14 Lung Immunology and Allergic Disease Airway

Question 1

Q: Disease of upper airways? of bronchi? of alveoli?

Answer 1

A: Allergic rhinitis
asthma
allergic alveolitis

Question 2

Q: What is hypersensitivity? 2 types?

Answer 2

A: exaggerated response

1. immunological - “allergies”
2. non immunological (no immune mechanism)

Question 3

Q: 2 types of immunological hypersensitivity? 4 examples.

Answer 3

A: Non-IgE-mediated allergic diseases
(e.g. Farmers lung)

IgE-mediated = atopic diseases

• hayfever
• eczema
• asthma

Question 4

Q: 3 types of non-immunological hypersensitivity? Example for each.

Answer 4

A: Intolerance (e.g.food)

Enzyme deficiency (e.g.lactase DH def)

Pharmacological e.g. Aspirin hypersensitivity

=> don’t have immune mechanism

Question 5

Q: What is allergy?

Answer 5

A: Allergy is an exaggerated (inappropriate) immunological response to a foreign substance (allergen) which is either inhaled, swallowed, injected, or comes in contact with the skin or eye

hypersensitivity

Question 6

Q: Allergy. Mechanism or disease?

Answer 6

A: Allergy is a mechanism (not a disease)

Allergic mechanisms play an important role in some diseases all the time, and in others for some of the time

Question 7

Q: How can adaptive immunity generally be split? How is allergy referred to? What molecule does it revolve around?

Answer 7

A: Th1 and Th2

Th2 gone wrong / uneducated Th2 immunity

IgE

Question 8

Q: Th1 mediated responses are launched against which 4 pathogens? Which cells are involved? (3) Which Ig? (3)

Answer 8

A: Viruses, bacteria, fungi, protozoa

Th17 cells, NK cells, cytotoxic T cells

IgM, IgA and IgG antibody subclasses

Question 9

Q: Th2 mediated responses are launched against which 2 pathogens? Which cells are involved? (5) Which Ig? (2)

Answer 9

A: helminths (“worms”), ectoparasites (“ticks”) = multicellular

innate lymphoid cells, eosinophils, mast cells, basophils, activated macrophages

IgE and IgG1 antibodies epithelial barriers,

Question 10

Q: What are the 2 phases of an allergic reaction? Describe each pathway.

Answer 10

A: acute and chronic phases of allergic reaction

• Allergen -> IgE antibody coating mast cell -> mast cell degranulation (and histamine produced) -> acute symptoms of allergy
• Same allergen -> APC -> Th2 cytokines and chemokines -> chronic symptoms of allergy

Question 11

Q: How does an allergen produce acute symptoms of allergy? (7) How long do these symptoms last?

Answer 11

A: 1. if you’re allergic: identifies correctly as foreign but inappropriate response -> results in IgE production through help of Th2

2. IgE will go in blood-> bind to granulocytes -> mast cells (in tissues- gut, lung, muscousal surfaces, skin) -> stay bound for long time)

MAST CELLS= EARLY PHASE

3. and basophils (in periphery in blood)
4. body will continue to make IgE antibody
5. next time that specific antigen is encountered-> allergen will crosslink IgE on surface of mast cells
6. -> mast cell undergoes immediate enzymatic reactions -> degranulate
7. substance of granules made= responsible for acute symptoms of allergy that last minutes/hours (molecules locally effect eg by causing inflammation eg histamines)

Question 12

Q: How does IgE bind to mast cells? How long do they stay bound?

Answer 12

A: IgE will bind to mast cells via receptor: high affinity receptor for IgE= FC epsilon R1 (FCER1) -> stay there for months (very long lasting)

Question 13

Q: What happens the second time you encounter allergens? (3) Called? How long does it take?

Answer 13

A: 1. allergen coming 2nd time will also bind to other receptors and do other things

2. APC activates Th2 cells -> replicates -> produces Th2 cytokines and chemokines
3. -> Chronic symptoms of allergy (takes hours, days) = late allergic reaction

T CELL= LATE PHASE

Question 14

Q: What do Th2 cells produce? (4) What do they each do? Which 2 are related to asthma?

Answer 14

A: IL-4 -> IgE synthesis (class switching of B cells to make IgE)

IL-5 -> Eosinophil development (can be a target for asthmatics)

IL-9 -> Mast cell development

IL-13 -> IgE synthesis + Airway Hyperresponsiveness + airway remodelling in asthma

Question 15

Q: What does atopy mean? What is it? Name 3 atopic diseases.

Answer 15

A: Atopy means out of place (something inappropriate)

Atopy is the hereditary predisposition to produce IgE
antibodies against common environmental allergens

Question 16

Q: Name 3 atopic diseases. Characterisation?

Answer 16

A: allergic rhinitis, asthma and atopic eczema

allergic tissue reactions (in atopic subjects) are
characterised by infiltration of Th2 cells and eosinophils

Question 17

Q: Atopy and allergy. (3)

Answer 17

A: atopy just means there’s IgE in blood

allergy is the biological response/ outcome of atopy

can be atopic and not allergic

Question 18

Q: What does the term allergic march describe? Process (4). What’s the idea? But?

Answer 18

A: describing the common progression of atopic diseases from atopic dermatitis to allergic asthma

1. food allergy occurring in young infants
2. could develop into atopic dermatitis
3. or asthma
4. or allergic rhinitis

idea if you stop food allergies when you’re young you can stop further diseases

The ’allergic march‘ is probably wrong,
observable at population level but not at an
individual level

Question 19

Q: What is rhino-conjunctivitis? How many people does it affect? Also known as? General effect on?

