Lecture 30 - Immunopathology

Question 1

Give an overview of the hypersensitivities

Answer 1

Type I:
• Ab mediated
• Immediate hypersensitivities
• “Allergies”

Type II:
• Ab mediated
• Ab against cell-bound or ECM Ag
• Often linked to autoimmunity

Type III:
• Ab mediated
• Immune complex
• Often linked to autoimmunity

Type IV:
• T cell mediated
• Delayed type Hypersensitivity

Question 2

What are the triggers of Type I hypersensitivity?

Answer 2

Harmless environmental antigens
 • Pollen
 • Dust-mites
 • Cat dander
etc.

Question 3

Describe atopy

Answer 3

Genetically determined tendency to produce IgE in response to environmental angitens

• High levels of IgE
• Large n° of eosinophils
• Large numbers of Th2 cells secreting IL-4

Question 4

Describe exposure to allergens

Describe the outcome of this

Answer 4

Usually through mucosal route:
• Inhaled
• Ingested

Allergens:
• Highly soluble: meaning it’s easy for them to get into the bodily tissues
• Very stable
• Introduced in very low doses

As a consequence, allergens induce a Th2 response

Question 5

What are the different types of Type I hypersensitivity?

Answer 5

• Systemic anaphylaxis
• Allergy rhinitis (Hay fever)
• Asthma (acute, chronic)
• Food allergies

Question 6

What are the phases of Type I hypersensitivity?

Answer 6

1. Sensitisation
2. Response
   a. Local, immediate (common)
   b. Systemic, late (uncommon)

Question 7

Describe the Der p 1 story

Answer 7

1. Der p 1 in airway, cleaves occluding in tight junctions and crosses mucosa
2. Taken up by DCs
3. Drainage to LNs
4. Activation of naïve T cells → Th2 phenotype
5. Th2 ‘help’ B cells in the follicle to make IgE (specific for der p 1)
6. Plasma cells travel back to mucosa
7. Secretion of IgE at the site
8. IgE bind to Mast cells via Fc(ε)R

– re-encounter of Der p 1 antigen –

9. Der p 1 crosses mucosa again and cross links on mast cells
10. Degranulation → symptoms

Question 8

Which cytokines released by Th2 cells skews B cell responses to IgE?

Answer 8

IL-4, IL-13

Question 9

Describe the response after mast cell degranulation

Answer 9

Granule contents:
• Histamine

Newly formed mediators:
1. Lipid mediators
 • Prostaglandin
 • Leukotrienes
2. Cytokines
 • IL-3
 • IL-4
 • IL-5
 • IL-13

Physiological effects:
1. GIT
 • Increased fluid secretion
 • Increased peristalsis
→
 • Diarrhoea
 • Vomiting

2. Airways
 • Decreased diameter
 • Increased mucous secretion
→
 • Wheezing
 • Coughing
 • Sputum

3. Blood vessels
 • Increased blood flow
 • Increased vascular permeability
→
 • Increased cells, protein and fluid in tissue

Question 10

What are the major GIT symptoms of allergy?

Answer 10

Diarrhoea and vomiting

Question 11

Compare the immediate and the late phases in a diagnostic setting

Answer 11

→ Intradermal antigen skin pricks

1. Immediate:
 • Redness (vasodilation)
 • Soft swelling (oedema)
 • Dependent on IgE
Due to:
 • Preformed mediators released from mast cells

2. Late:
 • Hard swelling, induration (leukocyte accumulation)
 • Cellular infiltrate: neutrophils, Th2 cells, eosinophils
 • Smooth muscle contraction
Due to:
Newly formed mediators:
 • Chemokines
 • Cytokines
 • Leukotrienes

Question 12

What is the ‘wheal and flare’ reaction?

Describe it

Answer 12

This is the immediate phase

Increased vascular permeability and dilation
→
Wheal: Localised swelling around site of challenge
Flare: Further dilation and engorgement of blood vessels in area

Question 13

What is the time frame for the late stage response?

Answer 13

8-12 hours

Question 14

Describe Type II hypersensitivity

• Outcomes

Answer 14

Abs bind to host antigens

Outcomes:
1. Injury due to activation of effector mechanisms
 • C' activation
 • Recruitment of inflammatory cells
 • Activation via Fc receptor

2. Abnormal physiological response (Graves, Myasthenia Gravis)
   • Ab bind to receptors or proteins on host cells, interfering with their function:
   • Activation / inhibition

Question 15

Describe haemolytic disease of the newborn

Answer 15

Preformed maternal IgG Ab against child’s Rhesus antigen on RBCs

Rh- mother, Rh+ child

– First child –

1. Baby’s RBC enter maternal circulation during delivery
2. Anti-Rh Ab produced

– Second child –

3. Maternal anti-Rh Ab crosses placenta
4. C’ activation
5. Removal of RBCs from foetus’ blood

Question 16

What is the treatment for haemolytic disease?

Answer 16

Administer mother with anti-Rh Ab within first 24hrs after delivery

Removes foetal RBC from mother before mother can make her own anti-Rh Ab

Question 17

Describe Type III Hypersensitivity

When does it occur?
What does it depend on?

Answer 17

Formation of Ab:Ag complexes

Antigen may be self or foreign

Occurs if immune complexes are:
• Excessive produced
• Inefficiently cleared

Depends on:
• Size and amount
• Affinity and isotope of Ab

Pathology depends on:
• Where complexes deposit
e.g. SLE: kidney glomeruli

Question 18

Describe normal removal of Immune complexes

Answer 18

1. Immune complexes comprised of high affinity IgG trigger C’
2. C3b bound to immune complexes
3. Resident macrophages in the spleen binds C3b with CR
4. Phagocytosis

Question 19

Which class of Ig is needed to fix complement on immune complexes?

