Hypersensitivity

Question 1

What is hypersensitivity?

Answer 1

A harmful immunologic reaction developing in response to an otherwise harmless specific trigger

Question 2

List the 4 types of hypersensitivity

Answer 2

1. Type I- Immediate _Al_lergy: IgE mediated
2. Type II- Direct antiBody mediated cytolytic
3. Type III- Immune Complex mediated
4. Type IV- Delayed type T cell mediated

Question 3

What is the sensitization stage of hypersensitivity?

Answer 3

1. Sensitization Stage
   
   1. development of the immune response
   2. symptoms silent
   3. requires adaptive immunity: antigen specific T and or B cell responses

Question 4

What is the effector stage of hypersensitivity?

Answer 4

• elicitation of the secondary immuen response
• symptoms evident

Question 5

What cells mediate Type I hypersensitivity and describe generally how this works?

Answer 5

• Mast cells/basophils mediate the initial phase of anaphylaxis
  
  • Mast=tissue resident, basophils=tissue resident and ciruclating
• IgE crosslinked by antigen trigger mast cell/basophil degranulation which causes the response

Question 6

Describe the sensitization phase of Type I hypersensitivity

Answer 6

1. first exposure: antigen binds to cognate B cell receptors on a naive B cell
2. Antigen is processed by APCs (can be B cell) and presented to the cognate CD4 T cell
3. the naive CD4 T helper cell matures into a Th2 antigen specific cell
4. Th2 produces cytokines supporting B cell class switching to IgE
5. B cells and plasma cells produce IgE
6. Circulating IgE binds long term onto FCeRI on mast cells and basophils

Question 7

Describe the Effector phase of Type I hypersensitivity reaction

Answer 7

• second exposure: antigen crosslinks anti-IgE that is already bound to FCeRI on mast cells and basophils
• this triggers rapid extracellular release of preformed mediators (degranulation)
• symptoms of anaphylaxis develop immediately, and hours later delayed symptoms occur

Question 8

What are the preformed mediators of a type I hypersensitivity reaction?

Answer 8

• histamine and tryptase which can lead to vascular dilation, smooth muscle contraction and tissue damage
• released within seconds to minutes

Question 9

What are the rapidly produced mediators in a type I reaction and what do they lead to?

Answer 9

• lipid mediators
  
  • Prostaglandins (PGD2)-vascular dilation
  • leukotrienes-smooth muscle contraction
  • Platelet activating factor (PAF)

Question 10

What are the slowly produced mediators in a type I reaction?

Answer 10

• cytokines! (hours to days)
  
  • inflammation (leukocyte recruitment)

Question 11

What is the significance of the early and ate phase of a Type I hypersensitivity reaction?

Answer 11

• the preformed mediators lead to symptoms right away, but some mediators are formed within minutes to days (PGD2, leukotrienes, cytokines) and therefore you can react again to the same stimulus hours later. therefore it is important to goto a hospital for observation after anaphylaxis

Question 12

What are the physiologic changes associated with anaphylaxis?

Answer 12

• leaky/ dilated blood vessels
  
  • angioedema, low BP, shock
• Smooth muscle spasm
  
  • bronchospasm, GI/GU spasm, coronary spasm
• Cardiac effects:
  
  • myocardial depression
  • tachy/bradycardia

Question 13

What is histamine?

Answer 13

• a preformed mediator of a type I reaction
• short half-life in serum (minutes)
• H1R
  
  • itching, increased vascular permeability: edema
  • smooth muscel contraction: bronchospams, cramping
• H2R
  
  • gastric acid secretion

Question 14

WHat is tryptase?

Answer 14

• preformed mediator in type I hypersensitivity reaction
• only in mast cells not basophils
• immature: constituitively released (protryptase)
• mature: only released during degranulation (b-tryptase)
• found in serum only up to 4 hours after release, therefore it is the single best clinical marker of mast cell activation (bc histamine is too short lived)
• leads to emodleing of tisse matrix

Question 15

Describe the structure of an eosinophil

Answer 15

Crystalloid granule

matrix

core

Question 16

what are the chemokines that are rapidly synthesized?

Answer 16

MIP-1a (CCL3) and RANTES (CCL5) and Eoataxin (CCL11)

Question 17

WHat are the lipid mediators that are rapidly synthesized?

Answer 17

Leukotrienes and Platelet activating factor PAF

Question 18

What are the major mediators from eosinophils in type I hypersensitivity reactions?

