Immune Modulation

Question 1

What are ways of boosting the immune system?

Answer 1

Vaccination

Replacement of missing components

Blocking immune checkpoints

Cytokine therapy

Question 2

What are features of the adaptive immune response?

Answer 2

Wide repertoire of antigen receptors: Receptor repertoire is not entirely genetically encoded. Genes for segments of receptors are rearranged and nucleic acids deleted/added at the sites of rearrangement almost randomly. Potential to create in order of 1011 to 1012 receptors. Autoreactive cells are likely to be generated. Mechanisms must exist to delete or tolerise these autoreactive cells.

Exquisite specificity: Able to discriminate between very small differences in molecular structure.

Question 3

What are antigen presenting cells?

Answer 3

APCs are cells that can present peptides to T lymphocytes to initiate an acquired immune response.

These cells include:

• Dendritic cell
• Macrophage
• B lymphocyte

Question 4

What are types of osteoclasts?

Answer 4

Langerhans cells

Mesangial cells

Kupffer cells

Osteoclasts

Microglia

Question 5

What is clonal expansion after exposure to an antigen?

Answer 5

T cells with appropriate specificity will proliferate and differentiate into effector cells (cytokine secreting, cytotoxic).

B cells with appropriate specificity will proliferate and differentiate to T cell independent (IgM) (memory and) plasma cells undergo germinal centre reaction and differentiate to T cell dependent IgG/A/E(M) memory and plasma cells.

Plasma cells secrete high affinity specific antibodies.

Question 6

What is immunological memory?

Answer 6

Pre-formed pool of high affinity specific antibodies.

Residual pool of specific T and B cells with enhanced capacity to respond if re-infection occurs.

Question 7

What are features of T-cell memory?

Answer 7

Longevity: Memory T cells are maintained for a long time without antigen by continual low-level proliferation in response to cytokines.

Different pattern of expression of cell surface proteins involved in chemotaxis/cell adhesion: These allow memory cells to access non-lymphoid tissues, the sites of microbial entry.

Rapid, robust response to subsequent antigen exposure: There are more memory cells. These cells are more easily activated than naïve cells.

Question 8

What are features of B-cell memory?

Answer 8

Pre-formed antibody: Circulating high affinity IgG antibodies.

Longevity: Long lived memory B cells and plasma cells.

Rapid, robust response to subsequent antigen exposure: Memory B cells are more easily and rapidly activated than naïve cells.

Question 9

How do vaccines promote immunity against influenza?

Answer 9

For influenza although CD8 T cells control the virus load it is antibody which provides a protective response.

Hemagglutinin (HA) is the receptor-binding and membrane fusion glycoprotein of influenza virus and the target for infectivity-neutralizing antibodies.

There is a clear correlation between resistance to infection and levels of IgG antibody to haemagglutinin (HA).

Question 10

How is the BCG effective at mounting a protective response?

Answer 10

Attenuated, strain of bovine tuberculosis

Some protection against primary infection

Some protection against progression to active TB

T cell response is important in protection

Question 11

What is the test for immunity against TB?

Answer 11

Mantoux test

Inject 0.1 ml of 5 tuberculin units of liquid tuberculin intradermally. The tuberculin used in the Mantoux skin test is also known as purified protein derivative, or PPD.

The patient’s arm is examined 48 to 72 hours after the tuberculin is injected.

The reaction is an area of induration (swelling that can be felt) around the site of the injection.

Question 12

What are the different types of vaccines?

Answer 12

1. Live vaccines
2. Inactivated/Component vaccines
   (Conjugates + Adjuvants increase immunogenicity)
3. RNA vaccines
4. Adenoviral vector vaccines
5. Dendritic cell vaccines

Question 13

What are examples of live attenuated vaccines?

Answer 13

MMR

BCG

Yellow fever

Typhoid (oral)

Polio (Sabin oral)

Influenza (Fluenz tetra for children 2-17 years)

Question 14

What are advantages of live attenuated vaccinations?

