Antigen uptake, processing, and presentation

Question 1

What is self -MHC restriction?

Answer 1

the fact that T cells can only respond to antigen that is presented on self MHC

Question 2

Antigen recognition by CD4+ cells is class __ restricted?

Answer 2

Class II MHC

Question 3

Antigen recognition by CD8+ cells is class __ restricted?

Answer 3

Class I MHC restricted 
-the target cell and the CTL must share the same allelic form of class I MHC molecules.

Question 4

Professional APCs (macrophages, B cells and dendritic cells) express..?

Answer 4

class II MHC molecules and costimulatory molecules

Question 5

Nonprofessional APCs such as skin fibroblasts and endothelial cells can be induced to express class II MHC molecules and/or costimulatory molecules by?

Answer 5

IFN-γ

Question 6

How do antigen presenting cells deliver costimulatory signals?

Answer 6

via B7 family members like CD80 and CD86

Question 7

Dendritic cells constitutively express class___MHC and ___molecules.

Answer 7

Class II MHC and B7 molecules

Question 8

B cells constitutively express class II MHC but only express B7 following….

Answer 8

activation

Question 9

What antigen presenting cell only expresses class II MHC and B7 upon activation?

Answer 9

Macrophages

Question 10

Name 6 non-professional antigen presenting cells

Answer 10

1. Fibroblasts (skin)
2. Glial cells (brain)
3. Pancreatic beta cells
4. Thymic epithelial cells
5. Thyroid epithelial cells
6. Vascular endothelial cells

Question 11

Prof. APCs: Antigen uptake

Answer 11

Dendritic cell: endocytosis and phagocytosis

Macrophage: Phagocytosis

B cell: receptor-mediated endocytosis

Question 12

Prof. APCs: Activation

Answer 12

DC: PRRs and PAMPS
Macrophage: PRRs and T cell help enhances it
B cell: antigen recognition

Question 13

Prof. APCs: MHC class II expressivity

Answer 13

DC: increases with activation (can express low levels constitutively)

Macrophage: Increases with activation

B cell: increases with activation (can express low levels constitutively)

Question 14

Prof. APCs: Costimulatory activation

Answer 14

DC/Macrophage/B cell: up-regulation of CD80/86 with activation

Question 15

Prof. APCs: T cell activation

Answer 15

DCs: Naive, effector, memory (widest range)

Macrophage/B cells: effector and memory

Question 16

Dendritic cells: location when resting and activated

Answer 16

Resting: in circulation and peripheral tissues

Activated: T cell zones (SLOs) and tertiary tissues

Question 17

Macrophages: location when resting and activated

Answer 17

Resting: circulation and peripheral tissues

Activated: SLOs in the subcapsular cortex of lymph nodes and the marginal zones of the spleen as well as peripheral tissues

Question 18

B cells: location when resting and activated

Answer 18

Resting: circulation and SLOs (follicles)

Activated: SLOs of the B/T cell interface, germinal centres, and marginal zones

Question 19

What is the role of IL-2?

Answer 19

Activating T cells and causing them to replicate and divide into effector and memory T cells

Question 20

How is IL-2 produced?

Answer 20

T cell receives signals 1 and 2 from the APC

Signals T cell to produce IL-2 and the IL-2 receptor

The IL-2 then acts back on the T cell itself

Question 21

What is the target cell for CD8+ T cells ?

Answer 21

Almost all nucleated cells 
-because they express abundant class I MHC (except neurons)

Question 22

Cytosolic Pathway processes:

Answer 22

endogenous (intracellular) antigens and presents them on the cell surface in association with class I MHC molecules.

Question 23

Endocytic pathway processes:

Answer 23

exogenous (extracellular) antigens and presents them on the cell membrane in association with class II MHC molecules.

Question 24

general Steps in the cytosolic pathway

Answer 24

1. Endogenous antigens targeted by ubiquination
2. Antigens degraded by the proteasome
3. Peptides can either undergo further degradation by exopeptidases into amino acids OR be taken into the TAP and then to the RER
4. Then they are presented via class I MHC

Question 25

What is the TAP?

Answer 25

Transporter of Antigenic Peptides

Question 26

What is the function of the TAP? What peptides does it have a high affinity for?

Answer 26

Has a high affinity for peptides that are 8-13 aa in length

Carries cytosolic peptides across the RER

Question 27

What is the role of calnexin the cytosolic pathway?

