Autoimmunity

Question 1

What is immunological tolerance?

Answer 1

Immunological tolerance = unresponsiveness to an antigen that is induced by previous exposure to that antigen

Question 2

The same antigen may induce tolerance or immune response depending on..?

Answer 2

• Conditions of exposure
• Absence of other stimuli

Question 3

What are tolerogens?

Answer 3

Tolerogens = antigens that induce tolerance

Question 4

What is self-tolerance?

Answer 4

Self-tolerance = tolerance to self-antigens:

• Failure of this is called autoimmunity, and diseases they cause are autoimmune diseases

Question 5

What is done by the body to avoid autoimmune disease?

Answer 5

• T and B cells bearing self-reactive molecules must be eliminated
• Achieved by central and peripheral tolerance

Question 6

What are important organs for central tolerance?

Answer 6

• Thymus
  
  • Eliminates T cells with high affinity to self-antigens
• Bone marrow
  
  • B cell tolerance

Question 7

Describe the mechanism of central tolerance?

Answer 7

1. Within cortex of thymus, T cell progenitors are tested against antigens
   
   1. If they do not react at all they die – death by neglect
   2. If they have strong recognition for self-antigens they die – negative selection
   3. If this does not happen they develop further – positive selection
   4. If low affinity to self-antigens they can develop into Treg cells still
2. Cells go into periphery

Question 8

Where does central tolerance occur for T cells?

Answer 8

Cortex of thymus

Question 9

Where does central tolerance for B cells occur?

Answer 9

Bone marrow

Question 10

What is peripheral tolerance?

Answer 10

Safety mechanism encase some reaction cells escape primary tolerance:

• Mature lymphocytes that recognise self-antigens in peripheral tissues become incapable of activation or die by apoptosis
• Can happen due to absence of certain antigens within thymus/bone marrow

Question 11

What are some of the different mechanisms of peripheral tolerance?

Answer 11

• Anergy (functional unresponsiveness)
  
  • Stimulation without co-stimulation, which is required
• Antigen recognition without co-stimulation
• Treg suppression
  
  • Autoreactive T cells inhibited by Treg cells
• Deletion (cell death)
• Self-antigens hidden from immune system by anatomical barriers

Question 12

Overcoming peripheral tolerance can result from?

Answer 12

• Inappropriate access of self-antigens
• Inappropriate or increased local expression of co-stimulatory molecules
• Alterations in the ways in which self-molecules are presented to immune system

Question 13

What increases the risk of overcoming peripheral tolerance?

Answer 13

• Inflammatory or tissue damage
  
  • Due to increased activity of proteolytic enzymes, leading to high concentrations of peptides being presented to responsive T cells
• Infection
  
  • Structure of self-peptides altered by viruses, free radicals or ionising radiation thus bypassing previously established tolerance

Question 14

How can inflammation or tissue damage allow peripheral tolerance to fail?

Answer 14

• Due to increased activity of proteolytic enzymes, leading to high concentrations of peptides being presented to responsive T cells

Question 15

How can infection cause peripheral tolerance to fail?

Answer 15

• Structure of self-peptides altered by viruses, free radicals or ionising radiation thus bypassing previously established tolerance

Question 16

What does autoimmunity occur due to?

Answer 16

Occurs due to breakdown of tolerance, where autoreactive T cells or autoantibodies cause tissue damage through hypersensitivity reactions types II, III and IV, could be due to:

• Genes
• Infections
• Environmental factors

Question 17

What is autoimmunity?

Answer 17

Autoimmunity = adaptive immune responses to self-antigens

Question 18

What are autoantibodies?

Answer 18

Autoantibodies = antibodies directed at normal cellular components, referred to as autoantigens

Question 19

Does the presence of autoantibodies always indicate disease?

Answer 19

Most healthy people produce low amounts of autoantibodies, with low affinity

Question 20

What do natural antibodies do?

Answer 20

B1 cells secrete natural antibodies that are major source of autoantibodies (part of innate immune system):

• Bind with low affinity to antigens on a variety of bacteria, activating complement to help clear bacteria rapidly
• Cross-react with inherited A and B antigens of red cells
  
  • Unless inherited either A or B antigens, people make IgM anti-A and anti-B antibodies even if they have never been exposed to red cells from another person
• Can bind to normal cellular constituents such as nuclear proteins and DNA

Question 21

What can breakdown of T cell tolerance occur due to?

Answer 21

• Genetic predisposition
  
  • Poor expression of self-antigen in thymus
  • HLA with poor binding for self-antigen
    
    • Alleles of MHC – common polymorphisms rather than rare mutations implicated in breakdown of immune tolerance leading to disease
• Environmental factors
  
  • Infections
    
    • Molecular mimicry – mimic self-molecules, so immune system reacts to autoantigens as well as infection/drugs
    • Upregulation of co-stimulation
    • Antigen breakdown and presentation changes
  • Drugs
    
    • Molecular mimicry
    • Genetic variation in drug metabolism
  • UV radiation
    
    • Trigger for skin inflammation
    • Modification of self-antigen

Question 22

What is molecular mimicry?

Answer 22

• Molecular mimicry – mimic self-molecules, so immune system reacts to autoantigens as well as infection/drugs

Question 23

What are some genetic predispositions to breakdown of T cell tolerance?

Answer 23

• Poor expression of self-antigen in thymus
• HLA with poor binding for self-antigen
  
  • Alleles of MHC – common polymorphisms rather than rare mutations implicated in breakdown of immune tolerance leading to disease

Question 24

What are some diseases that HLA gene alleles are associated to?

Answer 24

Question 25

What does HLA stand for?

Answer 25

Human leukocyte antigen

Question 26

What are some microbial antigens that are similar to self-antigens and so can cause molecular mimicry?

Answer 26

Question 27

What are some risk factors for autoimmune disease?

Question 29

Describe the epidemiology of autoimmune disease?

(prevalence, age, sex)

Answer 29

• Prevalence 3%
• Clustering within families
• Peak onset 15-65 years (exception T1 diabetes)
• Almost all more common in woman (exception ankylosing spondylitis)

Question 30

How can autoimmune disease be classified?

Answer 30

• Non-organ specific
  
  • Affect multiple organs
  • Associated with autoimmune responses against self-molecules that are widely distributed
  • Intracellular molecules involved in transcription and translation
• Organ specific
  
  • Restricted to one organ
  • Endocrine glands

Question 31

What are examples of autoimmune diseases?

Answer 31

Question 32

What is the self-antigen involved in the following diseases:

• hyper/hypothyroidism
• hyper/hypoglycaemia
• myasthenia graves
• acquired haemophilia
• haemolytic anaemia
• SLE

Answer 32

and SLE is double stranded DNA and histones

Question 33

Describe the mechanism behind type 1 diabetes?

Answer 33

Question 34

What does SLE stand for?

Answer 34

Systemic lupis erythematosus

Question 35

What is the antigen involved in SLE?

Answer 35

DNA

Question 36

Describe the mechanism behind SLE?

Answer 36

Question 37

Describe the treatment goals for autoimmune disease?

Answer 37

• Suppression of damaging immune response
  
  • Before irreversible tissue damage
  • Problems with specificity of treatments and toxicity
• Replacement of the function of the damaged organ
  
  • Such as hypothyroidism and insulin dependent diabetes mellitus