Answer 18

• Lysophospholipase
• Major basic protein: mast cell activation
• Eosinophilic cationic protein (ECP) (like MBP)
• EDN (Eosinophil derived neurotoxin)
• Platelet activating factor (PAF)
  
  • bronchoconstriction, activates platelets

Question 19

What is the role of IL-5? What are some treatments for type I hypersensitivity reactions related to eosinophilia?

Answer 19

• survival/ production of eosinophils!
• it is produced by Th2 CD4 lymphocytes
  
  • when you hve IL-5 it can cause hypereosinophili syndrome
• Anti-IL5 monoclonal antibodies and receptors

Question 20

What is the therapeutic importance of corticosteroids in type I hypersensititivy reactions?

Answer 20

• corticosteroids inhibit the production of IL-5
  
  • decrease release from marow and cause rapid apoptosis
  • steroids make eosinophils disapear!!

Question 21

What are 3 type I hypersensitivity diseases?

Answer 21

1. Allergic Rhinitis
   
   1. typical allergies, inhaled
2. Drug, Food, Venom Allergies
   
   1. anaphylaxis or hives usually from ingestion not air
3. Asthma
   
   1. cough, wheezing, shortness of breath, chest tightness
   2. inhaled aeroallergens

Question 22

What are some Type I hypersensitivity reactions that are related to disorders of mast cells?

Answer 22

• Utricaria/Angioedema (hives and swelling)
  
  • contact: dog licked hand
  • chronic: autoimmune
• Mastocytosis (increases MC burden)
  
  • spontaneous anaphylaxis, osteoporosis, chronis diarrhea
  • KIT gene mutation leading to uncontrolled KIT activation thus mast cell proliferation

Question 23

List the 3 tests to confirm sensitization

Answer 23

• Prick/Scratch
  
  • first line test for confirmation of sensitization
  • balances sensitivity.specificity
• Intradermal testing
  
  • 1000x more sensitive than prick/scratch, never used for food
• Serum IgE ELISA

Question 24

What is the clinical management for allergic rhinitis?

Answer 24

1. avoidance
2. suppression of mediators
   
   1. nasal steroid
   2. oral antihistamines
   3. ophthalmis antihistamine/mast cell inhibitors
   4. nasal antihistamines
   5. nasal mast cell inhibitors
3. Immunotherapy
   
   1. SCIT (subQ allergy shots): result in production of IgG4 which outsompetes binding of allergen to IgE
   2. SLIT (sublingual allergy drops)

Question 25

Asthma is thought to be what type of hypersensitivity reaction? What is its prevalence, symptoms and mechanism?

Answer 25

Type I hypersensitivity Rxn

• prevalence: 5% of ppl
• Symptoms
  
  • NP cough
  • wheezing
  • SOB
  • chest tightness
• Mechanism:
  
  • Reversible airway obstruction
    
    • ​smooth muscle bronchospasm increased mucus production and airway plugging/swelling. increased resistance hard to get air OUT of the lungs.
  • Sometimes due to IgE mediated inflammation

Question 26

What are the pathologic airway changes associated with asthma?

Answer 26

• Edema
• Mucus
• Epithelial damage
• airway smooth muscle
• inflammatory cell infiltration

Question 27

Basic treatment of asthma

Answer 27

• Trigger avoidance
  
  • viral infections, airborne irritants/pollutants, aeroallergens, cold/dry hot air
• Corticosteroids
  
  • inhled corticosteroids, oral IV steroids for exacerbations
• Bronchodilators
  
  • short acting beta agonists (SABA)-albuterol (relax smooth muscle)
• Note: antihistamines ineffectual

Question 28

Second line treatment of asthma

Answer 28

• Anti-leukotrienes
  
  • Montelukast
• Biologics
  
  • Omalizumab
• Immunotherapy
  
  • SCIT
• Bronchodilators
  
  • Long acting beta agonists (LABA-only given with inhaled steroids too)

Question 29

WHat is Type II hypersensitivity?

Answer 29

• antiBody (IgM or IgG) binds cell or matric bound antigen leading to
  
  • future immunologic attack and or functional interference (inhibition or activation)

Question 30

In type II hypersensitivity how does the antibody trigger pathology

Answer 30

1. complement activation
2. antibody dependent cellular cytotoxicity (ADCC)
3. phagocytosis (opsonization)
4. antibody alteration of normal function

Question 31

What are the 4 types of Type II hypersensitivity?

