Tolerance & Autoimmunity

Question 1

Define antigen.

Answer 1

A substance capable of generating an immune response, usually a biological substance not just an inflammatory response

Question 2

Define immunological tolerance.

Answer 2

Unresponsiveness of the immune system to an antigen, not only self antigens but also foetus, gut flora, plant pollens etc.

Question 3

Define autoimmunity.

Answer 3

An immune response to self-antigens due to a failure of immunological tolerance usually due to a combination of genetic and environmental factors leading to immune-mediated damage of specific tissues

Question 4

How does the immune system recognise an infinite number of threats?

Answer 4

Pre-programmed via genetic recombination within T and B cells producing an infinite variety of receptors on different T and B cells (but only a single receptor per cell) so an infinite number of Ags can be responded to (cell-cytotoxicity and Ab production) - if a specific T or B cell is stimulated by a specific Ag, it will replicate massively to produce a specific response (clonal selection) however, this means we have pre-programmed T and B cells that recognise self Ags that need to be controlled (immunological tolerance)

Question 5

What aspect of the immune system is primarily involved in autoimmunity?

Answer 5

Adaptive immune system as the innate immune system is not ‘intelligent’ enough to recognise self Ags, it only reacts to molecules that are obviously different however it may become involved 2ndarily e.g. complement gets confused in SLE reducing levels in blood

Question 6

What is clonal selection?

Answer 6

When a T or B lymphocyte fits an Ag, they multiple evolve and this process is repeated so there is a mass of Ag-specific T or B lymphocytes ready to deal with the threat

Question 7

How does immunological tolerance work?

Answer 7

1. Central tolerance (thymus + bone marrow): prevents immune response to self-Ags clonal deletion (apoptosis) or clonal anergy (reg T cells development) deal with immature lymphocytes that recognise self-Ags - most active in foetus declining after birth
2. Peripheral tolerance (other peripheral lymphoid tissues): prevents immune response to foetus, gut flora, plant pollens etc. by inducing clonal suppression (red T cells) on mature lymphocytes recognising self or benign Ags - active throughout life

Question 8

What is the clinical significance of immunological tolerance?

Answer 8

A better understanding would improve our understanding, diagnosis and tolerance of:

• Autoimmune diseases
• Recurrent miscarriages
• Hypersensitivity disorders
• Chronic infections that evade clearance
• Malignancies that seem to induce tolerance
• Tolerance + rejection of organ transplants and GvHD

Question 9

What cells are most likely to lose tolerance?

Answer 9

B cells rather than T cells, therefore it is easier to diagnose as it can be measured as autoAbs (can be visualized by immuno-histochemistry) but this also means it can occur in utero by passing through the placenta so autoimmunity can get passed from mother to foetus e.g. neonatal thyrotoxicosis or neonatal lupus

Question 10

Give some examples of organ systems that can be affected by autoimmunity.

Answer 10

CNS: MS and MG
CVD: Dressler’s syndrome, rheumatic fever
Respiratory: idiopathic pulmonary fibrosis
Endocrine: Graves’ disease + Hashimoto’s thyroiditis
GI: UC and Crohn’s disease
Renal: Goodpasture’s syndrome
Haematological: autoimmune haemolytic anaemia + ITP
Dermatological: psoriasis + Sjogren’s syndrome
Rheumatological: RA + SLE
Systemic: Wegner’s granulomatosis

Overall = > 80 different diseases with varying degrees of confirmation

Question 11

What is Dressler’s syndrome?

Answer 11

After a MI, heart muscle molecules are in the blood so the immune system starts to attack heart muscle

Question 12

How is genetics involved in autoimmunity?

Answer 12

Greater risk of autoimmune diseases in monozygotic twins than dizygotic with the MHC (HLA) genes of the adaptive immune system involved in antigen presentation being most important e.g. HLA-B27 involved in AS where spine slowly fuses over lifecourse and reactive arthritis so with these conditions, they can be diagnosed by HLA-typing

Question 13

What are the 2 different types of MHC (HLA) protein?

Answer 13

1. Class I: on every cell presenting Ags made up of HLA-A, -B + -C
2. Class II: only on APCs made up of HLA-DP, -DQ + -DR

Question 14

How does the HLA-MHC gene complex show such big variation?

Answer 14

Multiple alleles exist for each gene and there is a copy on each chromosome 6

Question 15

How can environmental factors induce autoimmunity?

Answer 15

Possibly due to molecular mimicry of self-Ags where the immune system reacts to an foreign Ag but cross-reacts with a self-Ag due to similarities

Question 16

What infections can induce autoimmunity?

Answer 16

• Streptococcal infection -> rheumatic fever
• Urethritis/gastroenteritis -> reactive arthritis
• Campylobacter gastroenteritis -> Guillain-Barre synd.

