Immuno: Autoinflammatory and Autoimmune diseases 1

Question 1

What is the difference between autoinflammatory and autoimmune disease?

Answer 1

Autoinflammatory = driven by components of the innate immune system

Not characterised by autoantibodies and HLA associations are usually less strong

Autoimmune = driven by components of the adaptive immune system

Autoantibodies are found and HLA associations are common

(Breaking of tolerance - aberrant T and B cell response ni 1 and 2 lymphoid organs)

Note: mixed pattern diseases involve mutations affecting the innate and adaptive immune system → HLA associations may be present but autoantibodies are NOT usually a feature

Question 2

Which cells are mainly responsible for:

1. Autoinflammatory diseases
2. Autoimmune diseases

Answer 2

1. Autoinflammatory diseases = macrophages and neutrophils (disease is usually localised)
2. Autoimmune diseases = T and B cells

Question 3

List examples of monogenic autoinflammatory diseases

Answer 3

Familial Mediterranean Fever

TRAPS

Question 4

List examples of polygenic autoinflammatory diseases

Answer 4

Crohn’s

UC

Osteoarthritis

Giant cell arteritis

Takayasu’s

Question 5

List examples of monogenic autoimmune diseases

Answer 5

APECED

IPEX

ALPS

Question 6

List examples of polygenic autoimmune diseases

Answer 6

Rheumatoid arthritis

Myasthenia

Pernicious anaemia

Graves disease

Question 7

List examples of mixed pattern diseases

Answer 7

Ankylosing spondylitis

Psoriatic arthritis

Behcet’s

Question 8

Mutations in which pathways are implicated in monogenic autoinflammatory disease?

Answer 8

Innate immune cell function - abnormal signalling via key cytokine pathways involving TNF-alpha or IL-1

Question 9

Which protein is upregulated in autoinflammatory diseases caused by gain-of-function mutation in NLRP3?

Answer 9

Cryopyrin (aka NLRP3)

Question 10

Name 3 diseases that are caused by mutation of NLRP3?

Answer 10

• Muckle Wells syndrome
• Familial cold autoinflammatory syndrome
• Chronic infantile neurological cutaneous articular syndrome/Neonatal Onset Multisystem inflammatory disorder (NOMID)
• These are all autosomal dominant

NOTE: other examples of monogenic autoinflammatory conditions: TNF receptor associated periodic syndrome (TNF receptor mutation), Hyper IgD with periodic fever syndrome (mevalonate kinase mutation)

Question 11

Which gene mutation causes Familial Mediterranean Fever and which protein does this gene encode?

Answer 11

MEFV gene

Encodes pyrin-marenostrin which is ordinarily a negative regulator of the inflammatory pathway → mutation leads to increased inflammation

Question 12

Describe how the inflammasome complex functions.

Answer 12

1. The pathway is activated by toxins, pathogens and urate crystals
2. These act via cyropyrin and ASC (apoptosis-associated speck-like protein) to activate procaspin 1
3. Activation of procaspin 1 results in the production of NFkB, IL-1 and apoptosis
4. Pyrin-marenostrin is a negative regulator of this pathway

Question 13

Which mutations can lead to hyperactivity of the inflammasome complex?

Answer 13

• Loss of function of pyrin-marenostrin
• Gain of function of cryopyrin

Question 14

What is the inheritance pattern of Familial Mediterranean Fever?

Answer 14

Autosomal recessive

Question 15

Which cells contain pyrin-maronostrin?

Answer 15

Neutrophils

Question 16

Outline the clinical presentation of Familial Mediterranean Fever.

Answer 16

Periodic fevers lasting 2-4 days associated with:

• Abdominal pain (peritonitis)
• Chest pain (pleurisy, pericarditis)
• Arthritis
• Rash

Question 17

What is a complication of Familial Mediterranean Fever?

Answer 17

AA amyloidosis
(due to chronic elevation of serum amyloid A)

This can deposit in the kidneys causing nephrotic syndome and renal failure

Question 18

Outline the treatment of Familial Mediterranean Fever.

