Autoimmune and Autoinflammatory Disease 1

Question 1

What triggers a) fevers/malaise seen in primary EBV and b) abscess formation and what is the immune response?

Answer 1

Pathogens

Adaptive immune response: Cytokines

Innate immune response: Neutrophils

Question 2

What triggers a) sacroiliac joint inflammation in an individual with axial spondyloarthritis and b) anaemia due to red cell haemolysis secondary to anti-red cell antibodies?

Answer 2

No obvious pathogen

a) Innate immune response: Cytokines

b) Adaptive immune response: Antibodies

Question 3

In the absence of a pathogen, what immunopathology do the following cause?

a) Innate immune response
b) Mixed Innate/Adaptive
c) Adaptive immune response

Answer 3

a) Auto-inflammatory

b) Mixed

c) Auto-immune

Question 4

What is the pathophysiology of auto-inflammatory diseases?

Answer 4

Local factors at sites predisposed to disease lead to activation of innate immune cells such as macrophages and neutrophils, with resulting tissue damage.

Question 5

What is the pathophysiology of auto-immune disease?

Answer 5

Aberrant T cell and B cell responses in primary and secondary lymphoid organs lead to breaking of tolerance with development of immune reactivity towards self-antigens.

Organ-specific antibodies may predate clinical disease by years.

Adaptive immune response plays the predominant role in clinical expression of disease.

Question 6

Are the following polygenic or monogenic?

a) Innate immune response

b) Mixed Innate/Adaptive

c) Adaptive immune response

Answer 6

a) Polygenic and monogenic

b) Polygenic

c) Polygenic and monogenic

Question 7

What is a germline mutation affecting DNA synthesis?

Answer 7

Alteration in DNA that occurs in germ cells (sperm and ova and progenitors) and will be passed on to offspring.

Question 8

What is a somatic mutation affecting DNA synthesis?

Answer 8

Alteration in DNA that occurs in a single body cell after conception, does not affect germ cells and so is not inherited.

Question 9

What are epigenetics?

Answer 9

(Heritable) Change in gene expression e.g. via DNA methylation.

Question 10

What is microRNA (miRNA)?

Answer 10

Small, non-coding, single stranded RNA.

Targets mRNA and regulate protein production.

Question 11

What are rare monogenic auto-inflammatory diseases?

Answer 11

Familial mediterranean fever

TRAPS

Question 12

What are polygenic auto-inflammatory diseases?

Answer 12

Crohn’s disease

Ulcerative colitis

Osteoarthritis

Giant cell arteritis

Takayasu’s arteritis

Question 13

What are mixed pattern diseases?

Answer 13

Axial spondyloarthritis

Psoriatic arthritis

Behcet’s syndrome

Question 14

What are polygenic auto-immune diseases?

Answer 14

Rheumatoid arthritis

Systemic lupus erythematosus

Myaesthenia Gravis

Primary biliary cirrhosis

Pernicious anaemia

ANCA associated vasculitis

Graves disease

Goodpasture disease

Question 15

What are the rare monogenic auto-immune diseases?

Answer 15

APS-1, APECED

ALPS

IPEX

Question 16

What is the pathophysiology of monogenic auto-inflammatory disease?

Answer 16

Mutations in a gene encoding a protein involved in a pathway associated with innate immune cell function.

Abnormal signalling via key cytokine pathways involving TNF-alpha and/or IL-1 is common.

Question 17

What are signs and symptoms of monogenic auto-inflammatory disease?

Answer 17

Periodic fevers

Skin/joint/serosal/CNS inflammation

High CRP

Question 18

What is Muckle-Wells Syndrome (MWS)?

Answer 18

Monogenic auto-inflammatory disease

Gene: NLRP3, Gain of function

Protein: NALP3, Cryopyrin

Pattern of inheritence: AD

Question 19

What is Familial-Mediterranean Fever (FMF)?

Answer 19

Monogenic auto-inflammatory disease

Gene: MEFV

Protein: Pyrin-Marenostrin

Pattern of inheritence: AR

Question 20

What is TNF receptor associated periodic syndrome (TRAPS)?

Answer 20

Monogenic auto-inflammatory disease

Gene: TNFRSF1

Protein: TNF receptor

Pattern of inheritence: AD

Question 21

What is Hyper-IgD with periodic fever syndrome (HIDS)?

Answer 21

Monogenic auto-inflammatory disease

Gene: MK

Protein: Mevalonate kinase

Pattern of inheritence: AR

Question 22

What is the pathogenesis of Familial Mediterranean Fever?

Answer 22

Pathogenesis

Autosomal recessive condition

Mutation in MEFV gene

MEFV gene encodes pyrin-marenostrin

Pyrin-marenostrin expressed mainly in neutrophils

Failure to regulate cryopyrin driven activation of neutrophils

Question 23

What is the clinical presentation of Familial Mediterranean Fever?

Answer 23

Periodic fevers lasting 48-96 hours associated with:

Abdominal pain due to peritonitis

Chest pain due to pleurisy and pericarditis

Arthritis

Rash

Question 24

What are the complications associated with Familial Mediterranean Fever?

Answer 24

AA amyloidosis

• Liver produces serum amyloid A as acute phase protein.
• Serum amyloid A deposits in kidneys, liver, spleen.
• Deposition in kidney often most clinically important
• Proteinuria: Nephrotic syndrome
• Renal failure

Question 25

What are investigations for Familial Mediterranean Fever?

Answer 25

High CRP, high SAA

Blood sample to specialist genetics laboratory to identify MEFV mutation

Question 26

What is the treatment for Familial Mediterranean Fever?

