Immunomodulation

Question 1

What is the definition of immunomodulation?

Answer 1

The act of manipulating the immune system using immunomodulatory drugs to achieve a desired immune response

Question 2

What may the therapeutic effects of immunomodulation lead to?

Answer 2

Immunopotentiation, immunosuppression or induction of immunological tolerance

it is used to turn down a part of the immune system that is causing harm, or to potentiate part of the immune system

Question 3

What is the definition of biologic immunomodulators?

Answer 3

Medicinal products produced using molecular biology techniques including recombinant DNA technology

these complex molecules are similar/the same as proteins in the body

Question 4

What are the main classes of biologic immunomodulators?

Answer 4

• Substances that are (nearly) identical to the body’s own key signalling proteins
• monoclonal antibodies
• fusion proteins

Question 5

What are the differences in these anti-TNF drugs?

Answer 5

The immune system is more likely to react if there is a foreign murine component to the molecule

Adalimumab is a fully human monoclonal antibody so is less likely to cause an immune response

Etanercept is a fusion protein

Question 6

What is meant by a “chimeric molecule”?

Answer 6

A chimeric molecule has a component that is from an animal origin

Question 7

What are the 3 methods of immunopotentiation?

Answer 7

1. Immunisation (active or passive)
2. Replacement therapies
3. Immune stimulants

Question 8

What is the definition of passive immunisation?

Answer 8

The transfer of specific, high-titre antibody from a donor to a recipient

this provides immediate but transient protection

Question 9

What are the types of passive immunisation?

What are the problems associated with this mechanism?

Answer 9

Types:

• pooled specific human immunoglobulin
• animal sera (containing antitoxins and antivenins)

Problems:

• risk of virus transmission
• serum sickness - type III hypersensitivity reaction

Question 10

What are the uses of passive immunisation?

Answer 10

1. Hepatitis B prophylaxis and treatment
2. Botulism
3. VZV in pregnancy
4. Diptheria
5. Snake bites

Question 11

What is the definition of an active immunisation?

Answer 11

To stimulate the development of a protective immune response and immunological memory

this generates long lasting immune responses that provide long term protection

Question 12

What immunological material can be used in an active immunisation?

Answer 12

• Weakened forms of pathogens
• killed inactivated pathogens
• purified materials (proteins, DNA)
• adjuvants

adjuvants are added to direct immune responses in certain directions

Question 13

What are the problems associated with active immunisation?

Answer 13

1. Allergy to any vaccine component
2. Limited usefulness in immunocompromised patients
3. There is a delay in achieving protection

Question 14

What 4 methods are used in replacement therapies/immune stimulation?

Answer 14

1. Pooled human immunoglobulin (IV or SC)
2. G-CSF / GM-CSF
3. Alpha-interferon
4. Y-interferon

Question 15

When is pooled human immunoglobulin used as a replacement therapy?

Answer 15

In patients with a diagnosis of antibody deficiency states

immunoglobulins are taken out of the serum of the donor

Question 16

When is G-CSF / GM-CSF used?

Answer 16

Neutropenia

it acts on the bone marrow to increase the production of mature neutrophils

Question 17

When are a-interferon and y-interferon used?

Answer 17

Alpha interferon:

• used in treatment of Hep C

y-interferon:

• used in treatment of intracellular infections (atypical mycobacteria)
• used in chronic granulomatous disease
• used in IL-12 deficiency

Question 18

What are the 5 types of immunosuppressants?

Answer 18

1. Corticosteroids
2. Cytotoxic agents
3. Anti-proliferative/activation agents
4. DMARDs
5. Biological DMARDs

Question 19

When to corticosteroids tend to be used in treatment?

Answer 19

They are used to reduce the inflammatory response quickly

they affect all functions of the immune system so it is hard to target the use of steroids

they limit unintended damage during acute infection

Question 20

What are the 6 actions of corticosteroids?

Answer 20

• Decreased neutrophil margination
• reduced production of inflammatory cytokines
• inhibition of phospholipase A2 - reduced arachidonic acid metabolites production
• lymphopenia
• decreased T cell proliferation
• reduced immunoglobulin production

Question 21

What are the 5 main side effects of corticosteroids?

Answer 21

• Carbohydrate and lipid metabolism problems leading to diabetes and hyperlipidaemia
• reduced protein synthesis leading to poor wound healing
• osteoporosis
• glaucoma and cataracts
• psychiatric complications

Question 22

In which conditions do corticosteroids tend to be used?

