Hypersensitivities Type I-IV

Question 1

hypersensitive

Answer 1

above and beyond normal response

-causes pathology

Question 2

how many types of hypersensitivities?

Answer 2

4 types

Question 3

type IV hypersensitivity

Answer 3

T cell mediated diseases

Question 4

type I hypersensitivity

Answer 4

aka immediate hypersensitivity

-atopic diseases

Question 5

atopic diseases

Answer 5

caused by Type I hypersensitivity

Question 6

IgE

Answer 6

big player in type I hypersensitivity**

extra constant region domain
-allows it to bind Fc on mast cells

Question 7

three properties controlling IgE?

Answer 7

1 half life of IgE
2 T cell control (need isotype switching)
3 cross-linking of IgE on surface of mast cells and basophils

Question 8

half life of IgE?

Answer 8

2 days in serum (very short)

produced in response to allergens

half life increased when binds to mast cells and basos

Question 9

receptor for IgE on mast cells and basos?

Answer 9

FcERI

high affinity

Question 10

half-life of IgG

Answer 10

3 weeks woah!

Question 11

receptors for IgE on B cells?

Answer 11

FcERII

low affinity

Question 12

Th1 activation leads to?

Answer 12

IFN-gamma and IL-12
no upregulation of IgE

**suppressive the atopic reaction

Question 13

Th2 activation leads to?

Answer 13

IL-4, IL-5 IL-13
leads to class switching (via IL-4) to IgE

**increases the atopic reaction

Question 14

IL-5 activity?

Answer 14

stimulates maturation of eosinophils

Question 15

allergen

Answer 15

antigen that gives rise to immediate hypersensitivity
-most are proteins

-usually taken in very small quantities that is sustained throughout life (ex/ dust)

food - large dose

Question 16

mediators of IgE (intermediate) response in mast cells?

Answer 16

histamine, heparin, and tryptase (5 minutes)

also, newly generated (5-30 minutes)

• arachidonic adic
• leukotriene D4
• prostaglandin D2

**vasoactive amines and lipid mediators

Question 17

late phase reaction of mast cells immediate hypersensitivty?

Answer 17

2-10 hours later

-cyrokines, IL-4, TNF-alpha

Question 18

released by eosinophils?

Answer 18

cationic granule proteins and eosinophil peroxidase

**to kill worms, but can kill self cells

Question 19

what must occur for mast cell activation?

Answer 19

binding of IgE and must be CROSS-LINKED**

Question 20

allergic rhinitis?

Answer 20

increased mucus secretion

Question 21

wheal

Answer 21

extravasation of sera

Question 22

flare

Answer 22

axon reflex

Question 23

late phase reaction ?

Answer 23

4-6 hours after type I reaction
-can persist 1-2 days

infiltration of PMNs, eosinophils, macrophages, lymphocytes, basophils

occurs bc mast cells produce TNF-alpha and IL-1 which leads to increased extravasation

mast cells also produce neutrophil chemotactic factor

on-site release of IL-3, IL-5, IL-8, and GM-CSF

Question 24

normal function of IgE

Answer 24

protection against parasites

Question 25

Type II Hypersensitivity

Answer 25

antibody mediated
-IgG/IgM/FcR/C’
initiating antigen is a surface

antibodies bind FcR on tissue surface initiating effector cells

binding of C1 to IgG or IgM activates C’ cascade

damages target cells
-locallized to cells bearing antigens

Question 26

“fixed antigens”

Answer 26

antibodies against cell surfaces are usually pathogenic

antibodies against internal antigens are usually not pathogenic

Question 27

C3a and C5a?

Answer 27

chemotaxis of PMNs, basophils, and eosinophils

Question 28

normal phagocyte activation?

Answer 28

machophage binds Fc receptor and C3 receptor
-results in phagocytosis and lysosomal fusion

degrades cell

Question 29

frustrated phagocytosis

Answer 29

cannot internalize complex
instead, releases all of its enzymes to intravascular space and degrades tissue

**occurs in hypersensitivity type II

Question 30

hemolytic disease of the newborn (HDNB)

Answer 30

when mother Rh- and baby is Rh+
aka erythroblastosis fetalis

during birth, mother will make IgM antibodies against Rh+ (there is some blood exchange during birth)
-makes memory which will respond to next pregnancy if baby is Rh+

Question 31

how to avoid erythroblastosis fetalis?

Answer 31

use Rhogam

binds the Rh antigens and inhibits the mothers immune response from being exposed to it

Question 32

antigens involved in HDNB?

Answer 32

Rhesus D most positive
also Kell (K) antigen

Question 33

using whole blood during transfusion?

Answer 33

giving someone serum (no good)

Question 34

donated blood is what?

Answer 34

separated to serum and cells first

Question 35

autoimmune hemolytic anemia

Answer 35

warm antibodies - different epitopes than transfusion rxn. (Rhesus)

cold antibodies - high titer IgM
-usually in old people during winter

can be spontaneous or drug caused

Question 36

myasthenia gravis

Answer 36

self-antibodies to AcH receptors

extreme muscle weakness**

Question 37

Type III Hypersensitivity

Answer 37

involve immune complexes

soluble antigen**

normally, taken care of by waste management
-if not, lead to pathology

can have interlacing collection with increased pathology

Question 38

three groups of type III hypersensitivity

Answer 38

persistent infection
autoimmune disease
inhalation of antigen

Question 39

normal waste management?

Answer 39

CR1 receptor on RBCs bind to immune complexes

taken to spleen and liver where they are degraded

Question 40

when immune complexes settle out?

Answer 40

in very small vessels
-bring in baspohils, mast cells, macrophages results in leakiness (great area for immune complex)

platelet aggregation occurs

increase in BP, vascular turbulence, and complex deposition

Question 41

arthus reaction

Answer 41

presensitized with IgG

allergy shots

so that it won’t bind IgE

get localized hemorrhage in 4-10 hours

can lead to allergic alveolitis

Question 42

serum sickness

Answer 42

induced by large injection of foreign antigen

complexes deposit in blood vessels and tissues

leads to arthritis and glomerulonephritis

complication of equine serum therapy (horse) or antigen excess (acute infectious disease)

Question 43

mechanisms of Type II and III

Answer 43

inflammatory pathways are identical
-difference is initiator

type II - fixed surface
type III - soluble

complement major mediator

Question 44

delayed type hypersensitivity?

Answer 44

Type IV hypersensitivity

T cells are mediator

• effector T cells are stimulated
• can lead to granulomas from macrophages

Question 45

three types of DTH?

Answer 45

contact
tuberculin (ex/ PPD test)
granulomatous (clinically most important)
-usually 28 days out

Question 46

contact sensitivity stages?

Answer 46

sensitization and elicitation

sensitization - 10-14 days in epidermis

• ex/ poison oak/ivy (require haptens)
• build memory cells

elicitation - recruit CD4 T cells to site of contact
pro-inflammatory cytokine driven
-monocytes, macrophages
-mainly CD4 T and small number of CD8

Question 47

tuberculin type DTH?

Answer 47

looking for a recall - to see if you have been sensitized to it

ex/ tuberculin skin test

Question 48

granulomatous DTH?

Answer 48

usually persistance of macrophages

• microbes that can resist killing
• other cells cell can’t destroy

occurs with Th1 response

Question 49

basis for classification of hypersensitivity?

Answer 49

Coombs and Gell

Question 50

what immune complexes deposited the most?

Answer 50

small positively-charged ones

Question 51

diseases assocaited with DTH?

Answer 51

tuberculosis, leprosy, schistosomiasis, sarcoidosis, Crohn’s disease