Question 17

What chemicals can induce autoimmunity?

Answer 17

• Anti-convulsants or antibiotics -> drug-induced lupus

- Halothane (general anaesthetic) -> liver necrosis

Question 18

What neoplasms can induce autoimmunity?

Answer 18

Various paraneoplastic syndromes e.g. teratoma of the ovaries -> autoimmune encephalitis

Question 19

How can trauma induce autoimmunity?

Answer 19

Self-Ags in protected sites e.g. eye or testes are exposed and the immune system is not used to see these so it reacts

Question 20

What is the difference between sensitivity and specificity?

Answer 20

Sensitivity is where a lot of people with the condition, will have the autoAb whereas specificity means that a person with the autoAb will most likely have a specific condition e.g. ANA autoAb is 95% sensitive to SLE whereas dsDNA autoAb is 50% sensitive but 99% specific

Question 21

What are some examples of autoantibodies (autoAbs)?

Answer 21

Grave’s disease: TSH receptor
Hashimotos’ thyroiditis: thyroid peroxidase
RA: RhF
SLE: ANA + dsDNA
Sjogren’s syndrome: ANA
Coeliac disease: anti-gliadin + anti-endomysial
Primary biliary cirrhosis: ANA + AMA
Chronic autoimmune hepatitis: SMA + LKM-1
Wegner’s granulomatosis: c-ANCA
Churg-Strauss syndrome: p-ANCA

Question 22

What are the available treatments for autoimmune conditions?

Answer 22

1. Steroids: anti-inflammatory + immunosuppressive effect to decrease cytokines (IL-2), cell-mediated and humoral immunity
2. Disease-modifying drugs: anti-inflammatory + immunosuppressive effect e.g. Methotrexate (anti-folate), Azathioprine (purine synthesis inhibitor) + Sulphasalazine (IL-1/TNF suppressor)
3. Monoclonal Abs: more specific action e.g. Infliximab anti-TNF cytokine for RA, Crohn’s and AS or Rituximab anti-CD20 on B cells for leukaemia, rejection, RA and SLE

Question 23

What are the principles of autoimmunity prevention?

Answer 23

1. Primary: possible vaccination
2. Secondary: early diagnosis and treatment of disease via screening of relatives for genetic factors and better immunodiagnostic tests
3. Tertiary: treatment of established disease to reduce complications via more specific immune-modulating drugs e.g. mAbs

Question 24

What gender is autoimmunity more common in?

Answer 24

Females and this is thought to be due to exposure to foetal Ags

Question 25

What is Graves’ disease (thyrotoxicosis)?

Answer 25

Most common autoimmune disease (esp. in females) that runs in families causing hyperthyroidism due to TSH receptor autoAbs so there is persistent thyroid gland stimulation, increased thyroid hormone (T3/T4), BMR and sensitivity to catecholamines

Question 26

What are the symptoms specific to Graves’ disease, not just hyperthyroidism?

Answer 26

1. Graves’ ophthalmopathy/exophthalmos (due to autoAbs against ophthalmic nucles)
2. Goitre
3. Pre-tibial myxoedema

Question 27

What are the symptoms of generalized hyperthyroidism?

Answer 27

Anxiety
Agitation
Sweating
Heat intolerance
Increased appetite
Weight loss
Tachyarrhythmias
Diarrhoea
Muscle weakness
Hypercalcaemia

Question 28

How do you diagnose Grave’s disease (thyrotoxicosis)?

Answer 28

Bloods:

• Low TSH
• High T3 + T4
• Anti-TSH receptor Abs

So radio-iodine scans or thyroid biopsy are rarely necessary

Question 29

What is the treatment for Graves’ disease (thyrotoxicosis)?

Answer 29

1. Beta-blocker e.g. propranolol for symptoms
2. Anti-thyroid drugs (titrate dose or block and replace) e.g. carbizamole and propylthiouracil
3. Radio-active iodine treatment (131I)
4. Thyroidectomy (partial)

Question 30

What is Rheumatoid arthritis (RA)?

Answer 30

2nd most common autoimmune disease and cause of arthritis with a familial link and more associated with females and HLA-DR4 causing initial synovitis and deforming symmetrical polyarthritis of small joints of hands, feet and spine (esp. MCP, PIP + C1/2 joints) but also large joints like shoulders and knees. Local soft tissues (e.g. tendons) are also damaged by inflammatory reaction. Patients with extra-articular disease are usually positive for RhF Ab (usually IgM) against Fc portion of IgG

Question 31

What extra-articular features occur in Rheumatoid Arthritis (RA)?