Answer 14

Establishes infection: Ideally mild symptoms.

Raises broad immune response to multiple antigens: More likely to protect against different strains.

Activates all phases of immune system. T cells, B cells: With local IgA, humoral IgG.

May confer lifelong immunity, sometimes just after one dose.

Question 15

What are disadvantages of live attenuated vaccines?

Answer 15

Possible reversion to virulence (recombination, mutation): Vaccine associated paralytic poliomyelitis (VAPP, ca.1:750,000 recipients).

Spread to contacts: Spread to immunosuppressed/immunodeficient patients.

Storage problems.

Question 16

What are examples of inactivated viruses?

Answer 16

Influenza (inactivated quadrivalent)

Cholera

Bubonic plague

Polio (Salk)

Hepatitis A

Pertussis

Rabies

Question 17

What are examples of component/subunit vaccines?

Answer 17

Hepatitis B (HbS antigen)

HPV (capsid)

Influenza (recombinant quadrivalent - less commonly used)

Question 18

What are examples of toxoid (inactivated toxin) vaccines?

Answer 18

Diphtheria

Tetanus

Question 19

What are the advantages of inactivated/component vaccines?

Answer 19

No risk of reversion to virulent form

Can be used with immunodeficient patients

Storage easier

Lower cost

Question 20

What are the disadvantages of inactivated/component vaccines?

Answer 20

Often do not follow normal route of infection.

Some components have poor immunogenicity.

May need multiple injections.

May require modification to enhance immunogenicity.

• Conjugate to protein carrier
• Adjuvant

Question 21

What are conjugate vaccines made of?

Answer 21

Conjugate vaccines (often used in children)

Polysaccharide plus protein carrier.

Polysaccharide alone induces a T cell independent B cell response – transient.

Addition of protein carrier promotes T cell immunity which enhances the B cell/antibody response.

Question 22

What are examples of conjugate vaccines?

Answer 22

Haemophilus Influenzae B

Meningococcus

Pneumococcus (Prevenar)

(Remember NHS for polysaccharide encapsulated bacteria)

Question 23

What is an adjuvant to a vaccine?

Answer 23

Adjuvant increases the immune response without altering its specificity.

Mimic action of PAMPs (pathogen associated molecular patterns) on TLR (toll-like receptors) and other PRR (pattern recognition receptors).

Question 24

What are examples of adjuvants?

Answer 24

Aluminium salts (humans)

Lipids: Monophosphoryl lipid A (humans HPV)

Oils: Freund’s adjuvant (animals)

Question 25

What is an example of a mRNA vaccine?

Answer 25

SARS-CoV

Question 26

How are mRNA vaccines made?

Answer 26

Infect E coli with plasmids containing DNA for spike protein.

Harvest plasmids from the cultures.

Excise DNA and transcribe to mRNA.

Complex with lipids to create the vaccine.

Question 27

How do mRNA vaccines work?

Answer 27

Inject mRNA/lipid complexes:

• Non-infectious
• Non-integrating
• Degraded within days

mRNA enters cells (e.g. muscle cells, endothelial cells, fibroblasts, dendritic cells).

mRNA translated and spike protein synthesised/expressed on surface.

Stimulates immune response including B cells/antibodies and T cells.

Question 28

What are adenoviral vector vaccines?

Answer 28

DNA of relevant protein (Covid spike protein) inserted to viral vector to produce vaccine.

AZ Covid vaccine vector: ChAdOx1-S

Sputnik Covid vaccine vector: Adenovirus types 26 and 5

Infect cells in vivo

Transcription/translation to produce protein

Stimulates immune response including B cells/antibodies and T cells.

Question 29

What are dendritic cell vaccines?

Answer 29

Acquired defects in DC maturation and function associated with some malignancy suggests a rationale for using ex vivo–generated DC pulsed with tumour antigens as vaccines.

