 6

8
Q

HLA

A

Human leukocyte angtigen (Gene of class I MHC)

9
Q

Class I: three classical gene products

A

HLA-A, -B, -C (“heavy chains”)

10
Q

Class II: Six classical gene products, heterodimers

A

HLA-DR, -DQ, - DP, - (α and β chains)

11
Q

How can T cells see the widest possible variety of antigens?

A

Polygenic (3 genes)
Codominant (Each gene is co-dominant)
Polymorphic (numerous identified alleles in the human population at each locus)

12
Q

What type of screening is done before bone marrow transplantation?

A
Tissue typing for MHC class I and class II
1:4 chance of another sibling matching for all 10 products assuming no recombination between loci
13
Q

Human Class I MHC molecules (6)

A

1) Three classical class I MHC gene products: HLA-A, HLA-B, HLA-C
2) Highly polymorphic
3) Class I MHC molecules are expressed on all nucleated cells
4) Class I MHC molecules play a major role in allograft rejection
5) Class I MHC molecules present peptide antigens to CD8 T Cells
6) Class I heavy chain forms heterodimers with a light chain, β2 microglobulin

14
Q

Human Class II MHC Molecules (7)

A

1) Three class II MHC gene products: HLA-DR, HLA-DQ, HLA-DP
2) Highly polymorphic
3) Class II MHC molecules expressed only on specialized antigen-presenting cells
4) Class II molecules also play a major role in allograft rejection
5) Class II MHC molecules present peptide antigens to CD4 T cells
6) Heterodimers of two chains, α and β - each chain is induced by a different gene
7) The β chain is the more polymorphic gene - only type β chains are tissue typed in class II

15
Q

For MHC molecules ___ helices form the groove and the __ sheets form the bed of the cleft

A

α;β

16
Q

Polymorphisms in MHC I and MHC II

A
  • Occur in α helices and in β sheets of the heavy chain for class I MHC
  • Occur in α helices and in β sheets on the β chain for MHC II
17
Q

Size limits for peptides in class I and II

A

Class I: 8-10 residues

Class II: 12-16 residues although they can be as long as 30+ residues

18
Q

Features shared by all class I peptides

A

N-term, C-term, peptide backbone

19
Q

Loose constraints for peptide

A

Certain amino acid residues are anchor residues, the rest can vary

20
Q

Estimated number of distinct peptides that can bind to each class I MHC molecule

A

> 1000

21
Q

Benefits of polymorphism

A

Although one virus can escape efficient presentation on antigen on a given individual’s 6 MHC molecules, it is hard to imagine a virus escaping presentation on all 1000 allelic variants within the population

22
Q

A high percentage of people who do not respond to Hepatitis B vaccine have HLA-DR7 and HLA-DR3 - why?

A

Homozygotes for these two haplotypes are found almost exclusively in the non-responder (NR) population
Antigen presenting cells (APC) of NR are defective in the uptake of HBsAg and they are unable to present this AG adequately (T-cells are defective in recognizing this antigen)

23
Q

Ankylosing Spondylitis

A

An inflammatory, possible autoimmune disease of vertebral joints
The HLA-B27 tissue type, while not causing AS, does predispose individuals with the B27 tissue type to developing AS - increases the chances by 100 fold