Answer 19

High affinity IgG

Question 20

When might immune complexes not be cleared?

Describe what happens then

Answer 20

• Ag excess
• Low affinity Ab
• Inefficient C’ activation

1. Deposition on vessel walls
2. Increase in concentration over time
3. Eventual C’ activation:
   → Anaphylatoxin production (C3a, C5a)
   → Inflammatory cell recruitment: neurophil, mast cell degranulation
   → Macrophage cytokine release
   → Immune complexes directly activate platelets
   → Vasoactive amines; increased vascular permeability

Question 21

What are the clinical syndromes due to immune complex mediated damage?

Describe where the immune complexes are being deposited in each

Answer 21

Vasculitis
• Deposited on vessel walls

Glomerulonephritis
• Deposited on basement membrane in glomerulus

• Arthritis
• Deposition in joint synovium and vessels

Question 22

Describe Type IV hypersensitivity

What can elicit it?

Answer 22

“Late type hypersensitivity” - DTH

“When the organism, or stimulating agen persists, T cells and macrophages accumulate at the antigen site in large numbers and result in pathology”

T Cell mediated
• + some macrophages
• Classically Th1, but also CTLs

Elicited by:
• Microbial infections: M. tuberculosis
• Intradermal injection of protein antigens
• Contact with chemicals absorbed through skin

Question 23

Describe the stages of the DTH reaction

Answer 23

1. Antigen injected into subcutaneous tissue
2. Processing and presentation by local APCs
3. Th1 effectors cells recruited to site and recognise Ag
4. Cytokine release, some act on vascular endothelium
5. Cellular infiltrate: phagocytes
6. Visible lesions on skin

Question 24

Why is Type IV called delayed type?

Answer 24

Because it involves recruitment of cells to the tissue where Ag is located

This takes up to 72 hours

Question 25

Describe the roles of the various cytokines release by Th1 in the DTH reaction

Answer 25

1. Chemokines
   • Recruitment of macrophages
2. IFN-γ
   • Expression of vascular adhesion molecules
   • Macrophage activation
3. TNF-α and LT (TNF-β)
   • Expression of vascular adhesion molecules
   • Local tissue destruction
4. IL-3/GM-CSF
   • Monocyte production in BM from stem cells

Question 26

Describe how contact sensitising agents can elicit a DTH reaction

Answer 26

1. Contact sensitising agent penetrates the skin and binds to self proteins (aka haptenated self proteins)
2. Complex taken up by Langerhans cells or DCs
3. DC presentation of contact sensitising agents
4. Th1 cell activation: IFN-gamma and other cytokine secretion

6. Activated keratinocytes secrete cytokines and chemokines:
 • IL-1
 • TNF-alpha
 • CXCL8
 • CXCL11
 • CXCL9

7. All these mediators activate macrophages to secrete mediators of inflammation

Question 27

List some pathogens and antigens that induce DTH

Answer 27

Bacteria:
• M. tuberculosis
• M. leprae

Pathogens:
• Actinomyces
• Leishmania sp
• Schistosoma sp

Viruses:
• HBV
• HCV

Antigens:
 • Picrylchloride
 • Hair dyes
 • Nickel salts
 • Poison ivy: Pentadecacatechol
 • Thiomersol

Question 28

What are the subtypes of Type IV hypersensitivities?

Answer 28

1. Contact sensitivities
   • e.g. Poison ivy, Adhesives, TB test
   • Previous sensitisation
   • Upon re-exposure central and effector memory cells are triggered
2. M. tuberculosis
   • Intracellular pathogen that resides in macrophages and resists killing
   • CD4+ T cells stimulate macrophages to kill M. tuberculosis through IFN-gamma production

Question 29

Describe the mechanism of DTH with a regular antigen

Answer 29

– Sensitisation –

1. Uptake of Ag in skin into DCs
2. DCs draining to LNs
3. Antigens presented to T cells in paracortex
4. Th1 drain out of LNs into circulation, migrate back to site of Ag exposure
5. Clearance of antigen

– Re-exposure –

6. Reactivation of effector and memory T cells against Ag
7. Cytokine, IFN-gamma, production
8. Large numbers of macrophages recruited
9. Excessive inflammation

Question 30

Describe the Mantoux test
• Procedure
• What it tells us

Answer 30

Test for reveal M. tuberculosis exposure that utilises the DTH reaction

1. Purified protein deviated (tuberculin) from M. tuberculosis
2. Intradermal injection

– if there has been previous exposure –

3. 48-72 hrs later, activated, memory T cells have migrated to injection site: inflammation, induration

Mantoux test measures exposure to Mtb, not immunity!
• May have been infected, and bacterium is cleared
• May have been infected, and are still chronically infected

Question 31

What pathological feature is observed in M. tuberculosis infection?

Answer 31

Granulomas
• Multinucleated giant cells
• Formed from frustrated activated macrophages

Question 32

Describe the process of M. tuberculosis infection

Answer 32

1. Inhalation of tuberculosis laden droplet nuclei
2. Multiplication in resident alveolar MF
3. Activation of MF:
   • cytokine and chemokine prodn: IL-12, TNFalpha, IL-1
   • Monocyte influx
4. Limited killing / degradation of bacterium
5. DCs take up Ag from bacterium
6. DCs migrate to LNs
7. Presentation of Mtb Ag to T cells, IL-12 signalling
8. Skewing to Th1 response
9. Activated CD8+ T cells and Th1 migrate back to site
10. Further activation of macrophages by these IFN-gamma producing cells that have just migrated (Th1, CTLs)
11. Bacterium still isn’t killed
12. Formation of granulomas
    • Limits spread of bacteria

Question 33

Which cytokine is important for Th skewing to Th1 in DTH?

Answer 33

IL-12