Immunology of Endocrine Disorders

Question 1

What is autoimmunity?

Answer 1

An immune response against self-antigens

Question 2

What are antigens?

Answer 2

Structures bound to cell surface of antibodies

Question 3

What is autoimmune disease?

Answer 3

Tissue damage or disturbed function due to an autoimmune response

Question 4

What is organ specific autoimmune disease?

Answer 4

Restricted to single organ, usually an endocrine gland

Question 5

What is non-organ specific autoimmune disease?

Answer 5

Invovle autoantigens widely distributed throughout the body

Question 6

What is an autoantigen?

Answer 6

Normal protein or complex of proteins (and sometimes DNA or RNA) that is recognized by the immune system of patients suffering from a specific autoimmune disease

Question 7

Are most autoimmune diseases more common in males or females?

Answer 7

Females

Question 8

When does autoimmunity occur?

Answer 8

When tolerance to self-antigens breaks down

Question 9

What is immunological tolerance?

Answer 9

Unresponsiveness to an antigen that is induced by previous exposure to that antigen

Question 10

Explain what happens when a lymphocyte encounters an antigen?

Answer 10

1. When lymphocytes encounter antigens they are activated
2. Leading to immune responses, or inactivated, or eliminated, leading to tolerance
3. Same antigen may induce an immune response or tolerance, depending on the conditions of exposure and the presence or absence of other stimuli

Question 11

What are tolerogens?

Answer 11

Antigens that induce tolerance

Question 12

What is self-tolerance?

Answer 12

Tolerance to self-antigens

Question 13

What does failure of self-tolerance result in?

Answer 13

An immune reaction against self-antigens, called autoimmunity cand causing autoimmune diseases

Question 14

The immune system can generate a diversity of T-cell antigen receptors and immunoglobulin molecules by different genetic recombination, what does this produce?

Answer 14

Many antigen-specific receptors capable of binding to self-molcules

Question 15

Immune system can generate a diversity of T-cell antigen receptors and immunoglobulin molecules, how is autoimmune disease avoided?

Answer 15

• T and B cells bearing those self-reactive molecules must be either eliminated or downregulated so that immune system is made tolerant to self-antigens

Question 16

What are the different type of tolerance?

Answer 16

Central and peripheral tolerance

Question 17

What happens in central tolerance?

Answer 17

Induced in immature self-reactive lymphocytes in the generative lymphoid organs:

• thymus plays important role in eliminating T cells with high affinity for self-antigens
• bone marrow is important in B cell tolerance

Question 18

For central tolerance, what organ plays an important role in eliminating T cells with high affinity to self-antigens?

Answer 18

Thymus

Question 19

In central tolerance, what organ plays an important role in B cells tolerance?

Answer 19

Bone marrow

Question 20

What is central tolerance also known as?

Answer 20

Negative selection

Question 21

What is central tolerance?

Answer 21

Process of eliminating any developing T or B cells that are reactive to self-antigens

Question 22

Does central tolerance deal with mature or immature lymphocytes?

Answer 22

Immature

Question 23

Does peripheral tolerance deal with mature or immature lymphocytes?

Answer 23

Mature

Question 24

What is peripheral tolerance?

Answer 24

Mature lymphocytes that recognise self-antigens in peripheral tissues become incapable of activation by re-exposure to that antigens or die by apoptosis

Question 25

Explain how peripheral tolerance works?

Answer 25

• An important mechanism for the induction of peripheral tolerance is antigen recognise without co-stimulation or “second signals”
• Also maintained by regulatory T cells (Tregs) that actively suppress activation of lymphocytes specific for self and other antigens
• Some self-antigens are sequestered from immune system, and other antigens are ignored
  
  • Antigens may be sequestered from immune system by anatomic barriers, such as in testes and eyes, and this cannot engage antigen receptors

Question 26

What are some organs where antigens may be sequestered from the immune system?

Answer 26

By anatomical barriers in testes and eyes so cannot engage antigen receptors

Question 27

What are some mechanisms of peripheral tolerance?

Answer 27

• Anergy (functional unresponsiveness)
• Treg suppression
• Deletion (cell death)

Question 28

What is anergy in peripheral tolerance?

Answer 28

Functional unresponsiveness

Question 29

What is deletion in peripheral tolerance?

