Chapter 14: Allergic Diseases and Hypersensitivity Reactions

Question 1

What is a hypersensitive reaction? What are the four types and their mediators?

Answer 1

• Inappropriate or exaggerated immune response towards an innocuous antigen/allergen
• Type I mediated by IgE, Type II mediated by IgG or IgM, Type III immune complex mediated, Type IV T cell mediated

Question 2

What are type I allergic diseases?

Answer 2

• IgE mediated allergic reactions
• Usually occur due to a person becoming sensitive resulting in IgE production and production of memory B cells
• Atopy - Genetically based tendency to produce IgE mediated reactions
• All IgE mediated responses involve Mast-cell degranulated but symptoms vary based on route of entry

Question 3

Outline the steps involved in an allergic reaction.

Answer 3

1. Allergen is encountered and presents it to TH2
2. B cell is activated by TH2
3. B cell proliferates and produces plasma cells to secrete IgE
4. IgE binds to mast cells
5. Subsequent exposure results in allergic symptoms

Question 4

What causes allergens?

Answer 4

• No physical, chemical, or functional feature has been found that is common to all allergens
  
  • Many clinically significant Allergens are proteases
  • One ubiquitous protease allergen is cysteine protease Der p 1. Causes allergy to dust mites and is present in 20% of americans

Question 5

Outline the steps involved in Der p 1 eliciting an allergic reaction.

Answer 5

1. Der p 1 cleaves occludin in tight junctions and enter mucosa
2. Dendritic cell primes T cells in lymph node
3. IgE specific for Der p 1 travels to mucosa
4. Der p 1 specific IgE binds to mast cells triggering degranulation

Question 6

Do genetic factors contribute to IgE mediated allergic diseases?

Answer 6

Yes, many genes have an important role in dealing with asthma, T cell differentiation, and other functions

Question 7

What other factors contribute to IgE mediated allergic diseases?

Answer 7

Environment, children raised in rural settings are less likely to have allergic diseases than children raised in urban areas

Question 8

What are the two possible results of being exposed to an allergen?

Answer 8

Immediate reaction
- Due IgE mediated mast cells activation and starts within seconds
- Activity of histamine, prostaglandins, and other mediators that cause a rapid increase in vascular permeability and contraction of smooth muscle

Late phase reaction
- Due to continuous release of inflammatory mediators by mast cells and recruit eosinophils, basophils, neutrophils, monocytes, and lymphocytes
- Mediators include leukotrienes, chemokines, and cytokines
- Resistant to anti-histamines
- Can lead to chronic inflammatory response

Question 9

What is allergic rhinitis?

Answer 9

• IgE antibodies recruit signaling molecules which recruit inflammatory cells that secrete soluble mediators that can lead to sneezing congestion and more
  (IMAGE 10)

Question 10

Outline the steps involved in signal induction by FceRI

Answer 10

• Cross linking by receptor recruits and activates Syk tyrosine kinase
• Activation of PLC-y
• Generation of IP3 which releases calcium
• Cytosolic calcium Induces secretion of mast cell’s granules

Question 11

How does mast cells activation and granule release affect the gastrointestinal tract, Eyes, Nasal, and air passageway, and blood vessels?

Answer 11

Question 12

What molecules are released by the activation of mast cells?

Answer 12

• Enzymes, toxic mediators, Cytokines, chemokines, and lipid mediators

Question 13

What are the possible routes of entry for an allergen?

Answer 13

• Allergens can encounter connective tissue mast cells intravenously or subcutaneously
• Allergens can encounter mucosal mast cells via inhalation or ingestion

Question 14

What molecules can be released by eosinophils and basophils? what do they cause in an allergic reaction?

Answer 14

• Release ezymes, toxic proteins, Cytokines, chemokines, and lipid mediators
• Cause inflammation and tissue damage in allergic reactions

Question 15

Compare a normal airway and an asthmatic airway.

Answer 15

Normal:
- Thin layer of mucous and a low amount of mast cells and eosinophils under epithelial layer
- Good airflow with no blockage

Asthmatic:
- Mucous hypersecretion
- Eosinohil inflammation
- Restricted airway

Question 16

What leads to the differences that can be observed in someone with mild asthma vs chronic asthma?

Answer 16

• Increased mucus
• Increased fibrosis
• Increased inflammatory cells (CD4 and eosinophils
• Increased muscle thickness

Question 17

What happens when someone with hives encounters pollen or another allergen?

Answer 17

• Pollen enters the body and is taken up by mast cells resulting in the release of histamines which increases blood vessel impermeability resulting in redness and swelling

Question 18

What happens as lesions progress in individuals with eczema?

Answer 18

• Healthy skin gets reduced barrier function as barrier integrity is disrupted which leads to ILCs releasing inflammatory molecules

Question 19

How does an IgE mediated allergic reaction occur to food?

Answer 19

• Allergen is taken up by dendritic cell and eventually Mast cells will get IgE antibodies and it will cross link resulting in vasodilation

Question 20

What is anaphylaxis?

Answer 20

• Systematic allergic reaction
• Occurs when Allergens enter the bloodstream directly or when the allergen is rapidly absorbed by the gut (bee sting or eating food)
• Mast cells associated with blood vessels throughout the body are activated
• Acute urticaria occurs when the allergen is delivered to the skin from the blood stream
• Anaphylactic shock occurs due to widespread increase in vascular permeability and smooth muscle contraction
  
  • Drop in blood pressure
  • Constriction of airways

Question 21

What receptors does epinephrine target and what are the results?

Answer 21

Question 22

What can be targeted by allergen immunotherapy to treat allergic diseases?

Answer 22

Question 23

What is type II hypersensitivity?

Answer 23

• Mediated by IgG and IgM
• In susceptible individuals, binding of the drug to the surface of circulating red blood cells or platelets cause the destruction of the cells by antibody mediated mechanisms

Question 24

What is type III hypersensitivity?

Answer 24

• Mediated by immune complexes or antibody: antigen aggregates
  
  • Pathogenic potential is determined in part by their size and by the amount, and affinity, and isotypes of the responding antibody
• Immune complexes are deposited in tissue

Local
- Arthus reaction (Low dose)
- The immune complexes are formed only close to site of injection where they activate mast cells with Fcy receptors

Systematic
- Serum sickness
- Immune complexes from throughout the body
- Follows the admin of large quantities of poorly catabolized antigens

Pathogenic immune complexes from due to antigen persistence during infection

Question 25

What is type IV sensitivity?

Answer 25

• Mediated by TH1 cells and cytotoxic CD8 T cells
• Delayed hypersensitivity
• Antigen is injected into the skin and reaction occurs hours to days later
  
  • Specific T cells are rare and because there is little inflammation to attract cells into site, can take several hours for a T cell to correct specification

Question 26

What are cellular hypersensitivity reactions mediated by?

Answer 26

• Antigen specific effector T cells

Question 27

How is an antigen processed by tissue macrophages? And how does it stimulate TH1 cells?

Answer 27

Question 28

What is contact hypersensitivity?

Answer 28

• Antigen absorbed into the skin
• Activation of CD4 or CD8 cells
  
  • Depends on antigen processing pathway
• Poison ivy or poison oak
  Hapten
• Small molecules that illicit an immune response only when attached to a carrier protein