Immunology

Question 1

When would immunosuppression be utilitised?

Answer 1

Patients may be artificially immunosuppressed in the event of an autoimmune disease

Question 2

Describe the properties of the skin as a physical barrier to infection

Answer 2

It is constantly renewed

It has a low pH

It has low oxygen tension

Sebaceous glands secrete hydrophobic oild whick make it hard for pathogens to bind

Question 3

Mucous line all _____ ________ that come into contact with the ___________

Answer 3

Body cavities

Environment

Question 4

Mucous contains many constitutes which can fight potential pathogens, what are these?

Answer 4

• Secretory IgA
• Lysozymes
• Defensins
• Antimicrobial peptides
• Lactoferrin - starve invading bacteria of iron

Question 5

What are commensal bacteria?

Answer 5

Bacteria that reside in the body and on epithelial surfaces naturally.

They have a symbiotic relationship with the body and can eradicate most normally infections

They ensure there is no undefended ecological niche

Question 6

The components of the immune system can be split into which two categories?

Answer 6

1. Cells
2. Humoral immunity (soluble factors)

Question 7

Which 3 main groups of cells are involved in the immune system?

Answer 7

1. Phagocytes
2. Lymphocytes
3. Granular

Question 8

When a cell is infected with a virus what will it secrete?

Answer 8

Interferons (alpha and beta)

Question 9

The antiviral state inititiated by interferons achieves what?

Answer 9

It down regulates protein synthesis which slows virus production

Question 10

What is an antigen?

Answer 10

An substance able to stimulate an adaptive immune response - it can be protein, carbohydrate, nucleic acid, lipid, metal etc

Question 11

Where are T and B cells formed?

Answer 11

Bone marrow

Question 12

Where do B cells mature?

Answer 12

Bone marrow

Question 13

Where do T cells mature?

Answer 13

Thymus gland

Question 14

In response to an infection B cells will produce what?

Answer 14

Antibodies and memory cells

Question 15

What are the two types of T cell?

Answer 15

Helper T cell (CD4+)

Cytotoxic T cell (CD8+)

Question 16

How does a virus evade the immune system?

Answer 16

It will usually hide within body cells

Question 17

How can cytotoxic T cells discover viruses hiding in body cells?

Answer 17

The host cell constantly samples its cytoplasm and displays proteins on its surface - this is mediated by MHC class 1 proteins

These displayed proteins can “show” cytotoxic T cells which cells are infected

Question 18

How do viruses evade the process of cytoplasm sampling mediated by MHC class I proteins?

Answer 18

They downregulate the production of MHC class I proteins

This reduced cytoplasm sampling

Question 19

How do natural killer (NK) cells retaliate to viruses that downregulate MHC class I production?

Answer 19

NK cells can detect a lack of MHC class I proteins on a cell surface

They can then attack and destroy such cells

Question 20

How are parastitic works (helminths) attacked by the immune system?

Answer 20

Antibodies and mast cells

Question 21

What is the complement system and where is it produced?

Answer 21

Family of around 30 different proteins produced in the liver

Question 22

How does the complement system function?

Answer 22

When activated, the proteins activate eachother in a cascade fashion

This involves great amplification and playes a role in inflammation

Question 23

When do monocytes differentitate into macrophages?

Answer 23

When they exit the blood and migrate to peripheral tissues

Question 24

What are Kupffer cells?

Answer 24

Macrophages of the liver

Question 25

What are mesangial cells?

Answer 25

Macrophages of the kidney

Question 26

What are macrophages of the nervous sytem called?

Answer 26

Microglia

Question 27

How can neutrophils be differentiated from macrophages?

Answer 27

Their multi-lobed nucleus

Question 28

What is the role of dendritic cells?

Answer 28

They engulf pathogens, phagoytose and then present antigens on their surface to T cells

Question 29

What are the main functions of neutrophils?

Answer 29

Killing and degredation

Question 30

What are the main functions of macrophages?

Answer 30

Killing, degregation, wound healing, anti-inflammatory and antigen presentation

Question 31

What is the main fucntion of dendritic cells?

Answer 31

Antigen presentation

Question 32

What is lymphodema and why may it result in infection?

Answer 32

It a condition characterised by a lack of draining of tissue fluid by the lymphatic system

The fluid builds up and is not cleaned as effectively leading, potentially, to infection

Question 33

The immune system itself is composed of two halves - what are these halves and how are they connected?

Answer 33

1. Innate immune system
2. Adaptive immune system

Joined through the action of dendritic cells

Question 34

What is meant by “direct contact” between immune cells and pathogens?