Answer 29

Cell death (apoptosis)

Question 30

What cell is responsible for performing peripheral tolerance?

Answer 30

Dendritic cell

Question 31

What happens in central tolerance?

Answer 31

• Immature lymphocytes specific for self antigens may encounter these antigens in generative (central) lymphoid organs and are
  
  • Deleted, change their specificity (B cells only) or develop into regulatory lymphocytes called Tregs (only CD4+ T cells can do this)

Question 32

What happens in peripheral tolerance?

Answer 32

• Some self-reactive lymphocytes may mature and enter peripheral tissues and may be inactivated or deleted by encounter with self-antigens in these tissues or are suppressed by regulatory T cells (Tregs)
• Note that T cells recognise antigens presented by antigen-presenting cells (APCs)

Question 33

In central tolerance, what are the only cells that can develop into regulatory lymphocytes called Tregs?

Answer 33

Helper T cells (CD4+ T cells)

Question 34

What are helper T cells also known as?

Answer 34

CD4+ T cells

Question 35

What are cytotoxic T cells also known as?

Answer 35

CD8+ T cells

Question 36

In central tolerance, what are the only cells that can have their specificity changed?

Answer 36

B cells

Question 37

How can peripheral tolerance be overcome?

Answer 37

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

Question 38

When is peripheral tolerance more likely to be overcome?

Answer 38

When inflammation or tissue damage is present due to increased activity of proteolytic enzymes which can cause intra and extra-cellular proteins to be broken down

Question 39

Why is peripheral tolerance more likely to be overcome when inflammation or tissue damage is present?

Answer 39

Increased activity of proteolytic enzymes causes intra and extra-cellular proteins to be broken down:

• leading to high concentrations of peptides being presented to responsive T cells
• structures of self-peptides may be altered by viruses, free radicals or ionising radiation thus bypassing previously established tolerance

Question 40

Almost all types of autoimmune disease are more prevalent in woman, what is an example of one that is more prevalent in en?

Answer 40

Ankylosing spondylitis

Question 41

What are the 2 types of autoimmune disease?

Answer 41

Non-organ specific autoimmune disease

Organ-specific autoimmune disease

Question 42

How does non-organ and organ specific autoimmune disease differ?

Answer 42

Non-organ specific affects multiple organs, being associated with autoimmune responses against self-molecules that are widely distributed throughout the body

Organ specific is restricted to one organ, which is usually an endocrine gland

Question 43

What molecules does non-organ specific autoimmune disease affect?

Answer 43

Intracellular molecules involved in transcription and translation

Question 44

What are some genetic factors of autoimmune disease?

Answer 44

Clusters within familes

Alleles of MHC (major histocompatibility complex)

Question 45

What is the major histocompatible complex (MHC)?

Answer 45

Set of genes that code for cell surface proteins essential for the acquired immune system to recognize foreign molecules in vertebrates, which in turn determines histocompatibility

Question 46

What are some environmental factors of autoimmune disease?

Answer 46

• Infections
  
  • Molecular mimicry
  • Upregulation of co-stimulation
  • Antigen breakdown and presentation changes
• Drugs
  
  • Molecule mimicry
  • Genetic variation in drug metabolism
• UV radiation
  
  • Trigger for skin inflammation
  • Modification of self-antigen

Question 47

How does infection cause autoimmune disease?

Answer 47

• Molecular mimicry
• Upregulation of co-stimulation
• Antigen breakdown and presentation changes

Question 48

How do drugs cause autoimmune disease?

Answer 48

• Molecule mimicry
• Genetic variation in drug metabolism

Question 49

How does UV radiation cause autoimmune disease?

Answer 49

• Trigger for skin inflammation
• Modification of self-antigen

Question 50

What is molecular mimicry?

Answer 50

Possibility that sequence similarities between foreign and self-peptides are sufficient to result in the cross-activation of autoreactive T or B cells by pathogen-derived peptides

Question 51

What is co-stimulation?

Answer 51

Secondary signal which immune cells rely on to activate an immune response in the presence of an antigen-presenting cell. In the case of T cells, two stimuli are required to fully activate their immune response.

Question 52

What does DC stand for?

Answer 52

Dendritic cell

Question 53

Describe the role of infection in development of autoimmunity?