Answer 31

1. complement
2. ADCC
3. opsonization
4. Anti-receptor

Question 32

WHat are 6 diseases that are representative of Type II hypersensitivity?

Answer 32

1. Goodpasture
2. Bullous pephgold
3. Pernicious anemia
4. Vasculltides
5. Thombic phenomena
6. Actue rhuematic fever

Question 33

What are the features and antibody specificity of goodpasture syndrome

Answer 33

• Features
  
  • nephritis and lung hemmorrhages
• AB Specificity
  
  • Type IV collagen in basement membranes of glomeruli and lung alveoli

Question 34

What are the features and specificity of Bullous pephigoid?

Answer 34

features: skin vesicles

AB specificityL epidermal basement memebrane proteins

Question 35

What are the features and specificity of pernicious anemia

Answer 35

features: megaloblastic anemia

Ab specificity: intrinsic factor and gastric parietal cells

Question 36

What are the features and specificity of vascultides

Answer 36

features: varied

AB specificity: neutrophil cytoplasmic antibodies

Question 37

What are the features and specificity of thrombotic phenomena

Answer 37

features: varied

AB specificity: antiphosphoslipid antibodies

Question 38

What are the features and specificity of acute rheumatic fever

Answer 38

features: carditis

AB specificity: antibodies against streptococcal antigens cross-react with heart

Question 39

What is an example of an ADCC representative type II hypersensitivity reaction?

Answer 39

Drug induced hemolytic anemia/thrombocytopenia

• medicines become antigenic when bound to RBCs or platelets
• IgG may target the combined drug-cell atigen ( called hapten formation)
• Ab tagged blood cells/platelelets are targeted destruction (ADCC) in the spleen

***blood typing problems

Question 40

Describe what happens when a B- person receives A- blood

Answer 40

• Anti-A IgM circulates in type B blood patients
• Anti-A IgM binds to transfused blood’s A antigen
• complement activation, phagocytosis, and ADCC follows

Question 41

What is fetal Rh incompatibility?

Answer 41

• Rh negative mother becomes sensitized to Rh factor during delivery of 1st child
• mother develops IgG agains fetal Rh antigen
• during next pregnancy
• maternal anti-Rh IgG crosses the placenta, tagging fetal RBCs
• feta RBC destruction leads to hydrops/stillbirth from severe anemia
• treat mother with anti-Rh D antibody to prevent

Question 42

What is type III hypersensitivity?

Answer 42

Immune Complex mediated

• IgG targeted against a SOLUBLE foreign antigen can form large polymeric immune complexes ( linked antigen-antibody) (the big net)
• immune complex formation and clearance by mononuclear phagocyte sytem is normal and uaually doesn’t trigger pathology but in certan circustances can trigger self-injury

Question 43

What is the zone of equivalence?

Answer 43

• immune complex formation is promoted in a range where the ratio of antigen to antibody is closer to 1:1
• this is necessary for type III hypersensitivity reaction to occur! (immune complex mediated)

Question 44

How does an immune complex trigger injury in a type III hypersensitivity reaction?

Answer 44

1. actiavting FcyR expressing phagocytic cells ( the complex activates these phagocytes that cause damage)
2. activating complement at sites of deposition ( it deposits randomly)

Question 45

Where do immune complexes deposit in type IIIhypersensitivity reactions?

Answer 45

• preferential sites (kidneys, vessels, joints, and skin)
  
  • increased vascular permeability
  • hemodynamic features support deposition ( bifurcations or pressure gradients…basically they get stuck where it makes sense for them to clog)
  • sites of high antigen concentration

Question 46

WHat is serum sickness?

Answer 46

• type III hypersensitivity reaction
• systemic reaction classically following large quantities of foreign protein
  
  • antivenom from horse, antithymocyte globin (ATG), streptokinase (“clot buster”), post infectious antigens
• flu-like symptoms with rash, arthritis, and glomerulonephritis
• onset 7-10 days after initial exposure time: IgM to IgG class switch

Question 47

What is arthus reaction?

Answer 47

• a skin rxn when sensitized individuals are re-exposed to specific antigen
• hemorrhage/edema develops within 4-10 hours
• commong after vaccination (antigen) in pts recently vaccinated ( with high IgG titiers already)
• edema, induration, hemorrhage, necrosis of skin

Question 48

what are some sources of “foreign” antigen in type III hypersensitivity reactions

Answer 48

1. Exogenous
   
   1. Infectious agents
   2. Drugs or chemicals
2. Endogenous
   
   1. immunoglobins, tumor anitgens, nuclear antigens

Question 49

Why would someone with SLE (lupus) develop disease in joints, and skin?