Answer 34

A receptor/ligand interaction

Question 35

What is meant by “indirect contact” in the immune system?

Answer 35

Communication between cells and pathogens through the use of cytokines

Question 36

What are autocrine signals?

Answer 36

Signals produced by a cell that lead to self-activation

Question 37

Interferons have the role of activating an _______ ______

Answer 37

Antiviral state

Question 38

Which cells may secrete interferons?

Answer 38

Infected cells

Question 39

Release of interferons has two main outcomes, what are they?

Answer 39

1. Protein synthesis is downregulated
2. Employment of particlular mlcules into the cell membrane is upregulated such as MHC class I - allows for detection

Interferons can also instruct cells to undergo apoptosis

Question 40

What are the signs of acute infammation?

Answer 40

• Redness - vasodilation
• Swelling - vascualr permeability
• Heat - high metabolic function
• Pain
• Loss of function

Question 41

What are the three phases of the innate response?

Answer 41

1. Recognition
2. Activation
3. Effector

Question 42

Describe recognition as a phase in the innate response

Answer 42

Innate immune cells recognise pathogens due to the expression of PAMPs which bind to PRRs on innate immune cells

Question 43

What are PAMPs?

Answer 43

Pathogen associated molecular patterns

These are ligands expressed on the surface of pathogens which allow them to be detected by immune cells

Question 44

What are PRRs?

Answer 44

Pattern recognition receptors

Found on innate imune cells that are receptors for PAMPs found on pathogens

Question 45

How do macrophages differentiate between apoptotic cells and normal cells?

Answer 45

Normally phospholids called phosphatidlyserine are held facing inward to the cytoplasm by the enzyme flippase

In the event of apoptosis, phosphatidlyserine is fliiped to face outwards by the acion of the enzyme scramblase

These outward facing phosphatidlyserine lipids act as signals for macrophageal engulfment

Question 46

PAMPs have the ability to activate which three immune cells

Answer 46

1. Macrophages
2. Mast cells
3. NK cells

Question 47

Injured cells release which type of signals?

Answer 47

Danger signals

(e.g. IL 33)

Question 48

What happens when macrophages cannot kill a pathogen?

Answer 48

Infected macrophages are walled off forming granulomas

The purpose of this is to prevent the spread of infection

Question 49

What will be present on the surface of macrophages after engulfment of a pathogen?

Answer 49

Fragments of pathogen protein

This allows for recognition by antigen presentation

Question 50

Interferon gamma can cause what change in a macrophage?

Answer 50

It will cause superactivation

This allows for expression of inducible nitric oxide synthase - an enzyme allowing for production of toxic oxygen and nitrogen species

The antigen presentation capacity of macrophages will also increase

Question 51

Where are mast cells found most prominently?

Answer 51

Mucosal surfaces

Question 52

Which two processes occur when a PRR on a mast cell is bound by a PAMP?

Answer 52

• Degranulation - release of pre-formed pro-inflammatory mediators are released allowing for acute inflammation
• Gene expression - production of new pro-inflammatory mediators commences within mast cells

Question 53

Why do NK cells not kill normal helathy cells?

Answer 53

Normal cells have MHC class I protein on their surface which is bound to self proteins (antigens)

NK cells have a receptor on their surface that binds to the MHC class I protein and the antigen

When the antigen/MHC class I combination is of self-origin, inhibitory signals are sent to the NK cells

Question 54

How do viruses evade cytotoxic T cell killing?

Answer 54

They cannot be detected by the antigen/MHC class I receptor system because they downregulate MHC class I production meaning it is more difficult for foreign antigens to be “seen”

Question 55

How do NK cells kill cells in which viruses have downregulated MHC class I production?

Answer 55

If no ligand (MHC class I + antigen) is present, NK cells cannot be inhibited so the cell is killed regardless

NK cells take no chances

Question 56

Upon activation NK cells secrete pro inflammatory mediators such as _________ gamma

Answer 56

Interferon

Question 57

In what two ways are NK cells activated?

Answer 57

1. Detection of no/foreign MHC class I
2. Interferon alpha and beta released from infected cells

Question 58

Which pro-inflammatory mediator acts upon macrophages to superactivate them?

Answer 58

Interferon gamma

(produced from NK cells)

Question 59

Which cytokines act on the hypothalamus to increase prostaglandin production?

Answer 59

TNFalpha, IL-1 and IL-6

Question 60

What is the function of prostaglandin production by the hypothalamus during an infection?