Answer 53

Microbes may activate the APC to express co-stimulators, and when these APCs present self-antigens the self reative T cells are activated rather than rendering tolerance

or some microbial antigens may cross-ract with self antigens (molecular mimicry), initiating an immune response that may activate T cells specific for self antigens

Question 54

What are some examples of microbial antigens that can cause molecular mimicry?

Answer 54

Question 55

Explain the genetic susceptibility to autoimmunity?

Answer 55

Question 56

What does APC stand for?

Answer 56

Antigen presenting cell

Question 57

What are some general treatments of autoimmune disease?

Answer 57

• Suppression of the damaging immune response
  
  • Before irreversible tissue damage
  • Early detection is the challenge
  • Problem with specificity of treatments and toxicity
• Replacement of the function of the damaged organ
  
  • Used for hypothyroidism and insulin dependent diabetes mellitus

Question 58

What is diabetes?

Answer 58

Abnormal metabolic state characterised by glucose intolerance due to inadequate insulin access

Question 59

What are the 2 main types of diabetes?

Answer 59

Type 1 diabetes

Type 2 diabetes

Question 60

Does T1 and T2 diabetes have a juvenile onset or a mature onset?

Answer 60

T1 - juvenile

T2 - mature

Question 61

What pathology causes T1 diabetes?

Answer 61

Destruction of beta cells (probably due to viral infection and genetic factors)

Question 62

What pathology causes T2 diabetes?

Answer 62

Defective insulin access

Question 63

What are some examples of complications of diabetes?

Answer 63

Accelerated atherosclerosis

Susceptability to infection

Microangiopathy affecting many organs

Question 64

What part of the pancreas forms the endocrine pancreas?

Answer 64

Islet of Langerhans

Question 65

What percentage of the total pancreas mass is composed of the endocrine pancreas (Islet of Langerhans)?

Answer 65

1%

Question 66

What are the 4 cell types present in Islet of Langerhans?

Answer 66

Question 67

What cell type is most prevalent in Islet of Langerhans?

Answer 67

Beta cells

Question 68

What do beta cells secrete?

Answer 68

Insulin

Question 69

What do alpha cells secrete?

Answer 69

Glucagon

Question 70

What do delta cells secrete?

Answer 70

Somatostatin

Question 71

What do pancreatic polypeptide cells secrete?

Answer 71

Pancreatic polypeptide

Question 72

What are the actions of insulin?

Answer 72

Question 73

What are the actions of glucagon?

Answer 73

Question 74

What are the actions of somatostatin?

Answer 74

Question 75

What is the function of pancreatic polypeptide?

Answer 75

Question 76

Is the prevalence of diabetes increasing or decreasing?

Answer 76

Increasing

Question 77

What is type 1 diabetes also known as?

Answer 77

Insulin dependent diabetes

Question 78

What is type 2 diabetes also known as?

Answer 78

Insulin independent diabetes

Question 79

Explain the aetiology of T1 diabetes?

Answer 79

Autoimmune destruction:

• Circulatory antibodies to islet cells
• Patients prone to develop other organ specific autoimmune diseases

Genetic factors:

• Association with certain HLA types
• Environmental factors play a role to

Viral infection:

• Antibodies to certain viruses are high in patients
• Viruses may act as triggers for autoimmune destruction
  
  • Coxsackie B
  • Mumps

Question 80

What genetic factors impact the aetiology of T1 diabetes?

Answer 80

Association with certain HLA types

Question 81

What viruses may trigger T1 diabetes?

Answer 81

Coxsackie B

Mumps

Question 82

What are some complications of T1 diabetes?

Answer 82

Question 83

What does the thyroid gland synthesis?

Answer 83

T3 and T4

Question 84

What is the production of T3 and T4 under the negative feedback off?

Answer 84

TSH (from anterior pituitary)

Question 85

What are some examples of thyroid diseases?

Answer 85

• Secretory malfunction
  
  • Hyperthyroidism
  • Hypothyroidism
• Swelling of the entire gland
  
  • Goitre
• Solitary masses
  
  • Nodular goitre
  • Adenoma
  • Carcinoma

Question 86

What do C-cells in the thyroid gland secrete?