Focus on tumour associated antigens or mutational antigen.

Question 30

What is Sipuleucel-T Provenge vaccine?

Answer 30

Personalised immunotherapy for prostatic cancer.

Remove white cells from patient’s blood (leukaphoresis).

APCs are harvested and incubated with recombinant protein PAP-GMCSF (Prostatic acid phosphatase-granulocyte macrophage colony stimulating factor).

APCs infused back to patient.

Stimulates patient’s immune response.

Question 31

How can missing components of immune systems be replaced?

Answer 31

Haematopoietic stem cell transplantation - donor or autologous.

Antibody replacement

Question 32

What are indications for stem cell transplant?

Answer 32

Life-threatening primary immunodeficiencies:

• Severe combined immunodeficiency
• Leukocyte adhesion defect

Haematological malignancy:

• Offers potential for complete and permanent cure

Question 33

What is antibody replacement?

Answer 33

Human normal immunoglobulin prepared from pools of >1000 donors. Contains preformed IgG antibody to a wide range of unspecified organisms.

Blood product:

• Donors screened for Hep B, Hep C and HIV
• Further treated to kill any live virus

Administration

IV or SC

Question 34

What are indications for antibody replacement therapy?

Answer 34

Primary antibody deficiency:

• X linked agammaglobulinaemia
• X linked hyper IgM syndrome
• Common variable immune deficiency

Secondary antibody deficiency:

• Haematological malignancies
  
  • Chronic lymphocytic leukaemia
  • Multiple myeloma

Question 35

What is specific immunoglobulin modulation?

Answer 35

Human immunoglobulin used for post-exposure prophylaxis (passive immunisation).

Derived from plasma donors with high titres of IgG antibodies to specific pathogens.

Question 36

Which diseases can be modulated using specific immunoglobulins?

Answer 36

Hepatitis B immunoglobulin: Needle stick/bite/sexual contact – from HepBSag+ve individual.

Rabies immunoglobulin: To bite site following potential rabies exposure.

Varicella Zoster immunoglobulin: Women <20 weeks pregnancy or immunosuppressed where aciclovir or valaciclovir is contraindicated.

Tetanus immunoglobulin: No specific preparation available in UK – use IVIG for suspected tetanus.

Question 37

What are examples of adoptive cell transfer (T-cells)?

Answer 37

Virus specific T cells

Tumour infiltrating T cells (TIL – T cell therapy)

T cell receptor T cells (TCR - T cell therapy)

Chimeric antigen receptor T cells (CAR – T cell therapy)

Question 38

What are indications for virus specific T-cell therapy?

Answer 38

EBV related B cell lymphoproliferative disease

Severe persistent viral infection in immunocompromised

Question 39

What are indications for chimeric antigen receptor T-cell therapy?

Answer 39

Acute lymphoblastic leukaemia

Non-Hodgkin lymphoma

CAR T cells less successful in solid tumours

Question 40

How does chimeric antigen receptor T cell therapy work?

Answer 40

T-cells with chimeric receptors targeting CD19:

• Patient’s own T cells
• Genetically engineered to express receptor
• Expanded in vitro

Used for acute lymphoblastic leukaemia in children.

Used for some forms of non-Hodgkin lymphoma.

Question 41

What is ipilimumab and how does it function?

Answer 41

Action:

• Antibody binds to CTLA4
• Blocks immune checkpoint
• Allows T cell activation

Indications: Advanced melanoma

Complications: Autoimmunity

Question 42

What are Pembrolizumab and Nivolumab and how do they function?

Answer 42

Action:

• Antibody binds to PD-1
• Blocks immune checkpoint
• Allows T cell activation

Indications and dosing:

• Advanced melanoma
• Metastatic renal cell cancer

Complications: Autoimmunity

Question 43

What are the clinical uses of recombinant cytokines?

