Unit 3 - Autoimmunity

Question 1

What is autoimmunity?

Answer 1

Immune response against self (auto-) antigen

Question 2

How does autoimmunity progress?

Answer 2

Development of autoimmunity reflects a combination of susceptibility genes and environmental triggers

Question 3

What causes autoimmune diseases?

Answer 3

Different autoimmune diseases may be systemic or organ specific

• may be caused by different types of immune reactions
• antibody
• T-cell-mediated

Question 4

What are the two mechanisms to induction of self tolerance?

Answer 4

• central mechanisms

- peripheral mechanisms

Question 5

What are the central mechanisms which induce self-tolerance?

Answer 5

Deletion of lymphocytes reacting to self

- clonal deletion in thymus or bone marrow of lymphocytes reacting to self-antigen

Question 6

What are the peripheral mechanisms which induce self-tolerance?

Answer 6

Direct induction of peripheral lymphocyte tolerance

• endothelial barrier segregates T cells from self-antigens
• low levels of antigen will render B cells unresponsive by down regulation of surface IgM expression these B cells are short-lived - clonal anergy

Question 7

Which is the first organ to be populated with lymphocytes in the unborn child?

Answer 7

Thymus

Question 8

Which type of cells are in the thymic epithelium?

Answer 8

Reticular cells

Question 9

What is the cortex of the thymus comprised of?

Answer 9

Almost all lymphocytes - mostly small resting types, packed tight
New arrivals from the marrow are larger and appear mostly under the capsule

Question 10

What is the medulla of the thymus comprised of?

Answer 10

Forms a continuous unit
In addition to epithelium and small lymphocytes as in the cortex - there’s more of a mix of cell with some fibrous tissue extending from the vessels and a variable number of macrophages (both major types), eosinophils, plasma cells

Question 11

What type of selection processes happen in the thymus?

Answer 11

Positive selection

Negative selection

Question 12

How does positive selection take place in the thymus gland?

Answer 12

Selects T cells that are able to interact with MHC class I and II molecules
- selecting those lymphocytes that are able to interact with self MHC

Question 13

How does negative selection take place in the thymus gland?

Answer 13

Deletes cells that recognise self antigens expressed in conjunction with MHC class I or II molecules on thymic dendritic cells or macrophages

• if the interaction is of high affinity - T cells will be deleted
• if the interaction is of low affinity - T cells may escape negative selection

Deleting those lymphocytes that are able to interact with self MHC and respond to self antigen

Question 14

What is clonal deletion?

Answer 14

The process of destroying B and T cells that react to self antigens

Question 15

What causes alterations in the state of ‘immunological silence’?

Answer 15

• injury causes access to normally sequestered autoantigen
• induction of MHCII on cells not normally expressing these molecules could lead to presentation of ‘self-antigens’. Coupled with the production by these cells of necessary ‘co-stimulatory’ signals for activation of lymphocytes

Question 16

What causes cross-reactivity - mimicry of microbial antigens?

Answer 16

• T-cell stimulation by microbial antigen mimicking self-antigen. Once primed by microbial antigen then high avidity primed T-cell could be chronically stimulated by autoantigen e.g. Streptococcal infection of throat leading to auto-antibodies against heart valves (Rheumatic fever)
• another possibility is that anergic T-cells may be converted to a responsive state by local high concentrations of cytokines released during infectious/inflammatory response

Question 17

Give two examples of genetic factors that cause autoreactivity

Answer 17

• familial incidence

- HLA linkage

Question 18

Give two examples of familial incidence of autoreactivity

Answer 18

• insulin-dependent diabetes

- association of thyroid antibodies with X chromosome

Question 19

Which HLA specificities are common in organ-specific autoimmune disease?

Answer 19

HLA-B8

HLA-DR3

Question 20

Which HLA specificities are common in rheumatic heart disease?

Answer 20

HLA-DR7

Question 21

Which HLA specificities are common in rheumatoid arthritis?

Answer 21

HLA-DR4

Question 22

Which HLA specificities are common in insulin-dependent diabetes?

Answer 22

HLA-DR3

HLA-DR4

Question 23

What is Myasthenia gravis?

Answer 23

Progressive muscle weakness caused by auto-antibodies against acetylcholine receptors in motor end plates of neuromuscular junctions
Interferes with ACh neuromuscular transmission
- may lead to reduction in number of receptor as a result of increased endocytosis
Results
- failure of muscle to respond to normal neural impulses
- progressive muscle weakness
Treatment
- anticholinesterases which prolong the action of ACh by inhibiting acetylcholinesterases
- corticosteroids
- azathioprine

Question 24

What is Hashimoto’s disease?

Answer 24

Autoimmune hypothyroidism

Question 25

What causes Hashimoto’s disease?

Answer 25

Thyroid gland bearing receptors for TSH
Interior surface filled with thyroid colloid
- mainly thyroglobulin and membrane bound enzyme thyroid peroxidase (TPO)
TSH interacts with its receptor to
- upregulate of TPO
- increase synthesis of thyroxine (T4)
- triiodothyronine (T3) which are then released into circulation

In Hashimoto’s thyroiditis - thyroglobulin and TPO are the two major antigens. Anti-thyroglobulin antibodies found in 95% of patients with Hashimoto’s disease

Question 26

What are the symptoms of Graves’ disease?

Answer 26

• rapid pulse
• fatigue
• muscle weakness and tremors
• heat intolerance
• goitre
• myxedema (swollen legs)

Question 27

What is Graves’ disease?

Answer 27

Autoimmune hyperthyroidism

Question 28

How is Graves’ disease diagnosed?

Answer 28

• suppressed TSH
• raised T4 / T3
• antibodies against the TSH receptor

Question 29

Why doe 50% of Graves’ disease patients also have exopthalmia?

Answer 29

An interaction between the receptor antibodies and epitopes on the orbital fat tissue

Question 30

What is the incidence of Graves’ disease?

Answer 30

Increases with age and is 5 x higher in females

Question 31

What is the treatment of Graves’ disease?

Answer 31

Aim to lower thyroid hormone production

• carbimazole (inhibits thyroid peroxide enzyme)
• radioiodine
• subtotal thryoidectomy

Question 32

What is SLE?

Answer 32

Systemic Lupus Erythematosus

- chronic remitting relapsing multisystem autoimmune disease

Question 33

What is the incidence of SLE?

Answer 33

Common between 20 - 60 years, 10 x higher in females

Question 34

What are the symptoms of SLE?

Answer 34

• skin rashes (vasculitis)
• arthritis
• glomerulnephritis
• haemolytic anaemia
• thrombocytopenia (maybe CNS involvement)

Question 35

What is the treatment of SLE?

Answer 35

Severe = systemic corticosteroids
Mild = non-steroidal

Question 36

What is DILE?

Answer 36

Drug-induced Lupus Erythematosus

Question 37

How long does DILE take to develop?

Answer 37

DILE can arise months to years after exposure to drugs prescribed to treat various medical conditions

• antihypertensions
• antibiotics
• anticonvulsants

Flares of SLE due to drugs may occur within hours to days