Answer 18

• Colchicine 500µg BD (binds to tubulin and disrupts neutrophil migration and chemokine secretion)
• 2nd line: blocking cytokines
  
  • Anakinra - IL-1 receptor blocker
  • Etanercept - TNF-alpha blocker

Question 19

What are three types of pathogenesis in monogenic autoimmune diseases?

Answer 19

• Abnormality in tolerance
• Abnormality in regulatory T cells
• Abnormality of lymphocyte apoptosis

Question 20

What does APECED stand for?

Answer 20

Autoimmune polyendocrinopathy candidiasis ectodermal dystrophy

NOTE: it is autosomal recessive

Question 21

What mutation causes APECED? What is the role of this gene?

Answer 21

AIRE - this is a transcription factor that is responsible for the expression of self-antigens in the thymus and promotes apoptosis of self-reactive T cells. Defects in AIRE leads to a failure of central tolerance and the release of auto-reactive T cells.

Question 22

Which autoimmune conditions tend to occur in APECED?

Answer 22

• Hypoparathyroidism (COMMON)
• Addison’s disease (COMMON)
• Hypothyroidism
• Diabetes mellitus
• Vitiligo

Question 23

Why are patients with APECED prone to Candida infection?

Answer 23

They produce antibodies against IL-17 and IL-22

Question 24

What does IPEX stand for?

Answer 24

Immune dysregulation polyendocrinopathy enteropathy X-linked syndrome

Question 25

What mutation causes IPEX? What is the role of this gene?

Answer 25

FoxP3 - required for the development of Treg cells

A lack of Tregs leads to autoantibody formation

Question 26

Which autoimmune conditions are often seen in IPEX?

Answer 26

“Diabetes, dermatitis, Diarrhoea”
* Enteropathy
* Diabetes mellitus
* Hypothyroidism
* Dermatitis (Eczema)

Question 27

What does ALPS stand for?

Answer 27

Autoimmune lymphoproliferative syndrome

Question 28

Which mutations cause ALPS?

Answer 28

Mutations in the FAS pathway leading to defects in apoptosis of lymphocytes

This leads to a failure of lymphocyte tolerance (as autoreactive lymphocytes don’t die by apoptosis) and failure of lymphocyte homeostasis (you keep producing lymphocytes)

Question 29

Describe the clinical phenotype of ALPS.

Answer 29

• High lymphocyte count
• Large spleen and lymph nodes
• Autoimmune disease (usually cytopaenias)
• Lymphoma - over time

Question 30

What is the best known chromosomal region that is implicated in Crohn’s disease?

Answer 30

IBD1 on chromosome 16

Question 31

Which gene in this region is associated with Crohn’s disease?
(Chromosome 16)

Answer 31

NOD2 (aka CARD15)

Abnormalities are associated with increased risk of Crohn’s, Blau syndrome and some forms of sarcoidosis

Question 32

Where is NOD2 found and what is its role?

Answer 32

Cytoplasm of myeloid cells

Acts as a microbial sensor

(recognises muramyl dipeptide)

Question 33

Outline the treatment approaches to Crohn’s disease

Answer 33

• Corticosteroids
• Azathioprine
• Anti-TNF-alpha antibodies
• Anti-IL 12/23 antibodies

Question 34

What is the strongest genetic association of ankylosing spondylitis?

Answer 34

HLA-B27

NOTE: othes include IL23R, ERAP1, ANTXR2 and ILR2

90% heritability

Question 35

Where does ankylosing spondylitis tend to manifest?

Answer 35

At sites with high shear forces (i.e. entheses, SI Joint)

Question 36

What are the treatment options for ankylosing spondylitis?