Answer 86

Calcitonin

Question 87

What are the follicles of the thyroid gland lined by?

Answer 87

Cuboidal cells

Question 88

In terms of T3, T4 and TSH, what is hyperthyroidism due to?

Answer 88

Excess T3 and T4, very rarely due to excess TSH

Question 89

What is the most common cause of hyperthyroidism?

Answer 89

Grave’s disease

Could also be due to functioning adneoma, but not as likely

Question 90

What can cause hyperthyroidism?

Answer 90

• Graves thyroiditis
• Functioning adenoma
• Toxic nodular goitre
• Exogenous thyroid hormone (rare)
• Ectopic secretion by ectopic thyroid tissue or tumours

Question 91

What are the signs and symptoms of hyperthyroidism?

Answer 91

Question 92

What is the most common cause of thyrotoxicosis?

Answer 92

Grave’s thyroiditis

Question 93

What is grave’s thyroiditis usually associated with?

Answer 93

Diffuse goitre

Question 94

What are 2 kinds of goitre?

Answer 94

Diffuse goitre

Nodular goitre

Question 95

What is diffuse goitre?

Answer 95

Entire thyroid gland swells up and is smooth to touch

Question 96

What is nodular goitre?

Answer 96

Lumps called nodules develop in the thyroid

Question 97

Histologically, what is observed in Grave’s thyroiditis?

Answer 97

• Hyperplasia of the acinar epithelium
• Reduction of stored colloid
• Local accumulation of lymphocytes with lymphoid follicle formation

Question 98

Explain the pathogenesis of Grave’s thyroiditis being an organ specific autoimmune disease?

Answer 98

• Autoantibody (IgG) (LATS) which binds to the thyroid epithelial cells and mimics the action of TSH
• LATS stimulates the function and growth of thyroid follicular epithelium
• Exophthalmos, pretibial myxoedema (accumulation of mucopolysaccharides in the deep dermis of skin) and finger clubbing

Question 99

What autoantibody is responsibly for Grave’s thyroiditis?

Answer 99

Long acting thyroid stimulating immunoglobin (LATS)

Question 100

What is the most common cause of hypothyroidism?

Answer 100

Hashimoto thyroiditis which is an autoimmune disorder

Question 101

What is a congenital cause of hypothyroidism?

Answer 101

Cretinism

Question 102

What is the clinical presentation of hypothyroidism?

Answer 102

Question 103

What is cretinism?

Answer 103

When hypothyroidism is present in new-born, physical growth and mental development is impaired, sometimes irreversibly

Question 104

What is the cause of cretinism when its endemic in areas and when it is sporadic?

Answer 104

Endemic - insufficient iodine for thyroid hormone synthesis

Sporadic - congenital absence of thyroid tissue, or to enzyme defects blocking hormone synthesis

Question 105

What does Hashimoto’s thyroiditis cause?

Answer 105

May initially cause thyroid enlargement, but later there may be atrophy and fibrosis

Cause hypothyroidism (most common cause)

Question 106

What can happen in the early stages of Hashimoto’s thyroiditis that contradicts it causing hypothyroidism?

Answer 106

Damage to thyroid follicles may lead to release of thyroglobulin causing a transient phase of thyrotoxicosis

Question 107

Explain the histology of Hashimoto’s thyroiditis?

Answer 107

• Densely infiltration by lymphocytes and plasma cells, with lymphoid follicle formation
• Colloid content is reduced
• Thyroid epithelial cells show a characteristic change in which they enlarge and develop eosinophilic granular cytoplasm due to proliferation of mitochondira (termed Askanazy cells, Hurthle cells or oncocytes)
• In advanced cases, may be fibrosis

Question 108

Is Hashimoto’s thyroiditis an organ specific or non-organ specific autoimmune disease?

Answer 108

Organ specific autoimmune disease

Question 109

What are the two antibodies that can be detected in the serum of most patients with Hashimoto’s thyroiditis?

Answer 109

One reacting with thyroid peroxidase

Other reacting with thyroglobulin

Question 110

What is the genetic link to Hashimoto’s thyroiditis?

Answer 110

HLA genes

Question 111

Does Hashimoto’s thyroiditis affect more males or females?

Answer 111

Females

Question 112

What are autoimmune polyendocrine syndromes?