Answer 60

Induces fever

Question 61

What effect do cytokines TNFalpha, IL-1 and IL-6 have on bone marrow?

Answer 61

Act on haematopoetic stem cells to drive production and differentiation of more neutrophils

Question 62

What is increased production of neutrophils called?

Answer 62

Neutrophilia

Question 63

Where is C reactive protein produced and what increases its production?

Answer 63

Liver

Pro-inflammatory mediators TNFalpha, IL-1 and IL-6

Question 64

Clinically, why are CRP levels usefult to monitor?

Answer 64

They are very indicative of the level and severity of inflammation

Question 65

CRP has which two functions in the immune system?

Answer 65

1. Promotes phagocytosis
2. Activates complement

Question 66

What are the symptos of the local effects of inflammation?

Answer 66

• Rubor - redness
• Calor - heat
• Tumour - swelling
• Dolor - pain
• Loss of function

Question 67

Pro-inflammatory mediators can cause systematic effects as well as local ones, what are these?

Answer 67

• Neutrophilia
• Fever
• Activation of complement
• Promotion of phagocytosis

Question 68

How is vascular permeability brought about during acute inflammation?

Answer 68

• Macrophages - TNFalpha, IL-1, NO
• Mast cells - Histamine, TNFalpha, leukotrienes, prostaglandins

Question 69

How is vasodilatation brought about during acute inflammation?

Answer 69

1. TNFalpha - mast cells and macrophages
2. Histamine - mast cells

Question 70

During acute inflammation, what can cause endothelial cells within vessels to become activated?

Answer 70

• TNFalpha - macrophages
• IL-1 - Macrophages
• Chemokines - macrophages
• Histamines - mast cells

Question 71

What does endothelial cell activation involve?

Answer 71

Expression of receptors (selectins) and ligands (ICAM-1 and VCAM-1)

Question 72

Which cell types can undergo transendothelial migration?

Answer 72

• Neutrophils
• Monocytes
• NK cells
• Basophils
• Eosinophils
• T cells

Question 73

What is white cell margination and how does it come about?

Answer 73

Due to vasodilatation (induced by TNFalpha and histamines), there is slower blood flow (stasis) which causes white cells to move closer to the endges of vessels

Question 74

Why do neutrophils roll along the endothelial walls after white cell margination?

Answer 74

They bind via carbohydrate ligands to selectins on the endothelial walls

This attraction has low affinity meaning bonds are continually made and broken so the white cells roll along the walls

Question 75

What causes there to be strong attraction between neutrophils and the endothelial cell walls?

Answer 75

The release of chemokines from macrophages can activate neutrophils

This allows receptors on the neutrophil surface (integrins) to form strong bonds with the ICAM-1 and VCAM-1 on the endothelial cell walls

Question 76

After binding between integrins and ICAM-1/VCAM-1 occurs what occurs next to the neutrophil?

Answer 76

It will come to a halt and undergo diapedesis - the process where neutrophils squeeze through the spaces between endothelial cells and into the extracellular space

Question 77

How do neutrophils migrate to the site of inflammation after diapedesis?

Answer 77

Chemotaxis

Locomotion along a chemokine gradient

Question 78

What are the two basic functions of neutrophils?

Answer 78

1. Kill extracellular pathogens
2. Produce pro-inflammatory cytokines

Question 79

During phagocytosis, what are the two main ways that pathogens will be destroyed within a phagosome?

Answer 79

1. Anti-microbial proteins
2. NADPH oxidase dependent mechanisms

Question 80

Describe how anti-microbial proteins will kill pathogens within a phagosome

Answer 80

The phagosome fuses with azurophilic granules raising pH

This activates the antimicrobial response - pH of the phagosome decreases, lysosomes fuse and acid hydrolases enter to break down bacteria

Question 81

Describe how NADPH oxidase dependent mechanisms kill bacteria

Answer 81

Neutrophils can become activated by cytokines or PAMPs which forms the NADPH complex

This means that a highly reactive oxygen species (ROS) can now be produced and released into the phagolysosome

Question 82

What is degranulation?

Answer 82

The release of anti-microbial proteins into the extracellular space instead of within a phagolysosome

Question 83

What is the downside to degranulation an how is this negative aspect partly counteracted?

Answer 83

Release of anti-microbial proteins into extracellular space is damaging to surrounding tissues

This is counteracted by upregulation of proteinase inhibitors produced during the acute phase response

Question 84

What are NETs?