Answer 27

promotes folding and inhibits premature α chain degradation

Question 28

What is the role of calreticulin the cytosolic pathway?

Answer 28

Calreticulin is a molecular chaperone that promotes proper folding

Question 29

What is the role of tapasin?

Answer 29

Tapasin brings TAP close to the class I MHC molecule, allowing the class I MHC molecule to acquire the antigenic peptide.

Question 30

What is the role of the ERp57 complex

Answer 30

associates with the calreticulin/class I MHC/tapasin complex to stabilize the complex and allow the class I MHC molecule to be released once antigenic peptide is acquired

Question 31

6 Steps of the cytosolic pathways occurring in the rough ER

Answer 31

1. newly synthesized α chains of class I MHC associate with the molecular chaperone calnexin
2. β2-microglobulin binds to the α chain, calnexin is released and the class I MHC molecule associates with calreticulin and tapasin.
3. Tapasin brings TAP close to the class I MHC molecule, allowing it to acquire the antigenic peptide.
4. ERp57 associates with the calreticulin/class I MHC/tapasin complex to stabilize the complex
5. Class I MHC released once peptide is acquired
6. peptide-MHC class I complexes are then transported in vesicles from the RER through the Gogli complex to the plasma membrane.

Question 32

What is responsible for receptor-mediated endocytosis for B cells?

Answer 32

Membrane bound immunoglobulin

Question 33

During the endocytic pathway, what happens to the antigen once it is ingested?

Answer 33

degraded into peptides by hydrolytic enzymes within the acidic environment of the endocytic compartment

Question 34

Where do the class II MHC molecules originate from in the endocytic pathway?

Answer 34

Polysomes within the RER

Question 35

Explain the process of class II MHC preparation and antigen binding starting at the RER for the endocytic pathway (6 steps)

Answer 35

1. Class II MHC alpha and beta chains bind the invariant chain in the RER
2. MHC complex is routed through the Golgi to the endocytic pathway compartments
3. Invariant chain is degraded, leaving the CLIP fragment behind
4. Exogenous antigen is taken up, degraded and routed to endocytic pathway compartments
5. HLA-DM mediates exchange of CLIP for the antigenic peptide
6. Class II MHC-peptide is transported to the plasma membrane

Question 36

What is the role of the invariant chain?

Answer 36

To prevent binding of endogenous antigen to the class II MHC

Question 37

What is the role pf HLA-DO and HLA-DM in the endocytic pathway?

Answer 37

HLA-DM catalyses the exchange of CLIP for the antigenic peptide

HLA-DO modulates HLA-DM

*both are non-classical class II MHC molecules

Question 38

What is the difference between class I and class II MHC with respect to binding antigenic peptides within the RER?

Answer 38

Class I MHC molecules bind antigenic peptides within the RER while class II molecules do not because the invariant chain occupies the peptide- binding cleft

Question 39

What is the purpose of having 2 segregated systems?

Answer 39

the segregation of the pathways means that the immune system will be optimally responsive to either an intracellular or extracellular infection

• cytosolic pathway: dispatch T cells
• endocytic pathway: antibody

Question 40

What is cross presentation and which cells can do it?

Answer 40

Dendritic cells are able to present exogenous antigen to cytotoxic T lymphocytes in the context of class I MHC molecules

Question 41

What is the point of cross-presentation?

Answer 41

professional antigen-presenting cells that are not infected by virus are still able to activate cytotoxic T lymphocytes.

Question 42

How does DC licensing occur?

Answer 42

DCs present antigen to CD4+ T cells

CD4+ T cells then become activated if they recognize the antigen

License DCs to present exogenous antigens via class I MHC

Question 43

How are exogenous nonpeptide antigens expressed? (like lipids and glycolipids)

Answer 43

via CD1

• resembles class I MHC
• associates with the ß-microglobulin

Question 44

Which cells express CD1?

Answer 44

professional and non-professional APCs

Question 45

Which 2 cytokines can induce the expression of CD1?

Answer 45

GM-CSF and IL-3

Question 46

how many known subsets of CD1 are there?

Answer 46

4

Question 47

What types of cells recognize CD1 and through what receptor?

Answer 47

A wide range of T cell types, including NKT cells and T cells that express a γδ T cell receptor