Answer 49

• places they can deposit/ get lodged!
• favorable locations for immune complex deposition
  *

Question 50

Would it be helpful to removeantibodies during a lupus crisis? Why or why not?

Answer 50

Yes possibly bc in order to make the immune complex you need to have a 1:1 ratio of antigen to antibody. if you remove antibody you mess up the ratio and move away from the zone of equivalence. this may stop immune complex formation

Question 51

WHat is a type IV hypersensitivity reaction?

Answer 51

• “cell mediated” delayed
• Involves T cells not antibody
• Antigen binds to self creating a haptenated self-protein which is processed by antigen presenting cells to T cells
• T cells then proliferate and secrete mediators

Question 52

What mediators do T cellse secrete during Type IV hypersensitivity reactions and what does that cause?

Answer 52

• IFNg
  
  • induces expression of adhesion molecules and activates macrophages
• TNFa and lymphotoxin
  
  • local tissue destruction, induces expression of adhesion molecules
• IL-3 and GM-CSF
• Chemokines
  
  • recruit macrophages to site

Question 53

What is an example of a type IV hypersensitivity reaction?

Answer 53

Allergic contact dermatitis

• caused by reactive chemical sensitizer exposure
• hapten binds to self protein (haptenization) creating a foreign protein presented by APC and recognized by TCRs
• this trigger extensive macrophage mediated inflammation

Question 54

Give a very common example of allergic contact dermatitis and a few others…..

Also what type of hypersensitivity reaction is this?

Answer 54

• Poison ivy rash- nearly universal sensitizer
• other commons:
  
  • formaldehyde, methacrylates, nickel, gold, cobalt, fragrances, preservatives, rubber accelerators

Question 55

How do you confirm allergic contact dermatitis and what improves it

Answer 55

• confirmed by patch testing
  
  • slow to test positive (24-72 hours)
  • adhesive pathces impregnated with sensitizer applied to skin and interpreted 2-3 days and 1 week later
  • induration/erythema interpreted by clinician
• improved by topical corticosteroids

Question 56

What is the tuberculin test?

Answer 56

type IV hypersensitivity intradermal diagnostic testing

• PPD injected intradermally with a fine needle
• a good screening test of prior sensitization to TB

Question 57

Describe type IV hypersensitivity reactions and what they activate

Answer 57

• antigen is processed by tissue macrophages and stimulates Th1 cell
  
  • Chemokines
  • IFNy
  • TNFa TNFb
  • IL-3/GM-CSF: stimulate monocyte production by bone marrow stem cells

Question 58

Type I reaction

Reactor

antigen

effector echanism

exaples

Answer 58

• Reactor : IgE
• antigen: soluble
• effector mechanism: mast cell activation
• examples allergic rhinitis, asthma, anaphylaxis

Question 59

Type II

Reactor

antigen

effector echanism

exaples

Answer 59

• Reactor: IgG or IgM
• antigen: cell or matric associated
• effector mechamism: FcR+ cells (phagocytes and NK)
• examples: Penicilin induced thrombocytopenia

Question 60

Type III

Reactor

antigen

effector mechanism

examples

Answer 60

• Reactor: IgG
  antigen: soluble (large quantities 1:1)

effector mechanism: FcR+ cells, complement

examples: serum sickness, arthus reaction

Question 61

Type IV: Th1

Reactor

antigen

effector mechanism

examples

Answer 61

Reactor: Th1 cells

antigen: soluble

effector mechanism: macrophage activation

examples: contact dermatitis, tuberculin reaction

Question 62

Type IV CD8 CTL

Reactor

antigen

effector mechanism

examples

Answer 62

Reactor: CD8 CTL

antigen: Cell associated

effector mechanism: cytotoxicity

examples: contact dermatitis

Question 63

autoimmunity

Answer 63

• reactivity to self antigens
• lupus, rheumatoid arthritis, thyroiditis, MS

Question 64

Allergy

Answer 64

• reactivity to harmless foreign antigens
• food/drug/venom/allergic rhinitis

Question 65

Anergy

Answer 65

• ignorance or failure to clear harmful self/foreign antigens
• cancer, HIV, TB