TCRs

Question 1

What is the primary function of TCs?

Answer 1

• To monitor the INTRACELLULAR environment of the host cell

- Exist to help the body evade/deal w/ pathogens

Question 2

What are CD4+ and CD8+ T cells functions?

Answer 2

cd8-target virus infected cell
cd4- function in two types of immunity
1. interacting w/ MO leading to activation–>activation of cytokines
2. help BCs (in form of cytokines) to `differentiate into PC–>production of speciaized Abs

Question 3

Ways TCR similar to BCR

Answer 3

• contains 1 Ag binding site (2 in Abs)

- contain variable and constant regions

Question 4

Ways TCR different to BCR

Answer 4

• Where expressed
• Ag that is recognized
• Affinity of Ab for Ag much higher

Question 5

TCR biochemical characterizations

Answer 5

• disulfide linked dimer
• both chain glycoproteins
• transmem protein ONLY (no sluable form, unlike Ig)
• constant and variable region

Question 6

How is CD3 involved in TCR?

Answer 6

TCR alpha/beta chains need help of CD3 molecule to make it to surface

Question 7

CD3

Answer 7

2 pairs of them (4 total) form the TCR complex which escorts TCR A/B chain to surface of cell and is responsible for SIGNAL TRANSDUCTION (ST)
-Cytoplasmic tails of TCR to short to tranduce signal
Once Ag bound to TCR there is ST by CD3 to cell–>Activates cell

Question 8

Organization/Rearrangement of TCR genes

Answer 8

Organized similar to Ig molecule

• Alpha –>V and J
• Beta –> V, D, and J

Question 9

Generating diverse repertoire of TCR

Answer 9

1. recombination of diff gene segments
2. recombination of diff # of gene segments
3. Imprecise joining of gene segments
4. P and N addition
5. Assembly of diff combination of rearranged TCR chains

Question 10

What differs TCR in way it generates diversity?

Answer 10

Unlike Ig genes, SOMATIC HYPERMUTATION does not occur - (no increase in affinity for Ag)

Question 11

Which has greater diversity TCR or BCR?

Answer 11

TCR

-Alpha has no D regions (like in Ig light chain) BUT has many J regions that contribute to its high diversity

Question 12

Why is this high diversity important?

Answer 12

So TCR can recognize peptide from any Ag it might encounter (since does not undergo somatic hypermutation)

Question 13

How do BCR and TCR recognize Ag?

Answer 13

BCR - recognize structure (naive Ag)

TCR - recognize short peptide fragments presented by MHC molecules

Question 14

How does affinity for Ag compare?

Answer 14

TCR - have weak affinity for peptide/MHC

Question 15

MHC job?

Answer 15

Present Ag

Question 16

MHC class 1

Answer 16

• alpha chain non-covalently attached to beta 2 microglobulin (stabilizes alpha chain)
• alpha 3 more constant
• alpha 1 and 2 form groove for variable part of MHC C1
• ->w/in groove are residues required to contact peptide

Question 17

MHC class 2

Answer 17

• have alpha and beta chain
• most polymorphism in beta 1 domain (alpha 1 monomorphic)
• grooved formed by beta 1 and alpha 1
• ->groove contains specific residues for peptide contact

Question 18

Can single MHC molecule bind multiple peptides?

Answer 18

Yes, if they share certain sequences

Question 19

How does MHC restrict presentation of Ag on T-cells?

Answer 19

TCR can ONLY recognize AG when presented as peptide from MHC molecule

Question 20

Process of restriction presentation

Answer 20

1. APC presents peptide to TCR and CD3 sends signal to activate cell
2. If have same Ag, but presented on FOREIGN MHC- TCR wont recognize MHC and no activation
3. Self MHC w/ diff Ag being presented - no activation

Question 21

Alloreactivity

Answer 21

Strong TC response to foreign MHC (caused by transplant rejection)

Question 22

Expression of MHC 1

Answer 22

Expressed by ALL nucleated cells

Question 23

Expression of

MHC 2

Answer 23

Expressed on a SUBSET of hematopoietic cells that are APC and thymic stromal cells

Question 24

Function od CD4 and CD8 om TCs?

Answer 24

Function as co-receptors

–increasing alpha/beta TCR sensitivity for peptide MHC

Question 25

Where do CD4/8 cells interact on MHC?

Answer 25

On NON-VARIABLE REGIONS

• MHC 1–> CD8 on CD8+ TCs will react w/ more constant region (alpha 3)
• MHC C2–> CD$ on CD4+ TCs will interact with non-polymorphic beta 2

Question 26

How do some TCRs recognize presented Ag differently?

Answer 26

Some do NOT require Ag to be presented (gamma/delta)

• can see MHC by itself
• or bind directly to native Ag

Question 27

MHC haplotype

Answer 27

Complete set of alleles found w/in an animals MHC

Question 28

Where do MHC alleles come from?

Answer 28

One from each parent

-expressed co-dominantly

Question 29

How does increase diversity between MHC haplotypes help?

Answer 29

More divergent haplotypes will present more peptides from any pathogen than more related haplotypes

Question 30

MHC diversity caused by? (2)

Answer 30

• Polymorphism due to allele variation

- Polygeny due to the fact that there are several diff MHC genes w/ similar functions

Question 31

Why is MHC diversity important to survival of HIV?

Answer 31

More polymorphism - longer time from serocenversion to live

Question 32

Relative Risk of specific MHC type

Answer 32

Look for expression of particular MHC allele w/ and w/o in individuals w/ disease and compare it to those individuals w / and w/o allele

• no association when = 1
• > 1 = allele associated w/ disease

Question 33

Where do peptides presented by MHC 1 come from?

Answer 33

From cytosolic pathogens or self-proteins in cytosol

-present to CD8+ T-cell–>kill presenting cell

Question 34

Where do peptides presented by MHC 2 come from?

Answer 34

Peptides derived from intravesicular pathogens or extracellular pathogens that are taken in
-present to CD4+ T-cells–>kill pathogen or activate B-cells

Question 35

How does MHC class 1 process Ag?

Answer 35

Newly syn proteins in CYTOSOL Ub and fragemented into peptides by PROTEOSOME

• peptides associated with TAP and move to mem of ER and then to lumen
• peptide placed in binding groove of MHC C1
• peptide complex goes to cell surface

Question 36

How does MHC class 2 process Ag?

Answer 36

Ag ingested and fragmented by PROTEASES

• peptides move into endosomal compartments and are placed in binding groove on MHC C2
• displace CLIP (usually in groove to prevent` self-binding of peptides) and goes to surface

Question 37

Cross-presentation of Ags?

Answer 37

MHC C1 can express exogenous Ags (where it usually present cytosolic)
MHC C2 can present cellular Ags (where it usually presents extracellular ones)

Question 38

What are SUPERAGs?

Answer 38

Act as bridge btween TCR and MHC and stimulate TCs

-DO NOT NEED REC OF PEPTIDE

Question 39

Comparison of SuperAg and Conventional Ag

Answer 39

• Higher freq of responsive T-cells (SA)
• SA are not MHC restricted
• SA does not require processing
• SA does not bind to peptide groove of MHC

Question 40

Ex of superAg?

Answer 40

TSST-1 –> Causes toxic shock syndrome since by allowing TCR to bind to MHC

• causes overproduction of cytokines
• complications occur
• death