Answer 43

Aim: Modify immune response

Examples:

• Interleukin 2 – Stimulate T cell response:
  Renal cell cancer
• Interferon alpha 2a – Immunomodulatory effect: Behcet’s
• Interferon alpha – Antiviral effect:
  
  • Hepatitis B
  • Hepatitis C (with ribavirin)
• Interferon gamma – Enhance macrophage function: Chronic granulomatous disease.

Question 44

The purpose of vaccination is to stimulate and enhance immunological memory. Which type of cells mediate immunological memory?

A. Neutrophils

B. B and T lymphocytes

C. Platelets

D. Eosinophils

E. Macrophages

Answer 44

B. B and T lymphocytes

Question 45

Which of the following vaccines should NOT be given to an immunosuppressed individual?

A. BCG - bacilli Calmette-Guerin

B. Diphtheria toxoid

C. Quadrivalent inactivated influenza vaccine

D. Polio (Salk – injected)

E. Pfizer Covid mRNA vaccine

Answer 45

A. BCG - bacilli Calmette-Guerin

Question 46

A 23 year old has metastatic melanoma. Which of the following may reduce disease progression?

A. BCG vaccination

B. Bone marrow transplantation

C. CAR-T cells with specificity for CD19

D. Nivolumab, an antibody specific for PD-1

E. Normal human immunoglobulin

Answer 46

D. Nivolumab, an antibody specific for PD-1

Question 47

What are methods of suppressing the immune system?

Answer 47

• Steroids
• Anti-proliferative agents
• Plasmapheresis
• Inhibitors of cell signalling
• Agents directed at cell surface antigens
• Agents directed at cytokines and their receptors

Question 48

What is the effect of corticosteroids on prostaglandins?

Answer 48

Phospholipase A2: Breaks down phospholipids to form arachidonic acid which is converted to eicosanoids (e.g. prostaglandins, leukotrienes) by cyclo-oxygenases.

Corticosteroids inhibit phospholipase A2: Blocks arachidonic acid and prostaglandin formation and so reduces inflammation.

Question 49

What is the effect of corticosteroids on phagocytosis?

Answer 49

Decreased traffic of phagocytes to inflamed tissue.

Decreased expression of adhesion molecules on endothelium.

Blocks the signals that tell immune cells to move from bloodstream and into tissues. Results in transient increase in neutrophil counts.

Decreased phagocytosis.

Decreased release of proteolytic enzymes.

Question 50

What is the effect of corticosteroids on lymphocyte function?

Answer 50

Lymphopenia

Sequestration of lymphocytes in lymphoid tissue: Affects CD4+ T cells > CD8+ T cells > B cells

Blocks cytokine gene expression.

Decreased antibody production.

Promotes apoptosis.

Question 51

What are side effects of corticosteroids?

Answer 51

Metabolic effects: Diabetes, central obesity, moon face, lipid abnormalities, osteoporosis, hirsuitism, adrenal suppression.

Other effects: Cataracts, glaucoma, peptic ulceration, pancreatitis, avascular necrosis.

Immunosuppression: Infection.

Question 52

What are anti-proliferative immunosuppressants?

Answer 52

Cytotoxic agents.

Drugs (selected):

• Cyclophosphamide
• Mycophenolate
• Azathioprine

Action:

• Inhibit DNA synthesis
• Cells with rapid turnover most sensitive

Toxicity:

• Bone marrow suppression
• Infection
• Malignancy
• Teratogenic

Question 53

What are the side effects of cyclophosphamide?

Answer 53

Toxic to proliferating cells:

• Bone marrow depression
• Hair loss
• Sterility (male>>female)

Haemorrhagic cystitis:

• Toxic metabolite acrolein excreted via urine

Malignancy:

• Bladder cancer
• Haematological malignancies
• Non-melanoma skin cancer

Infection: Pneumocystis jiroveci

Question 54

What are side effects of azathioprine?

Answer 54

Bone marrow suppression:

Cells with rapid turnover (leucocytes and platelets) are particularly sensitive. 1:300 individuals are extremely susceptible to bone marrow suppression.