Answer 84

Neutrophil extracellular traps

Intracellular structures release by neutrophils into extracellular spaces - they function as nets to prevent spread and facilitates phagcytosis

Question 85

What is pus?

Answer 85

Collection of neutrophils, NETs, dead bacteria and cellualr debris

Question 86

What is the term given to a collection of pus within an enclosed space?

Answer 86

Abscess

Question 87

What is sepsis?

Answer 87

Blood poisoning brough about by infection

Uncontrolled inflammation causes sepsis and it can lead to septic shock due to a drop in blood pressure organ failure occurs

Question 88

What are examples of complement proteins?

Answer 88

• Kinins
• Coagulation factors
• Fibrinolytic system

Question 89

How many complement proteins are there and where are they produced?

Answer 89

30

Liver

Question 90

In simple terms what activates complement?

Answer 90

Pathogens

(directly or indirectly)

Question 91

What are the three pathways in which a cascade can occur involving complement?

Answer 91

1. Mannose-binding lectin pathway
2. The alternative pathway
3. The classical pathway

Question 92

Describe the classical pathway of complement activation

Answer 92

• C1 complex is activated upon binding to an immune complex involving either IgG or IgM
• C1 splits to C4 and C2
• C4 becomes C4a and C4b, whilst C2 becomes C2a and C2b
• Both C4b and C2a complex to form C4b2a (C3 convertase)
• This enzyme allows for C3 to be cleaved into C3a and C3b

Question 93

Describe the mannose-binding lectin pathway for complement activation

Answer 93

Mannose - a bacterial carbohydrate

Mannose binding lectin is produced in the liver and binds to mannose

This initiates the breakdown of C3 to C3a and C3b

C3b contributes to an amplification loop

Question 94

Describe the alternative pathway for complement activation

Answer 94

C3 spontaneously breaks down

C3b binds to the pathogen surface and acts in amplification of the response

Question 95

How is the membrane attack complex formed and how is this achieved?

Answer 95

C3b causes breakdown of C5 into C5a and C5b

C5b binds to the surface of the pathogen

C6, 7, 8 and 9 assemble around C5b forming the membrane attack complex

This created a funnel shaped hole in the pathogen allowing for death by osmotic cell lysis

Question 96

What is opsonisation?

Answer 96

The coating of pathogens by humoral factors (opsonins) to facilitate phagocytosis

Question 97

Give some examples of opsonins

Answer 97

• C3b
• C-reactive protein
• IgG and IgM

Question 98

C5a and C3a are _____________ which can act on which two things?

Answer 98

Anaphylatoxins

Acts on mast cells and blood vessels

Question 99

What effects do the anaphylatoxins C3a and C5a have on mast cells and blood vessels?

Answer 99

• Activate mast cells to produce pro-inflammatory mediators and chemokines to increase vascular permeability and increase recruitment of macrophages, neutrophils and lymphocytes
• Act directly on blood vessles to have the same effect as activated mast cells - increased vascular permeability and immune cell recruitment

Question 100

Why does a small signal from the complement system result in a large effect?

Answer 100

The amplification loop

Question 101

How is the amplification loop controlled in the complement system?

Answer 101

• Only cleaved proteins are active
• Active proteins have a short half life
• Some complement proteins cannot bind to human cells
• Complement inhibitors and regulatory proteins can limit the effects of complement where necessary

Question 102

In the mature state, what do dendritic cells do?

Answer 102

Enter secondary lymphoid tissues and play a role in antigen presentation to CD4+ cells

Question 103

Which “arm” of the immune system is rapid, non-specific and inborn

Answer 103

Innate

Question 104

Which “arm” of the immune system is slow, specific and acquired?

Answer 104

Adaptive

Question 105

Which cells can communicate between both “arms” of the immune system?

Answer 105

Dendritic cells

Question 106

What are the types of cells in the aquired immune system?

Answer 106

• B cells
• CD4+ T cells (helper)
• CD8+ T cells (cytotoxic)
• Memory T cells
• Memory B cells

Question 107

How is the interaction between PAMPs and PRRs different from the interaction between antigens and antibodies?

Answer 107

The interaction between antigen and antibody is far more specific and they are not at all interchangable

Question 108

How are T cells recognised?

Answer 108

Membrane bound heterodimer (composed of alpha and beta chains)

Question 109

How are B cells recognised?

Answer 109

Membrane bound antibody (IgM or IgD)

Question 110

What are antibodies composed of?

Answer 110

Two heavy and two light polypeptide chains which are held together by di sulphide bridges

Question 111

How do heavy and light chains confer variability?