Answer 31

Systemic: malaise, fever, weight loss
Skin: rheumatoid nodules, vasculitis, leg ulcers
Neurological: C1/C3 atlanto-axial subluxation, nerve compression
Eyes: scleritis, xerophthalmia (2ndary Sjogren’s syndrome)
Heart: pericarditis, valve problems, atherosclerosis (IHD/CVA)
Lungs: pleural effusions, rheumatoid nodules, pulmonary fibrosis
Blood: anaemia (chronic/haemolytic), splenomegaly (Felty’s synd.)
Orthopaedic: localised osteoporosis

Question 32

How do you diagnose Rheumatoid Arthritis (RA)?

Answer 32

Bloods:

• FBC may show anaemia (chronic/haemolytic)
• ESR raised
• CRP moderately raised
• RhF raised 70% of time
• Anti-citrullinated protein Abs
• Anti-cyclic citrillunated peptides
• Anti-mutated citrullinate vimentin assay

Scans:

• US, MR or isotope bone scan for early changes
• Radiographs of hands and feet for later changes

Question 33

What changes in the hands and feet would a radiograph in Rheumatoid Arthritis (RA) show?

Answer 33

Soft tissue swelling
Juxta-articular osteopenia
Joint space narrowing
Periarticular erosions
Subluxation esp. C1/C2 atlanto-axial
Deformity

Question 34

How do you treat Rheumatoid Arthritis (RA)?

Answer 34

1. Steroids but many side effects e.g. weight gain, immunosuppression and osteoporosis
2. NSAIDs but adverse effects inc. peptic ulcer, AKI and asthma
3. DMDs: anti-proliferative drugs (Methotrexate, Azathioprine), suppressive drugs (Sulphasalazine, Penicilliamine) and gold injections
4. mAbs: Infliximab and Rituximab

Question 35

What is systemic lupus erythematosus (SLE)?

Answer 35

Rare autoimmune disorder affecting many tissues with anti-nuclear Abs (ANA) and dsDNA autoAbs

Question 36

What are the symptoms of systemic lupus erythematosus (SLE)?

Answer 36

Systemic: malaise, fever, weight loss
Skin: rash, photosensitivity, vasculitis, hair loss
CNS: cerebral lupus, transverse myelitis
Heart: pericarditis, Libman-Sacks endocarditis
Lungs: pleural effusions, pulmonary fibrosis
Kidneys: glomerulonephritis (lupus nephropathy)
Blood: anaemia, leukopenia, thrombocytopenia, 2ndary APLS
Other: 2ndary Sjogrens syndrome, arthralgia, non-deforming arthritis

Question 37

What is a blood-related complication of systemic lupus erythematosus (SLE)?

Answer 37

Anti-phospholipid syndrome (APLS) causing thrombophilia and recurrent miscarriages (can also be primary and idiopathic unrelated to other autoimmune disease)

Question 38

How do you diagnose systemic lupus erythematosus (SLE)?

Answer 38

Bloods:

• FBC shows decreased Hb (chronic/haemolytic), WCC and platelets
• Raised ESR and moderately raised CRP
• ANA and dsDNA autoAbs
• Anti-cardiolipin (phospholipid) Abs

Question 39

What is the treatment of systemic lupus erythematosus (SLE)?

Answer 39

1. Sun avoidance/sun screens
2. Steroids
3. NSAIDs
4. DMDs e.g. Hydroxychloroquine, Azathioprine and Cyclophosphamide (anti-proliferative)
5. mAbs e.g. Rituximab

Question 40

What is Sjogren’s (Sicca) syndrome?

Answer 40

Rare autoimmune disorder affecting many mucus-secreting tissues which can be:

1. Primary (more common in females): idiopathic associated with ANA autoAbs esp. anti-Ro (SS-A) and anti-La (SS-B) and possibly RhF too (even in absence of true RA)
2. Secondary or indirectly associated with other autoimmune diseases e.g. RA, SLE, SD, SS and PBC

Question 41

What are the signs and symptoms of Sjogren’s (Sicca) syndrome?

Answer 41

Xerophthalmia
Xerostoma 
Rashes
Vasculitis
Pulmonary fibrosis
Risk of lymphoma

Question 42

How do you diagnose Sjogren’s (Sicca) syndrome?

Answer 42

• Schirmer’s test/slit lamp examination/saliva flow test
• Anti-La autoAbs
• USS of salivary glands showing hypoechoic lesions and loss of tissue
• Biopsy of lip or salivary gland showing lymphocytic infiltration, tissue damage and loss

Question 43

How do you treat Sjogren’s (Sicca) syndrome?

Answer 43

1. Artificial tears, punctal plus into lacrimal ducts
2. Mouth care, regular sips of fluid and artificial saliva
3. Topical cyclosporine or other DMDs
4. Awareness of lymphoma risk