Autoimmune disease

Question 1

Describe the double-edged sword concept around immunity

Answer 1

Immune system must be able to fight infection and tolerate self

Prevent autoimmunity without being immune deficient

Question 2

What is autoimmunity?

Answer 2

Occurs when an immune response is mounted against a self antigen

Caused by loss of tolerance

Question 3

TRUE or FALSE

All autoimmune conditions lead to disease

Answer 3

FALSE

Some have subclinical presentations

Question 4

Which categories can autoimmune diseases be split into?

Answer 4

Organ specific - it is clear the specific organ which is targeted

Systemic - affects multiple parts of the body

Question 5

Examples of organ-specific autoimmune diseases

Answer 5

Type I diabetes

Goodpasture’s

Multiple sclerosis

Grave’s diseases

Hashimotos thyroiditis

Question 6

Examples of systemic autoimmune diseases

Answer 6

Rheumatoid arthritis

Scleroderma

Systemic lupus erythematosus

Question 7

Why do mechanisms of peripheral tolerance exist?

Answer 7

Because central tolerance occurring in the thymus is incomplete

Question 8

Where does peripheral tolerance take place?

Answer 8

Lymph nodes

Spleen

Secondary immune organs

Question 9

What is a key component of peripheral tolerance?

Answer 9

T regulatory cells

Question 10

Studies proving the importance of T regulatory cells in peripheral tolerance

Answer 10

Studies on Treg deficient mice showed they have dysregulated immune responses

They develop lymphadenopathy and splenomegaly

Due to lack of cell control

Question 11

Marker for T regulatory cells

Answer 11

Foxp3

Question 12

What is IPEX?

Answer 12

Immune dysregulation polyendocrinopathy enteropathy X-linked syndrome

It is an aggressive autoimmune disorder leading to early death

Question 13

What is the cause of IPEX?

Answer 13

Mutations in the Foxp3 gene

Question 14

When is the onset of IPEX?

Answer 14

Within first months of life

Question 15

Presentation of IPEX

Answer 15

> 80% IPEX patients have type I diabetes, IBD and allergy

Question 16

Pathophysiology of IPEX

Answer 16

Individuals make T cells but are not able to make Treg cells

Question 17

What causes autoimmunity?

Answer 17

Mixture of many factors including genes, environment and failed immune regulation

Question 18

What gene plays the largest contribution to the genetic susceptibility of autoimmunity?

Answer 18

HLA genes

Question 19

Proof that more that genetics is involved in the development of autoimmune disease

Answer 19

Individuals with the same mutation to the MHC have different phenotypes

Some develop autoimmunity, some do not

Low concordance rates between twins

Question 20

MHC allele linked to increased risk of ankylosing spondylitis

Answer 20

HLA-27

Question 21

MHC allele linked to increased risk of rheumatoid arthritis

Answer 21

HLA-DRB1

Question 22

MHC allele linked to increased risk of type I diabetes

Answer 22

HLA-DRB1

Question 23

Polymorphisms in genes other than HLA shown to contribute to autoimmune disease

Answer 23

PTPN22 - control of B and T cell receptor signalling

CTLA4 - regulatory T cells

Question 24

What diseases have been associated with PTPN22 mutations?

Answer 24

RA

Question 25

What diseases have been associated with NOD2 mutations?

Answer 25

Chron’s disease

Question 26

What diseases have been associated with IL23R mutations?

Answer 26

IBD

PS

AS

Question 27

What diseases have been associated with CTLA4 mutations?

Answer 27

T1D

RA

Question 28

What diseases have been associated with C25 mutations?

Answer 28

MS

T1D

Question 29

What diseases have been associated with C2 and C4 mutations?

Answer 29

SLE

Question 30

What diseases have been associated with FCGRIIB mutations?

Answer 30

SLE

Question 31

Proof that genetics is involved in autoimmune disease predisposition

Answer 31

Autoimmune diseases frequently run in families

Question 32

Examples of environmental influences increasing the predisposition for autoimmune diseases

Answer 32

Infection

Sunlight

Microbiome

Obesity

Stress

Diet

Question 33

What is molecular mimicry?

Answer 33

When a peptide from a microbe resembles a self-antigen

Activation of the immune response by this microbial epitope causes the development of an immune response against the organ

Question 34

Describe the impact of gender on autoimmune disease prevalence

Answer 34

Many autoimmune diseases have female bias

Question 35

Explain the possible causes of female bias behind autoimmune diseases

Answer 35

Lots of different reasons

• CD4 T cells
• antibody
• gene dosage effects due to genes on the X-chromosomes

Question 36

What are the different mechanisms of autoimmunity?

Answer 36

Blocking a receptor

Stimulating a receptor

Facilitating phagocytosis of the cell coated by the autoantibody

Question 37

Describe the pathogenesis behind Myasthenia gravis

Answer 37

Autoantibodies block the acetylcholine receptors

Therefore the ACh effects on muscles is inhibited

Autoantibodies = antagonists

Question 38

Describe the pathogenesis behind Graves disease

Answer 38

Autoantibodies = agonists

Acts on the thyroid through stimulating the hormone receptor

This causes release of thyroid hormone

Question 39

Describe how autoantibodies can lead to cell death

Answer 39

Autoantibodies coat the cell

Same principle as opsonisation and phagocytosis of bacteria

Fc portion bind to Fc receptors on innate cells

Question 40

Example of autoimmune diseases caused by mechanisms of cell death

Answer 40

Autoimmune thrombocytopenia

Autoimmune haemolytic anaemica

Autoimmune neutropenia

Question 41

What is thrombocytopenia?

Answer 41

Low platelet number

Question 42

What is haemolytic anaemia?

Answer 42

Low erythrocytes

Question 43

What is neutropenia?

Answer 43

Low neutrophils

Question 44

Which autoantibody characteristically cause Grave’s disease?

Answer 44

Antibody to TSH receptor

Question 45

Which autoantibody characteristically cause Rheumatoid arthritis?

Answer 45

IgG

Question 46

Which autoantibody characteristically cause Hashimoto’s disease?

Answer 46

Thyroid peroxidase

Question 47

Which autoantibody characteristically cause Sjorgen syndrome?

Answer 47

SS-A

SS-B

Question 48

Which autoantibody characteristically cause Penicious anaemia?

Answer 48

Intrinsic factor

Question 49

Which autoantibody characteristically cause Multiple sclerosis?

Answer 49

Myelin basic protein

Question 50

Which autoantibody characteristically cause ankylosing spondylitis?

Answer 50

Multiple connective and skeletal proteins

Question 51

Which autoantibody characteristically cause type I diabetes?

Answer 51

Insulin

Question 52

Which autoantibody characteristically cause SLE?

Answer 52

dsDNA

SS-A

SS-B

Histones

Question 53

Examples of T cell mediated autoimmune destruction

Answer 53

Multiple sclerosis

Type I diabetes

Question 54

Which cells are involved in the progression of MS?

Answer 54

CD4 T cells

Macrophages

B cells

Question 55

What causes the presentation of multiple sclerosis?

Answer 55

Demyelination in brain and the spinal cord

Question 56

Presentation of multiple sclerosis

Answer 56

Slower nerve conduction

Axonal injury

Neurological dysfunction

Question 57

Pathogenesis of systemic lupus erythematosus

Answer 57

Autoantibodies against nuclear components

Immune complex deposition

Defective clearance of dead cells