• Thiopurine methyltransferase (TPMT) polymorphisms.
• Unable to metabolise azathioprine.
• Check TPMT activity or gene variants before treatment if possible; always check full blood count after starting therapy.

Hepatotoxicity: Idiosyncratic and uncommon.

Infection: Serious infection less common than with cyclophosphamide.

Question 55

What are the side effects of mycophenolate mofetil?

Answer 55

Bone marrow suppression:

Cells with rapid turnover (leucocytes and platelets) are particularly sensitive.

Infection:

• Particular risk of herpes virus reactivation
• Progressive multifocal leukoencephalopathy (JC virus)

Question 56

What is plasmapheresis and plasma exchange?

Answer 56

Aim: Removal of pathogenic antibody.

Patient’s blood passed through cell separator. Own cellular constituents reinfused. Plasma treated to remove immunoglobulins and then reinfused (or replaced with albumin in ‘plasma exchange’).

Question 57

What are disadvantages of plasmapheresis?

Answer 57

Rebound antibody production limits efficacy, therefore usually given with anti-proliferative agent.

Question 58

What are indications for plasmapheresis?

Answer 58

Severe antibody-mediated disease:

• Goodpasture syndrome: Anti-glomerular basement membrane antibodies.
• Severe acute myasthenia gravis: Anti-acetyl choline receptor antibodies.
• Antibody mediated transplant rejection/ABO incompatible: Antibodies directed at donor HLA/AB molecules.

Question 59

What are calcineurin inhibitors?

Answer 59

Inhibit T cell proliferation/function.

Used in:

• Transplantation
• SLE
• Psoriatic arthritis

Question 60

What are mTOR inhibitors?

Answer 60

Mechanistic Target of Rapamycin.

Inhibit T cell proliferation and function.

Used in: Transplantation.

Question 61

What are Jak inhibitors (Jaknibs)?

Answer 61

Inhibit JAK-STAT signalling (associated with cytokine receptors). Influences gene transcription.

Inhibits production of inflammatory molecules. Effective in Rheumatoid arthritis, psoriatic arthritis, axial spondyloarthritis.

Question 62

What is Apremilast?

Answer 62

PDE4 inhibitor

Inhibition of PDE4 leads to increase in cAMP.

Influences gene transcription via protein kinase A pathway.

Modulates cytokine production.

Effective in psoriasis and psoriatic arthritis.

Question 63

What are agents directed at cell surface antigens?

Answer 63

Drugs:

• Rabbit anti-thymocyte globulin
• Basiliximab – anti-CD25
• Abatacept – CTLA4-Ig
• Rituximab – anti-CD20
• Vedolizumab – anti-a4b7 integrin

Actions include:

• Block signalling
• Cell depletion
• Inhibit migration

Question 64

What is anti-thymocyte globulin?

Answer 64

Indications and dosing:

• Allograft rejection (renal, heart)
• Daily intravenous infusion

Action – multiple modes:

• Lymphocyte depletion
• Modulation of T cell activation
• Modulation of T cell migration

Toxicity:

• Infusion reactions
• Leukopenia
• Infection
• Malignancy

Question 65

What is Basiliximab?

Answer 65

Antibody directed at CD25 (IL-2Ra chain).

Indications and dosing:

• Prophylaxis of allograft rejection.
• Intravenous given before and after transplant surgery.

Action: Blocks IL-2 induced signalling and inhibits T cell proliferation.

Toxicity:

• Infusion reactions
• Infection
• Concern re: long term risk malignancy.

Question 66

What is Abatacept?

Answer 66

CTLA4–Ig fusion protein

Indications and dosing:

Rheumatoid arthritis: Intravenous 4 weekly; Subcutaneous weekly.

Action: Reduces costimulation of T cells via CD28.

Toxicity:

• Infusion reactions
• Infection (TB, HBV, HCV)
• Caution wrt malignancy

Question 67

What is Rituximab?