Answer 22

Autoimmune diseases:

• CTD
• vasculitis
• rheumatoid arthritis

inflammatory diseases:

• Crohn’s disease
• sarcoid
• GCA/polymyalgia rheumatica

malignancies:

• lymphoma

allograft rejection

Question 23

Why are corticosteroids not used for long term therapy?

Answer 23

They are used to achieve a quick and profound immune response

other agents are used to maintain the immunosuppression after the corticosteroids have been administered

this is due to the side effects

Question 24

Why are costimulatory molecules important in the immune response?

Which cytokine is secreted by T cells allowing for more activation?

Answer 24

Costimulatory molecules allow T cells to be fully stimulated

IL12 is secreted by T cells, which allows T cells to continue with the program of activation

Question 25

What are the T cell costimulatory molecules?

Which drugs can be used at each stage?

Answer 25

Question 26

What are the 4 categories of drugs used to target lymphocytes?

Answer 26

Antimetabolites:

• azathioprine (AZA)
• mycophenolate mofetil (MMF)

calcineurin inhibitors:

• cyclosporin a (CyA)
• tacrolimus

M-TOR inhibitors:

• sirolimus

IL-2 receptors mABs:

• basiliximab
• daclizumab

Question 27

What is the difference in the way ciclosporin a and tacrolimus work?

Answer 27

CyA binds to intracellular protein cyclophilin

tacrolimus binds to intracellular protein FKBP-12

Question 28

What is the mode of action of calcineurin inhibitors?

Answer 28

• They prevent activation of NFAT
• these are factors which stimulate cytokines (IL-2 and INFy)
• this prevents T cell activation

Question 29

What are the T cell effects of calcineurin inhibitors?

Answer 29

There is reversible inhibition of T-cell activation, proliferation and clonal expansion

As the T cells are not killed, if the drugs are removed the immune system can be reactivated

Question 30

What type of antibiotic is sirolimus (rapamycin)?

Answer 30

Macrolide antibiotic

it also binds to FKBP12 but has different effects

it inhibits the mammalian target of rapamycin (mTOR)

Question 31

How does sirolimus work?

Answer 31

It inhibits the response to IL-2

this means that T cells are only partially activated and arrest at G1-S phase

they cannot achieve any further division and proliferation

Question 32

What are the side effects associated with calcineurin/mTOR drugs?

Answer 32

• Hypertension
• hirsutism
• nephrotoxicity
• hepatotoxicity
• lymphomas
• opportunistic infections
• neurotoxicity
• multiple drug interactions - they induce P450

Question 33

What can make someone more likely to suffer the side effects of calcineurin/mTOR drugs?

Answer 33

You are more likely to experience the side effects if the drugs are used for long term phases

modulate the amount of immunosuppression to try and reduce the risk of side effects

Question 34

What are the clinical uses of calcineurin inhibitors/mTOR drugs?

Answer 34

1. Transplantation - allograft rejection
2. Autoimmune diseases

Question 35

How do antimetabolites work?

Answer 35

They inhibit nucleotide (purine) synthesis

by preventing nucleotide incorporation within DNA, T cells cannot multiply as they are unable to replicate their DNA

Question 36

What are the 2 types of antimetabolites drugs and how do they work?

Answer 36

Azathioprine:

• this is a guanine anti-metabolite
• it is rapidly converted into 6-mercaptopurine

mycophenolate mofetil (MMF):

• this prevents production of guanosine triphosphate

Question 37

What are the effects of antimetabolites on T and B cells?

Answer 37

Impaired DNA production prevents the early stages of activated cells proliferation

they work better in autoreactive T and B cells as these drugs target rapidly dividing cells

Question 38

What are 2 other antimetabolites and cytotoxic drugs and how do they work?

Answer 38

Methotrexate:

• this is a folate antagonist
• folate is needed for DNA synthesis

cyclophosphamide:

• this will cross-link DNA
• it is used in the treatment of autoimmune diseases and cancer as it targets rapidly dividing cells

Question 39

What are the side effects of cytotoxic drugs?

Answer 39

All cytotoxic drugs:

• bone marrow suppression
• gastric upset
• hepatitis
• susceptibility to infections

cyclophosphamide:

• cystitis

methotrexate:

• pneumonitis

Question 40

Why is the bone marrow suppressed in cytotoxic drug use?

What can this lead to?

Answer 40

The drugs target rapidly dividing tissues in the body with a high turnover of cells

this can lead to neutropenia, thrombocytopenia and anaemia

Question 41

What are the clinical uses of cytotoxic drugs?