Answer 19

A: (rhinitis)

allergic disease of the upper airway (nose and throat)

up to 17% of population

seasonal allergic conjunctivo-rhinitis: hay fever (pollens in summer etc.) -> vary allergen year round

QoL

Question 20

Q: What are common causes of perennial allergic rhinitis

and asthma? (5)

Answer 20

A: -House dust mite

• cats
• dogs
• cockroach
• horses

Question 21

Q: What is asthma? What percentage of the population is affected? Severity?

Answer 21

A: disease of lower airways: lungs, trachea, bronci/oles, alveoli (can manifest in whole lung)

8-12%

heterogeneous disease

Question 22

Q: Symptoms of asthma? (5)

Answer 22

A: cough, shortness of breath, wheezing, chest tightness, secretions (more mucous)

Question 23

Q: How is asthma clinically differentiated? 3 groups.

Answer 23

A: based on control and severity (lots of phenotypes) and symptoms

• Intermittent , mild, allergy frequently important
• Persistent, manageable, allergy often important
• Chronic severe, uncontrolled by treatment

Question 24

Q: Asthma treatment (2).

Answer 24

A: bronchodilators

could be on steroids

Question 25

Q: Another way to differentiate asthma not based on control? 3 groups. May not have?

Answer 25

A: looking at mechanisms behind it // Based on endotype or endo-phenotype

• allergic, atopic or eosinophilic asthma
• neutrophilic asthma
• exercise induced asthma

may not have evidence of eosinophils or Th2 pathway

Question 26

Q: How do bronchi differ in healthy and asthmatic individuals? (6)

Answer 26

A: - bronchoconstriction- smooth muscle is contracted

• more smooth muscle due to remodelling (over long time)
• more mucous secreting cells (goblet)
• sometimes get denuded epithelium
• can get mucous plug and
• inflammation

Question 27

Q: What is extrinsic allergic alveotitis? What percentage of the population is affected? Mechanism? (4)

Answer 27

A: disease of alveoli (and small airways)

0.1%

1. all to do with inhaling small parts of allergen (less than 5 microns)
2. penetrate to the distal airways and end up in alveoli
3. allergen/antigen comes into contact with antibodies-> complex
4. can enter pulmonary capillary and activate various parts of immune system

Question 28

Q: Example of extrinsic allergic alveolitis? (5)

Answer 28

A: farmers lung (to do with mouldy hay)
Bird Fancier’s lung (Bird Droppings and feathers)
Air Conditioner lung (Air conditioner moulds)
Millers lung (infested flour)
Hot tub lung (Bacterial contamination)

Question 29

Q: In what way can allergies manifest themselves in a serious way? (2) Symptoms? (8)

Answer 29

A: immediate/ general anaphylaxis
= a systemic allergic reaction

• dizziness, seizures, loss of consciousness
• lip, tongue swelling
• laryngeal oedema
• bronchoconstriction
• tingling in extremeties
• urticarial/ hives
• vomiting, diarrhoea, pain
• arrhythmia, anxiety

Question 30

Q: What can cause anaphylaxis? (4)

Answer 30

A: -Drugs, such as penicillin
-Foods such as peanuts, tree nuts (walnuts, pecans)
milk, eggs, fish, shellfish, sesame seeds, soybeans,
celery, celeriac
-Insect stings from bees, wasps, hornets
-Latex

Question 31

Q: Anaphylaxis treatment? result?

Answer 31

A: epinephrine pen (adrenaline)-> relieves lots of immediate symptoms

Question 32

Q: Prevalence of allergic diseases? Why? Hypothesis.

Answer 32

A: on the increase

relationship between environment and genes (need both)

hygiene hypothesis:

1. immunologically naive individual
2. FACTOR A: genetic predispositon
3. FACTOR B: germ free environment, no siblings, lots of antibiotics, vaccinations, industrialised society
4. go on to have atopic Th2 response-> asthma

Question 33

Q: What factors are associated with the changing incidence of asthma/allergy? Microbial (4).

Answer 33

A: Water sanitation (less oro-faecal water born infections)
Food quality (lack of fermenting bacteria, more processed foods)
Poverty (high asthma rates in the urban underprivileged)
Medical interventions (antibiotics in childhood, possibly certain vaccinations)

Question 34

Q: What factors are associated with the changing incidence of asthma/allergy? Non-microbial (6).

Answer 34

A: Pollution (air, water, food)
Diet and nutrition (lack of Vit D, fish oil, omega 3 fatty acids, trace elements)
Obesity (may cause chronic inflammation)
Climate change (high pollen counts)
Stress (linked to chronic inflammation)
Genetics/epigenetics

Question 35

Q: What are the principles of treatment of allergic diseases?

Answer 35

A: - Allergen Avoidance

• Anti-allergic medication
• Immunotherapy (desensitisation/hyposensitisation)

Question 36

Q: What does desentitisation involve in terms of treating allergies? Advantages? (2) Disadvantages? (3)

Answer 36

A: giving small doses of allergen in controlled manner and training immune system

Effective
Produces long lasting immunity

Occasional severe allergic reaction-> hence need controlled environment
Time consuming (low doses over time)
Standardisation problems

Question 37

Q: Allergen-Specific Immunotherapy in the UK. (2)

Answer 37

A: Grass and tree pollen allergic rhinoconjunctivitis
uncontrolled by medication.

Bee or wasp sting anaphylaxis at risk for
repeated stings.

Question 38

Q: Mechanism of Allergen-Specific Immunotherapy.

Answer 38

A: could be several mechanisms

1. downregulation of Th2 response (less IgE, eosinophils etc)
2. upregulation of Th1 response
3. upregulation of regulatory T cells (act to do 1 and 2 either by direct contact or mediators eg IL-10)