Lecture 4 - Overview of the Immune Response

Question 1

What is an immune response?

Answer 1

Reaction to:

• components of microbes
• other foreign molecules
• ‘danger’

Question 2

What are the four principles of the immune response?

Answer 2

1/ Recognition
2/ Effector response
3/ Regulation
4/ Memory

Question 3

What are the requirements of the immune response?

Answer 3

• no harm to host
• rapid
• present at birth
• appropriate for pathogen

Question 4

In general, how does the immune system recognise ‘self’ from ‘non-self’?

Answer 4

Molecular differences

‘Non-self’ will have molecules on the surface that distinguish it from ‘self’

Question 5

What is the difference between PAMPs and Antigens?

Which receptors detect each?

Answer 5

PAMPs: pathogen associated molecular patterns

• common to all pathogens
• PRRs

Antigen:

• unique to a particular organism
• Antibodies / Antigen receptors

Question 6

Assess the innate immune system in the following criteria:

• specificity
• diversity
• memory
• response time
• magnitude of response
• cells
• chemical barriers
• soluble proteins

Answer 6

• specific to PAMPs
• limited diversity
• no memory
• rapid response
• no change in magnitude
• Macrophages, NK cells
• Antimicrobial molecules
• Cytokines, complement

Question 7

Assess the adaptive immune system in the following criteria:

• specificity
• diversity
• memory
• response time
• magnitude of response
• cells
• chemical barriers
• soluble proteins

Answer 7

• specific to antigens
• huge amount of diversity
• memory
• slow response time
• magnitude increases with exposure
• Lymphocytes
• IgA (antibodies)
• cytokines

Question 8

What are the two pathways of development for the cells on the immune system?

Answer 8

Myeloid progenitor:
• neutrophils
• eosinophils
• basophils
• macrophages

Lymphoid progenitor:
• T lymphocytes
• B lymphocytes
• NK cells

Question 9

What factors determine the fate of the progenitor cells?

Answer 9

Bone marrow stromal cells

CSFs: colony stimulation factors

Question 10

What are the different types of PRRs?

Answer 10

TLR: toll-like receptors
NOD: nucleotide binding oligomerisataion domain
RIG: Retinoic acid inducible gene
Collectins: proteins that bind CHOs

Question 11

What are DAMPs?

Answer 11

Danger associated molecular patterns

Question 12

What does TLR-2 bind?

Answer 12

Components of the bacterial cell wall:

- peptidoglycan

Question 13

What does TLR-4 bind?

Answer 13

LPS

Question 14

What does TLR-5 bind?

Answer 14

Flagellin

Question 15

What does TLR-9 bind?

Answer 15

CpG-DNA

Question 16

What do NLRs bind?

Answer 16

Peptidoglycan on G- cells

DAMPs

Question 17

What are some examples of DAMPs?

Answer 17

Free fatty acids

Stress metabolites

Question 18

What happens when TLRs and NODs are engaged?

Answer 18

Expression of different cell surface receptors

• Cytokine production
• Defensin production

Question 19

What happens when Mannose receptors are engaged?

Answer 19

Phagocytosis

Question 20

What is ligation of RIGs associated with?

Answer 20

Anti-viral immunity

Question 21

What are the constitutive factors that mediate innate IS?

Answer 21

• Complement proteins
• C reactive protein
• Mannose binding lectin
• Lysozyme

Question 22

What does lysozyme do?

Answer 22

Disrupts the cell wall (peptidoglycan)

Question 23

What does C reactive protein do?

Answer 23

Binds to the capsule –> phagocytosis

Question 24

What are defensins?

Answer 24

Proteins that kill phagocytosed bacteria by putting holes in the cell wall

Question 25

What is mannose binding lectin?

Answer 25

It is a protein on the cell that binds to mannose on the invader, triggering the complement cascade

Question 26

How may the complement cascade be activated?