Answer 111

Each heavy and light chain has a variable region at the end and a constant domain on the rest of the chain

Question 112

What type of heavy chain does IgM have?

Answer 112

μ heavy chain

Question 113

What type of heavy chain does IgG have?

Answer 113

γ heavy chain

Question 114

What type of heavy chain does IgA have?

Answer 114

α heavy chain

Question 115

What type of heavy chain does IgE have?

Answer 115

ε heavy chain

Question 116

What type of heavy chain does IgD have?

Answer 116

𝛿 heavy chain

Question 117

In an antibody, what is the antigen binding site composed of?

Answer 117

The hypervariabe regions Ig light and heavy chains

Question 118

How is it possible that there are more antibodies than genes in the body?

Answer 118

The light and heavy chain are coded for by segmented genes in the germline genome of haematopoetic stem cells

Question 119

How are the segmented genes from the germline genome of haematopoetic stem cells arranged within B cells as they go through development?

Answer 119

They are randomly rearranged

Question 120

How is genertic material arranged during the development of T cells?

Answer 120

It is randomly rearranged

Question 121

The gene arrangement process in the development of both T and B cells gives rise to which two importnt factors?

Answer 121

1. Populations of B cells and T cells are hugely diverse
2. There is potential for generation of autoreactive cells

Question 122

How do naive T cells and B cells enter lymph nodes from high endothelial venules (HEVs)?

Answer 122

Transendothelial migration

Question 123

What is the function list of an immature dendritic cell?

Answer 123

Ability to phagocytose antigens, cell debris and particles

Question 124

Where do mature dendritic cells migrate to and what do they do there?

Answer 124

Secondary lymphoid tissues (lymph nodes)

Display antigens to T cells

Question 125

Which cytokine will activate immature dendritic cells?

Answer 125

TNFalpha

Induces expression of co-stimulatory molecules (B7)

(dendritic cells mature)

Question 126

How do dendritic cells present antigens?

Answer 126

In complex with MHC class I proteins on their cell surface

Question 127

Where do dendritic cells go that are presenting foreign antigens?

Answer 127

Local lymph nodes

T cells can easily recognise the foreign antigens here

Question 128

Stromal cells have what function in lymph nodes?

Answer 128

They are connective tissue cells that can bind to opsonised antigens

Question 129

For B cells to be activated, how many signals do they require?

Answer 129

2

Question 130

What signals can activate B cells?

Answer 130

The B cell receptor + antigen must always be one signal

The other signal can be any of the following:

• T_FH (helper T cell)
• PRR + PAMP
• Multiple BCR + antigens - repetitive antigens with multiple epitopes (areas antibodies can bind to antigen)

Question 131

What are the two classes of MHC proteins and their functions?

Answer 131

Class 1 - expressed on all nucleated cells - present peptide antigens to CD8+ T cells

Class 2 - only expressed on professional antigen presenting cells (APCs) such as dendritic cells, macrophages and B cells - they present the peptide antigen to CD4+ T cells

Question 132

What two signals do T cells require to become activated?

Answer 132

1. Antigen + MHC protein
2. B7 - peripheral membrane protein on APCs for co-stimulation, and CD28 - protein expressed on T cells that provides co-stimulatory signals for T cell activation (B7 and CD28 bind)

Question 133

What happens upon cell (T/B) activation?

Answer 133

Undergoes clonal expansion and differentiation into effector or memory cells

Question 134

Plasma cells are characterised by which physical feature?

Answer 134

Huge amounts of endoplasmic reticulum for protein (antibody) production

Question 135

How and why does antibody affinity for antigens vary over time after production?

Answer 135

Initially affinity of antibodies is low

After entering the germinal centre (secondary centre within B-cell area of lymph nodes) the plasma cells become long life plasma cells

They now excrete high affinity antibodies

Question 136

Antibodies are classified by the type of _______ chain they use

Answer 136

Heavy

Question 137

How many binding sites does IgM have?

Answer 137

10

Question 138

Which pathway for complement activation does IgM activate?

Answer 138

Classical

Question 139

How does IgM aid in the activation of the classical pathway of complement?

Answer 139

Upon binding to antigens of the pathogen surface it will undergo conformational change

This change provides a binding site for C1 the first component of the pathway

Question 140

As well as IgM which other antibody class can activate the classical complement activation pathway?

Answer 140

IgG

Question 141

What is the first antibody produced?

Answer 141

IgM

Question 142

What is the most abundant antibody?