Answer 67

anti-CD-20 antibody

Indications and dose:

• Lymphoma
• Rheumatoid arthritis
• SLE
• 2 doses intravenous every 6-12 months (RA)

Action: Depletes mature B cells.

Toxicity:

• Infusion reactions
• Infection (PML)
• Exacerbation CV disease

Question 68

What is Vedolizumab?

Answer 68

Antibody specific for a4b7 integrin.

Indications and dosing:

• Inflammatory bowel disease.
• Intravenous every 8 weeks

Action: Inhibits leukocyte migration.

Toxicity:

• Infusion reactions
• Hepatotoxic
• Infection (? PML)
• Concern re malignancy

Question 69

What is TNF-alpha?

Answer 69

TNFa is a pivotal cytokine in inflammation in many conditions.

TNFa blockade used in:

• Rheumatoid arthritis
• Psoriasis and psoriatic arthritis
• Inflammatory bowel disease
• Familial Mediterranean fever

Question 70

What are anti-TNF-alpha antibodies?

Answer 70

Infliximab

Adalimumab

Certolizumab

Golimumab

Question 71

When are anti-TNF-alpha antibodies used for?

Answer 71

Indications and dosing:

• Rheumatoid arthritis
• Ankylosing spondylitis
• Psoriasis and psoriatic arthritis
• Inflammatory bowel disease
• Subcutaneous or intravenous

Action: Inhibit TNFa

Toxicity:

• Infusion or injection site reactions
• Infection (TB, HBV, HCV)
• Lupus-like conditions
• Demyelination
• Malignancy

Question 72

What is Etanercept?

Answer 72

TNF-alpha antagonist

Indications and dosing:

• Rheumatoid arthritis
• Ankylosing spondylitis
• Psoriasis and psoriatic arthritis
• Subcutaneous weekly

Action: Inhibits TNFa and TNFb.

Toxicity:

• Injection site reactions
• Infection (TB, HBV, HCV)
• Lupus-like conditions
• Demyelination
• Malignancy

Question 73

What is IL-1?

Answer 73

IL-1 secretion driven via the inflammasome.

IL-1 blockade may be used in Familial Mediterranean Fever, Gout, Adult Onset Stills Disease.

Question 74

What is IL-6?

Answer 74

IL-6 plays an important role in inflammation in rheumatoid arthritis.

IL-6 blockade using an anti-IL6 receptor antibody is effective in management of rheumatoid arthritis.

Question 75

What are Tocilizumab and Sarilumab?

Answer 75

Antibodies directed at IL-6 receptor.

Indications and dosing:

• Castleman’s disease
• Rheumatoid arthritis
• Subcutaneous every 1-2 weeks

Action: Reduces macrophage, T cell, B cell, neutrophil activation.

Toxicity:

• Infusion reactions
• Infection
• Hepatotoxic
• Elevated lipids
• Caution wrt malignancy

Question 76

What are IL-23 and IL-17?

Answer 76

IL23 – IL17 pathway important in spondyloarthritides and related conditions.

• Axial spondyloarthritis (AS)
• Psoriasis and psoriatic arthritis
• Inflammatory bowel disease (not anti-IL17 for IBD)

Question 77

What is Guselkumab?

Answer 77

Ab vs p19 (alpha) subunit of IL23.

IL-23: IL-23 comprises p40+p19

Indications and dosing: Psoriasis, psoriatic arthritis; Subcutaneous every 8 weeks.

Action: Inhibits IL-23

Toxicity:

• Injection site reactions
• Infection (TB)
• Concern re malignancy

Question 78

What are IL-4, IL-5 and IL13?

Answer 78

IL-4, IL-5 and IL-13 are key cytokines in Th2 and eosinophil responses.

IL-4/13 blockade using an antibody specific for the IL4 receptor alpha subunit may be used for eczema and asthma.

Anti-IL13 antibody may be used for management of eczema.