Answer 41

Azathioprine / MMF:

• autoimmune diseases - SLE, vasculitis, IBD
• allograft rejection

methotrexate:

• rheumatoid arthritis, PsA, polymyositis, vasculitis

cyclophosphamide:

• vasculitis (Wagner’s, CSS)
• SLE

Question 42

what are the different categories of biologics?

Answer 42

1. Anticytokines - TNF, IL-6 and IL-1
2. Anti-B cell therapies
3. Anti-T cell activation
4. Anti-adhesion molecules
5. Complement inhibitors
6. Check point inhibitors

Question 43

What are the benefits of using biologics?

Answer 43

They have much wider immunosuppression effects

You can pinpoint which part of the immune system needs to be targeted

Question 44

Why are steroids not used in long term treatment of rheumatoid arthritis?

Answer 44

Steroids are effective for a period of time, but become less effective over time

they work to downregulate most of the pathways involved in RA

Question 45

Answer 45

Question 46

In which conditions is anti-TNF used?

What risk is associated with this?

Answer 46

They are used in rheumatoid arthritis and other inflammatory conditions

Crohn’s, psoriasis, ankylosis spondylitis

they increase the risk of TB

Question 47

How does anti IL-6 (tocilizumab) work?

What conditions is it used in and what risks are associated?

Answer 47

It blocks the IL-6 receptor

it is used in therapy of rheumatoid arthritis and AOSD

it may cause problems with control of serum lipids

Question 48

In which conditions is anti IL-1 used?

Answer 48

Used in treatment of AOSD and autoinflammatory syndromes

Question 49

How does Rituximab work?

What conditions is it used in?

Answer 49

It is a chimeric monoclonal antibody against CD20 on B cell surface

it is used to treat:

1. Lymphomas and leukaemias
2. Transplant rejection
3. Autoimmune disorders

Question 50

How does Rituximab work?

Answer 50

It binds to the surface of B cells with CD20, but leaves the others intact

all the cells in the periphery will be expressing CD20

it wipes out the population of B cells

it does not affect the pre and pro B cells in the bone marrow

the B cells are then repopulated with a non-aggressive B cell population

Question 51

What is meant by adoptive immunotherapy?

Answer 51

• Bone marrow transplant (BMT)
• stem cell transplant (SCT)

Question 52

What are the uses of adoptive immunotherapy?

Answer 52

1. Immunodeficiencies - SCID
2. Lymphomas and leukaemias
3. Inherited metabolic disorders (osteopetrosis)
4. Autoimmune diseases

Question 53

How do checkpoint inhibitors work?

Answer 53

Through interfering with the CD80/86 reaction

antigen presentation without costimulation means that most T cells become anergic

Question 54

What therapies are shown here and how do they work?

Answer 54

Artificial CTLA antibodies cause T cells to start expressing PD1

after interacting with surrounding tissue, these T cells are deactivated

adding CTLA 4 antibody pushes all the T cells into activation

using anti-PDL1 takes the brakes off the immune system, leading to effective tumour recognition and killing

Question 55

What are the 4 ways in which immunomodulators can be used in allergy?

Answer 55

1. Immune suppressants
2. Allergen specific immunotherapy
3. Anti-IgE monoclonal therapy
4. Anti IL-5 monoclonal treatment

Question 56

What are the indications for allergen specific immunotherapy?

Answer 56

1. Allergic rhinoconjunctivitis not controlled on maximum medical therapy
2. Anaphylaxis to insect venoms

it involves the induction of tolerance through treatment with the allergen

Question 57

By which mechanisms does allergen specific immunotherapy work for?

Answer 57

It switches the immune response from Th2 (allergic) to Th1 (non-allergic)

it leads to the development of T reg cells and tolerance

these will dampen down the immune response

Question 58

Which routes can allergen specific immunotherapy be administered by?

Answer 58

Subcutaneous or sublingual for aeroallergens

Question 59

What are the side effects of allergen specific immunotherapy?

Answer 59

Localised and systemic allergic reactions

Question 60

What type of drug is Omalizumab?

When is it used and what are the risks?

Answer 60

• It is a monoclonal antibody against IgE
• it is used in asthma, chronic urticaria and angioedema
• it may cause severe systemic anaphylaxis

Question 61

What type of drug is Mepolizumab?

When is it used and what are the risks?

Answer 61

• It is a monoclonal antibody against IL-5
• it prevents eosinophils recruitment and activation
• it is used in treatment of asthma
• it has no clinical efficacy in hypereosinophilic syndrome