Answer 142

IgG

Question 143

Which maternal antibody class will protect a growing foetus and why is this important?

Answer 143

IgG

The foetus does not have a fully developed immune system

Question 144

Describe how IgG antibodies make good opsonins and aid phagocytic cells and their detection of pathogens

Answer 144

Phagocytic cells express a Fc gamma receptor on their surface for the gamma heavy chain

This can make pathogens visible to neutrophils

Question 145

IgG antibodies are good activators of NK cells - why?

Answer 145

NK cells have receptors on their surface that interact with the gamma heavy chain of the IgG antibody

This interaction can instruct NK cells to destroy pathogens attached to IgG

Question 146

Where is IgD commonly found?

Answer 146

• On the surface of B cells
• In the circulatory system

Question 147

What is the role of IgD thought to be?

Answer 147

Recruitment of basophils into areas of inflammation

Question 148

What is the second most abundant antibody type?

Answer 148

IgA

Question 149

Secretory IgA is what form of IgA?

Answer 149

Dimeric form

Question 150

Secretory IgA is involved in which two main areas?

Answer 150

1. Neonatal defence - in breast milk
2. Neutralisation - at muscosal sites such as GI tract and in tears

Question 151

Which antibody class is involved in allergic responses?

Answer 151

IgE

Question 152

How does IgE trigger allergic responses?

Answer 152

Activates mast cells which then release pro-inflammatory mediators

Question 153

Why can mast cells and basophils be activated by IgE?

Answer 153

They have FcE receptrs for IgE on their surfaces

Question 154

Why does the level of antibodies remain elevated for an extended period of time after an encounter with a pathogen?

Answer 154

In case the body re-encounters this pathogen

Question 155

Cytokine environments can cause B cells to switch what?

Answer 155

Heavy chains

Based on the pathoehn experienced

Question 156

Which factors influence the type of helper T cell that differentiates from a CD4+ T cell?

Answer 156

Cytokines present that dendritic cells secrete

The cytokines released by dendritic cells is influeced by the type of PAMP, danger and inflammatory signals

Question 157

Effector T_H cells can stimulate which other immune cells?

Answer 157

• B cells (T_FH)
• Macrophages (T_H1)
• CD8+
• CD4+

Question 158

Antigen activated CD4+ T cells secrete what cytokine when they proliferate in reponse to the antigen and co-stimulation?

Answer 158

IL-2

Question 159

IL-2 can stimulate which type of immune cell to do what?

Answer 159

CD8+ to differentiate into cytotoxic T cells

Question 160

How do T_H1 cells enter inflamed tissue?

Answer 160

Trans-endothelial migration

Question 161

T_H1 cells will express what cytokine in inflamed tissue and what is its purpose?

Answer 161

Interferon gamma

(as well as other co-stimulatory molecules)

This is to induce expression of nitrous oxide synthase in the macropage allowing the pathogen to be destroyed

This is superactivation of macrophages - similar to how NK cells do this

Question 162

What is the full process of B cell activation involving T_FH cells?

Answer 162

• Initially B cells encounter opsonised antigen and become partially activated
• The antigen/antibody complex is internalised
• The antigen is presented by MHC class II on the surface
• T cells complex with the MHC class II/antigen complex which allows B cells to become fully activated

Question 163

How do T_FH cells stimulate B cells to clonally proliferate?

Answer 163

Via CD40L (on T_FH cell) and CD40 interactions

Effector T_FH cells secrete cytokines the further activate B cells and stimulate the germinal centre response

Question 164

What does the germinal response entail?

Answer 164

• B cell proliferation
• Antibody heavy chain switching
• Generation of high affinity antibodies
• Differentiation into plasma cells
• Differentiation into memory B cells

Question 165

What is the overall aim within the germinal centre and how is it brought about?

Answer 165

To produce high affinity antibodies by inducing mutations into heavy and light Ig chains

This is mediated by activation induced deaminase (AID) which can mutate antibodies

The downside to this is that it can cause lymphoma

Question 166

Cytotoxic T cells bind to what on infected cells?

Answer 166

MHC class I and the presenting antigen

Question 167

What do cytotoxic T cells do to infected cells?

Answer 167

Introduce pore-like structures causing osmotic lysis or by initiating apoptosis

They can express Fas ligand whcih results in the release of cytochrome c - a pro-apoptotic protein

Question 168

When there is no longer inflammation, what cytokine is released from macrophages?

Answer 168

IL-10

This stops the inflammatory respons eand initiates tissue repair