Anti-IL5 antibody is used for eosinophilic asthma.

Question 79

What are RANK and RANK-ligand?

Answer 79

RANK ligand/RANK receptor pathway important in driving osteoclast differentiation and function.

Anti-RANK ligand antibody is used in management of osteoporosis.

Question 80

What is Denosumab?

Answer 80

Antibody directed at RANK ligand.

Indications and dosing: Osteoporosis; Subcutaneous every 6 months.

Action: Inhibits RANK mediated osteoclast differentiation and function.

Toxicity:

• Injection site reactions
• Infection – mildly immunosuppressive
• Avascular necrosis of jaw

Question 81

What are side-effects of biologic agents?

Answer 81

Infusion reactions:

• Urticaria, hypotension, tachycardia, wheeze – IgE mediated.
• Headaches, fevers, myalgias – not classical type I hypersensitivity.

Injection site reactions:

• Peak reaction at ~48 hours
• May also occur at previous injection sites (recall reactions)
• Mixed cellular infiltrates, often with CD8 T cells
• Not generally IgE or immune complexes

Question 82

What is the association between acute infection and immunosuppression?

Answer 82

• Risk often > 2 x background
• Avoid contact/wash hands etc
• Vaccination (avoid live vaccines)
• Temporarily stop immunosuppression in case of infection
• Consider atypical organisms
• Appropriate antibiotics

Question 83

What is the association between chronic infections and immunosuppression?

Answer 83

Tuberculosis:

• History, Residence, Travel, Contacts, CXR, TB Elispot
• Prophylaxis or treatment if required

HBV and HCV:

• Check Hep B core antibody pre-treatment
• Check Hep C antibody pre-treatment
• Further investigate for active virus infection if serology is positive

HIV:

• Check HIV serology pre-treatment
• Balance benefits against possible risks

Question 84

What is the association between JC Virus and immunosupression?

Answer 84

Common polyomavirus that can reactivate

Infects and destroys oligodendrocytes

Progressive multifocal leukoencephalopathy

Associated with use of multiple immunosuppressive agents

Question 85

What is the association between immunosupression and malignancy?

Answer 85

• Lymphoma (EBV)
• Non melanoma skin cancers (Human papilloma virus)
• ?Melanoma

Risks appear lower with targeted forms of immunosuppression than with regimes used in transplantation.

Question 86

What is the association between autoimmunity and immunosuppression?

Answer 86

• SLE and lupus-like syndromes
• Anti-phospholipid syndromes
• Vasculitis
• Interstitial lung disease
• Sarcoidosis
• Uveitis
• Autoimmune hepatitis
• Demyelination

Question 87

A young woman with SLE is found to have osteoporosis. She has experienced weight gain and easy bruising and has a high blood glucose. Which drug is likely to have caused these effects?

A. Azathioprine

B. Anti-CD20 (rituximab)

C. Mycophenolate mofetil

D. Prednisolone

E. Anti-TNF alpha

Answer 87

D. Prednisolone

Question 88

Rituximab is a monoclonal antibody specific for CD20 on B cells. It depletes B cells. For which one of the following diseases is it effective treatment?

A. Ankylosing spondylitis

B. Malignant melanoma

C. Multiple sclerosis

D. Osteoporosis

E. Rheumatoid arthritis

Answer 88

E. Rheumatoid arthritis

Question 89

Which of the following are true about management of psoriasis and psoriatic arthritis?

A. It responds to inhibition of RANK ligand (denosumab).

B. It responds to CAR-T cells.

C. Treatment options include IL6 blockade or B cell depletion with rituximab.

D. Treatment options include inhibition of TNF alpha, IL23 or IL17A or use of a PD4 blocker or ciclosporin.

E. Treatment options include use of a checkpoint inhibitor such as nivolumab.

Answer 89

D. Treatment options include inhibition of TNF alpha, IL23 or IL17A or use of a PD4 blocker or ciclosporin.