Answer 112

Diverse group of conditions characterised by functional impairment of multiple endocrine glands due to loss of immune tolerance

Question 113

What are examples of conditions frequently included in autoimmune polyendocrine syndromes?

Answer 113

Alopecia

Celiac disease

Autoimmune gastritis with vitamin B₁₂ deficiency that affects nonendocrine organs

Question 114

What is the pathophysiology of autoimmune polyendocrine syndromes?

Answer 114

• Circulating autoantibodies and lymphocytic infiltration of the affected tissues or organs
• Eventually leading to organ failure

Question 115

How do the components of autonomic polyendocrine syndrome change throughout life?

Answer 115

Can occur in patients from early infancy to old age

New components to a syndrome can appear throughout life

Question 116

What is the aetiology of autoimmune polyendocrine syndromes?

Answer 116

Combination of genetic susceptibility and environmental factors

Question 117

What are the different autoimmune polyendocrine syndromes?

Answer 117

APS-1

APS-2

IPEX

Question 118

What does APS stand for?

Answer 118

Autoimmune polyendocrine syndrome

Question 120

What is APS-1 also known as?

Answer 120

Autoimmune polyendocrinopathy-candidiasis

Question 121

What is APS-1?

Answer 121

Rare autosomal recessive disease caused by mutations in the autoimmune regulatory gene (AIRE)

Question 122

What is the estimated prevalence of APS-1?

Answer 122

1:100000

Question 123

What are the clinical features of APS-1?

Answer 123

• At least 2 of 3 cardinal components during childhood
  
  • Chronic mucocutaneous candidiasis
  • Hypoparathyroidism
  • Primary adrenal insufficiency (Addison’s disease)
• Other typical components
  
  • Enamel hypoplasia
  • Enteropathy with chronic diarrhoea or constipation
  • Primary ovarian insufficiency
• Less frequent components
  
  • Bilateral keratitis
  • Periodic fever with rash
  • Autoimmunity induced hepatitis, pneumonitis, nephritis, exocrine pancreatitis and functional asplenia
• Rare findings
  
  • Retinitis
  • Metaphyseal dysplasia
  • Pure red cell aplasia
  • Plyarthritis

Question 124

APS-1 must have at least 2 of what 3 components during childhood?

Answer 124

• Chronic mucocutaneous candidiasis
• Hypoparathyroidism
• Primary adrenal insufficiency (Addison’s disease)

Question 125

Is APS1 or APS2 more common?

Answer 125

APS-2

Question 126

APS-2 is characterised by 2 of what 3 components?

Answer 126

• Type 1 diabetes
• Autoimmune thyroid disease
• Addison’s disease

Question 127

Is APS-2 more common in men or woman?

Answer 127

Woman

Question 128

APS-2 is characterised by at least 2 of type 1 diabetes, autoimmune thyroid disease and Addison’s disease. What are some other autoimmune conditions that can develop?

Answer 128

• Celiac disease
• Alopecia, vitiligo
• Primary ovarian insufficiency
• Pernicious anaemia

Question 129

When does the onset of APS-2 usually occur?

Answer 129

Young adulthood, later than APS-1

Question 130

Which of APS1 and APS2 usually has the later onset?

Answer 130

APS-2, which occurs in early adulthood

Question 131

What does IPEX stand for?

Answer 131

X-linked immunodysregulation, polyendocrinopathy and enteropathy

Question 132

What is IPEX characterised by?

Answer 132

• Early onset type 1 diabetes
• Autoimmune enteropathy with intractable diarrhoea and malabsorption
• Dermatitis that may be eczematiform, icthyosiform or psoriasiform

Question 133

What are the different manifestations of dermatitis in IPEX?

Answer 133

Eczematiform, icthyosiform or psoriasiform

Question 134

What in the blood is frequently elevated in IPEX?

Answer 134

Eosinophils and IgE levels

Question 135

What are some later manifestations of IPEX?

Answer 135

• Autoimmune thyroid disease
• Alopecia
• Various autoimmune cytopenias
• Hepatitis
• Exocrine pancreatitis

Question 136

What is the treatment of IPEX?

Answer 136

If often fatal in first few years unless treated with immunosuppresive agent or if possible, with allogeneic bone marrow transplantation which can cure the disease