Answer 36

• NSAIDs
• Immunosuppression (anti-TNF-alpha and anti-IL17)

Question 37

List the autoimmune diseases associated with the following HLA polymorphisms:

1. DR3
2. DR3/4
3. DR4
4. DR15

Answer 37

1. DR3
   
   • Graves’ disease
   • SLE
2. DR3/4
   
   • Type 1 diabetes mellitus
3. DR4
   
   • Rheumatoid arthritis
4. DR15
   
   • Goodpasture’s syndrome

Question 38

Name and state the function of 2 genes that are involved in T cell activation and are often mutated in polygenic autoimmune disease.

Answer 38

• PTPN22 - suppresses T cell activation
• CTLA4 - regulates T cell function (expressed by T cells)

Question 39

What are three forms of peripheral tolerance?

Answer 39

• T cell require costimulation to become activated (costimulatory molecules are upregulated in infection and inflammation)
• Regulatory T cells
• Immune privileged sites

Question 40

Outline the Gel and Coombs effector mechanisms of immunopathology.

Answer 40

Type I: Anaphylactic hypersensitivity - immediate hypersensitivity which is IgE-mediated

Type II: Cytotoxic hypersensitivity - antibody reacts with cellular antigen

Type III: Immune complex hypersensitivity - antibody reacts with soluble antigen to form an immune complex

Type IV: Delayed-type hypersensitivity - T cell mediated response

NOTE: autoimmunity is most common with type II hypersensitivity

Question 41

Effect of Type II Hypersensitivity

Answer 41

• Activate complement
• Activate NK cells
• Opsonin for phagocytosis

Question 42

List some inflammatory mediates involved in type I responses that are:

1. Pre-formed
2. Synthesised

Answer 42

1. Pre-formed: Histamine, Serotonin, Proteases
2. Synthesised: Leukotrienes, prostaglandins, bradykinin, cytokines

Question 43

Outline the pathophysiology of IgE-mediated type I responses.

Answer 43

IgE binds to a foreign antigen (e.g. pollen)

The Fc portion binds to mast cells and basophils leading to degranulation

NOTE: this mechanism is implicated in eczema

Question 44

How does antibodies binding to cellular antigens lead to cell death?

Answer 44

Antibody-dependent cellular cytotoxicity:
antibodies can activate complement (by binding to C1) or bind to NK cells and macrophages resulting in phagocytosis

Question 45

What is sometimes considered a type V hypersensitivity reaction?

Answer 45

Antibodies activate or block cellular receptors (e.g. Graves’ disease, myasthenia gravis)

Question 46

Name the autoantigen in the following diseases:

1. Goodpasture’s disease
2. Pemphigus vulgaris
3. Graves’ disease
4. Myasthennia gravis

Answer 46

1. Goodpasture’s disease = non-collagenous domain of basement membrane collagen IV
2. Pemphigus vulgaris = Epidermal cadherin
3. Graves’ disease = TSH receptor
4. Myasthenia gravis = nicotinic acetylcholine receptor

Question 47

What are the consequences of immune complex formation in type III hypersensitivity reactions?

Answer 47

Immune complexes can deposit in blood vessels

(especially in the kidneys (nephritis), joints and skin (purpura)

They activate complement and inflammatory cells through their Fc portion

Classic example - SLE

Question 48

What is the autoantigen in:

1. SLE
2. Rheumatoid arthritis

Answer 48

• SLE: DNA, histones, RNP
• Rheumatoid arthritis: Fc portion of IgG

Question 49

Give some examples of type IV hypersensitivity mediated diseases and state the autoantigen involved.

Answer 49

• Insulin-dependent diabetes mellitus: pancreatic beta-cell antigen
• Multiple sclerosis: myelin basic protein, proteolipid protein, myelin oligodendrocyte glycoprotein

Question 50

How can coeliac cause immune deficiency?

Answer 50

• Protein losing enteropathy
• Immunoglobulins are proteins - hence, the loss of circulating antibodies will reduce immunity.
• May be diagnosed by performing faecal alpha-1 antitrypsin levels

Can occur with IBD, Coeliac, SLE