Answer 26

Classical pathway: antibody binds to invader

Mannose binding lectin pathway: MBL binds to mannose on microbe

Alternate pathway: binding directly to the pathogen

Question 27

What are the effector responses of the complement cascade?

Answer 27

Opsonisation: coating, ready for phagocytosis

MAC: pore-formation in the cell wall of the bacterium

Chemotaxis: recruitment of inflammatory cells

Question 28

What are the induced soluble factors that mediate immunity?

Answer 28

Cytokines

Chemokines

Question 29

What are cytokines?

Answer 29

Secreted proteins that warn neighbouring cells that there is an invader present

Question 30

What are chemokines?

Answer 30

Secreted protein that attract cells to the site of infection

Question 31

What is the receptor of a B cell?

Answer 31

Antibody

Question 32

What is the receptor of a T cell?

Answer 32

T cell receptor

Question 33

What is the structure of antibody?

Answer 33

Fab: variable region
Fc: constant region

Two light chains
Two heavy chains

Question 34

What is the structure of a T cell receptor?

Answer 34

Constant and variable region

Alpha and beta chain

Question 35

What can antibodies bind?

Answer 35

Molecules associated with extracellular pathogens

Question 36

What can T cell receptors bind?

Answer 36

Peptides associated with intracellular antigens

Question 37

Describe the location of innate leucocytes of the innate immune system

Answer 37

Blood –> infected tissue

Question 38

Describe how neutrophils migrate from blood to tissues

Answer 38

1. Chemotactic gradient, cytokines making endothelium leaky
2. Congestion, margination, rolling, adhesion of neutrophils in the endothelium
3. Diapedesis
4. Neutrophils follow the chemokine gradient to the invader

Question 39

Describe the locations of the elements of the adaptive immune system

Answer 39

Circulate in blood
Secondary lymphoid tissue (interact here with APCs)
Migrate to infected tissue

Question 40

How is it possible that pathogens present at peripheral sites can interact with circulating lymphoctes?

Answer 40

The lymphatic system

APCs are the relay mechanism

Question 41

Describe the generalised flow of lymph

Answer 41

• Infected tissue
• Afferent lymphatic vessel
• Lymph node
• Efferent lymphatic vessel
• Thoracic duct
• Venous system
• Back to infected tissue

Question 42

Where do naive lymphocytes come into contact with pathogens?

Answer 42

In secondary lymphoid organs

Question 43

What are some secondary lymphoid organs?

Answer 43

Spleen
Lymph nodes
Peyer’s patches
Adenoids

Question 44

What are some primary lymphoid tissues?

Answer 44

Bone marrow

Thymus

Question 45

Describe blood flow through lymph nodes

Answer 45

Artery in through hilum

2. Lymphocytes move through HEV into Paracortex and cortex
   3a. B cells: B cell zone, follicle
   3b. T cells: Paracortex
3. Encounter lymph that has come in through the afferent lymphatic
4. Activated lyphocytes exit via vein
5. Vein leaves via hilum

Question 46

Describe how lymphoctes move from circulation into the lymph node

Where does this occur?

Answer 46

This occurs at the HEV: (high endothelial vessels)

1. Rolling and weak adhesion to endothelium
2. Strong adhesion to endothelium
3. Emigration into lymph node

Question 47

What is different about migration of neutrophils into infected tissue, and migration of lymphocytes into the lymph node

Answer 47

Same process, different selective molecules

Question 48

Where do T cells hang out in the lymph node?

Answer 48

Paracortex

Question 49

Where do B cells hang out in the lymph node?

Answer 49

B cell zone, follicle

Question 50

What determines where the lymphocytes will migrate to, once in the lymph node?

Answer 50

Chemokines

Question 51

How are T cells activated?

Answer 51

(Adhesion)

1. Antigen presented to their TCR on MHC of APC
2. Costimulation
3. Cytokines

Question 52

Which MHC molecules interact with which T cell?