Answer 26

Colchicine 500ug bd: Binds to tubulin in neutrophils and disrupts neutrophil functions including migration and chemokine secretion.

IL-1 blocker (anakinra, canukinumab).

TNF alpha blocker.

Question 27

What is the pathophysiology of monogenic auto-immune disease?

Answer 27

Mutation in a gene encoding a protein involved in a pathway associated with adaptive immune cell function.

Abnormality of regulatory T cells: IPEX

Abnormality of lymphocyte apoptosis: ALPS

Question 28

What is the pathophysiology of Immune dysregulation, polyendocrinopathy, enteropathy X-linked syndrome (IPEX)?

Answer 28

Mutations in Foxp3 (Forkhead box p3) which is required for development of Treg cells.

Failure to negatively regulate T cell responses.

Autoreactive B cells.

Limited repertoire of autoreactive B cells.

Question 29

What is the clinical presentation of IPEX?

Answer 29

Autoimmune diseases:

• Diabetes Mellitus
• Hypothyroidism
• Enteropathy

‘Diarrhoea, diabetes and dermatitis’

Question 30

What is the pathophysiology of auto-immune lymphoproliferative syndrome
(ALPS)?

Answer 30

Mutations within FAS pathway e.g. Mutations in TNFRSF6 which encodes FAS.

Disease is heterogeneous depending on the mutation.

Defect in apoptosis of lymphocytes.

Failure of tolerance.

Failure of lymphocyte ‘homeostasis’.

Question 31

What is the clinical presentation of ALPS?

Answer 31

High lymphocyte numbers with large spleen and lymph nodes.

Auto-immune disease: Commonly auto-immune cytopenias.

Lymphoma.

Question 32

What is the pathophysiology of polygenic auto-inflammatory diseases?

Answer 32

Mutations in genes encoding proteins involved in pathways associated with innate immune cell function.

Local factors at sites predisposed to disease lead to activation of innate immune cells such as macrophages and neutrophils, with resulting tissue damage.

HLA associations are usually less strong.

In general these disease are not characterised by presence of auto-antibodies.

Question 33

What is the pathophysiology of inflammatory bowel disease?

Answer 33

Genetic polymorphisms.

Familial association studies and twin studies suggested genetic predisposition to disease.

15% patients have an affected family member.

50% vs <10% disease concordance in monozygotic vs dizygotic twins.

>200 disease susceptibility loci found.

Question 34

What is the pathophysiology of Crohn’s Disease?

Answer 34

IBD1 gene on chromosome 16 identified as NOD2 (CARD-15, caspase activating recruitment domain -15).

Three different mutations of this gene have each been shown to be associated with Crohn’s disease.

NOD2 gene mutations are present in 30% patients (i.e. not necessary). Abnormal allele of NOD2 increases risk of Crohn’s disease by 1.5-3x if one copy and 14-44x if two copies (ie not sufficient).

Mutations also found in patients with Blau syndrome and some forms of sarcoidosis.

NOD2 expressed in cytoplasm of myeloid cells macrophages, neutrophils, dendritic cells. Intracellular receptor for muramyl dipeptide on bacterial products and promotes their clearance.

Question 35

What are clinical features of Crohn’s Disease?

Answer 35

Abdominal pain and tenderness

Diarrhoea (blood, pus, mucous)

Fevers, malaise

Question 36

What is the treatment of Crohn’s Disease?

Answer 36

Corticosteroid

Anti-TNF alpha antibody

Question 37

What is the pathophysiology of mixed pattern diseases?

Answer 37

Mutations in genes encoding proteins involved in pathways associated with innate immune cell function.

And

Mutations in genes encoding proteins involved in pathways associated with adaptive immune cell function.

HLA associations may be present.

Auto-antibodies are not usually a feature.

Question 38

Which genes are associated ankylosing spondylitis (axial spondyloarthritis)?

Answer 38

Highly heritable: 90% of the risk of developing disease is genetic.

HLA B27

Accounts for <50% overall genetic risk. Human leukocyte antigen B27. Presents antigen to CD8 T cells. Ligand for killer immunoglobulin receptor.

IL23R

IL23 receptor. Receptor for IL23 which promotes differentiation of Th17 cells.

ILR2

Interleukin receptor type II. Decoy receptor that inhibits activity of IL1.

Question 39

Where does inflammation tend to occur in ankylosing spondylitis?

Answer 39

Enhanced inflammation occurs at specific sites where there are high tensile forces.

Entheses: Sites of insertions of ligaments or tendons.

Question 40

What is the clinical presentation of ankylosing spondylitis?

Answer 40

Low back pain and stiffness

Enthesitis

Large joint arthritis

Question 41

What is the treatment of ankylosing spondylitis?

Answer 41

Non-steroidal anti-inflammatory drugs

Immunosuppression:

• Anti-TNF alpha
• Anti-IL17

Question 42

Which of the following is an example of a monogenic auto-inflammatory disease?

• Familial Mediterranean fever
• Graves’ disease
• Crohn’s disease
• Axial spondyloarthritis
• IPEX syndrome due to FoxP3 mutation

Answer 42

Familial Mediterranean fever

Question 43

Which of the following is an example of a monogenic auto-immune disease?

• Familial Mediterranean fever
• Graves’ disease
• Crohn’s disease
• Axial spondyloarthritis
• IPEX syndrome due to FoxP3 mutation

Answer 43

IPEX syndrome due to FoxP3 mutation

Question 44

Which of the following is an example of a polygenic auto-inflammatory disease?

• Familial Mediterranean fever
• Graves’ disease
• Crohn’s disease
• Axial spondyloarthritis
• IPEX syndrome due to FoxP3 mutation

Answer 44

Crohn’s disease