Answer 52

CD4+ cells: MHC II

CD8+ cells: MHC I

Question 53

How does peptide come to be on MHC I?

Answer 53

1. Peptide produced within a cell
2. Peptide broken down by proteasome
3. Peptide delivered into ER through TAP complexes
4. Peptide loaded onto MHC I
5. MHC I transported to the cell surface

Question 54

How does peptide come to be on MHC II?

Answer 54

1. Bacterium taken into the cell by endocytosis, broken down
2. MHC II with invariant chain gets delivered to phagolysosome
3. Peptide displaces invariant chain
4. MHC II + peptide delivered to the cell surface

Question 55

Describe costimulation of APCs and CD4+ cells

Answer 55

CD80, CD86 interact with CD28

Question 56

Describe Signal 3 of CD4+ cell activation

Answer 56

Specific cytokines (depending on the PAMP-PRR interaction), controlling the differentiation of CD4+ cells.

Question 57

TGF-B skews Th cells towards…

Answer 57

Treg

Question 58

IL-6 skews Th cells towards…

Answer 58

Th17

Tfh

Question 59

IL-12 skews Th cells towards…

Answer 59

Th1

Question 60

IL-4, IL-33 skews Th cells towards…

Answer 60

Th2

Question 61

What is the role of Treg?

Answer 61

Downregulates immune function

Question 62

What is the role of Th17?

Answer 62

Neutrophil recruitment

Question 63

What is the role of Th1?

Answer 63

Inflammation

Question 64

What is the role of Th2?

Answer 64

Parasite immunity

Allergy

Question 65

What is the role of Tfh?

Answer 65

B cell proliferation and differentiation

Question 66

What is the result of PRR-PAMP binding?

Answer 66

Signal transduction
Gene transcription:
• chemokines and cytokines
• defensins
• cell surface receptor expression

Question 67

Compare the lifespan of macrophages and neutrophils

Answer 67

Macrobphages: long lived
Neutrophils: short lived

Question 68

Where are macrophages found?

Compare this with neutrophils

Answer 68

In places where infection is likely:
• respiratory tract
• digestive tract
• connective tissues
• liver
• spleen

Neutrophils: in the blood

Question 69

Describe what happens when Macrophages and Neutrophils phagocytose pathogens?

Answer 69

Upregulation of killing mechanisms

Release of cytokines and chemokines

Question 70

How do neutrophils and phagocytes recognise pathogens?

What happens next?

Answer 70

• PRR
• FcR
• C3bR

After binding, there is rearrangement of the actin cytoskeleton, extension of pseudopods –> phagocytosis

Question 71

How do phagocytes kill pathogens once they have engulfed them?

Answer 71

Granules fuse with the phagosome:
• ROS
• hydrolases
• defensins
• lysozyme

Question 72

Describe how larger invaders such as nematodes are killed

Answer 72

Too big to engulf –> extracellular killing

• Macrophages + Neutrophils + Eosinophils gather
• Exocytosis of granules
• Extracellular killing of the pathogen

Question 73

Describe the response to virus infection

Answer 73

1. Invasion
2. PRR - PAMP (weird genome elements)
3. IFN-a and IFN-B production
4. Induction of NKs

Question 74

Describe the mechanism of action of NKs

Answer 74

1. Stimulated by IFN
2. Recognise virally infected cells, because there is reduced MHC I expression
   3.

Question 75

How do NKs recognise virally infected cells?

Answer 75

Viruses in cells downregulate the expression of MHC I so that they can avoid detection by CTLs.

NKs recognise the fewer MHC I

Question 76

What is really important about DCs?

Answer 76

They link the innate and the adaptive immune responses

Question 77

Describe the mechanism of action of DCs

Answer 77

1. PAMP-PRR
2. Pathogen antigen presented on MHC
3. Expression of costimulatory molecules
4. Migration to lymph node
5. Activation of T and B lymphocytes