Hypersensitivity and Immunopathologies

Question 1

Hypersensitivity reactions def

Answer 1

excessive or inappropriate immune response due to prolonged or repeated exposure to antigen.

• Can target self antigens OR foreign antigens

Question 2

Types of hypersensitivity reactions

Answer 2

• Type I = immediate IgE
• Type II = antibody mediated IgM and/or IgG
• Type III = Immune Complex IgM and/or IgG
• Type IV = cell mediated T cells

Question 3

Type I hypersensitivity

Answer 3

immediate or allergic reactions that occur within minutes to hours after exposure

• Reactions are known as ALLERGIES
• suffered by 54% of pop

Question 4

Initial exposure of type I hypersensitivity

Answer 4

1. allergen enters body
2. APC eats it
3. APC presents peptides from allergen to MHC II
4. Helper T cells activated and differentiate into Th2 for STRONG response
5. Th2 activate B cells (PLASMA CELLS) specific for antigen
6. B cells make IgE

Question 5

Plasma cells

Answer 5

B cells that mass-produce antibodies

Question 6

IgE half-life

Answer 6

IGE antibodies only live in blood for a day, but can attached to mast cells for half-life of several weeks

Question 7

Steps in hypersensitivity type I

Answer 7

1. first exposure
2. sensitization
3. re-exposure
4. allergic reaction

Question 8

first exposure (step1 hypersensitivity type I)

Answer 8

person may or may not have an initially allergic reaction to first exposure because IgE antibodies take time to accumulate in load onto mast cells

Question 9

sensitization (step 2 hypersensitivity type I)

Answer 9

Fc region of IgE binds to mast cells located throughout the body. This allows a second exposure of allergen to activate mast cells

Question 10

re-exposure (step 3 hypersensitivity type I)

Answer 10

allergen binds to IgE antibody and creates clusters which causes degranulation and release of chemistry

Question 11

allergic reaction (step 4 hypersensitivity type I)

Answer 11

chemistry live release by mast cells includes:

• early phase: immediate release of histamines, proteases, prostaglandins
• late phase: 6-24 hours which includes IL-4, TNF and WBC

Question 12

Cells involved with allergies

Answer 12

• mast cells = located in tissue for immediate response
• basophils = rapid response brought by blood due to signal from mast cell. Will degranulation upon antigen exposure
• eosinophils = delayed response that are recruited from bone marrow

Question 13

Non-atopic individuals

Answer 13

nonallergic people

• respond weakly to allergens
• produce mainly IgG

Question 14

Atopic individuals

Answer 14

Allergic people

• produce large amounts of IgE

Question 15

Hygiene hypothesis

Answer 15

theory that chronic inflammation (especially allergies and asthma) is an unintended consequence of greed adduction and exposure to microbes in the first year of life

Question 16

Type II hypersensitivity

Answer 16

antibody mediated (IgM or IgG)

• antibodies bind to surface of cells (cell membrane) or extracellular matrix
• means of destruction include: antibody dependent cell mediated cytotoxicity, complement system, functional derangements

Question 17

antibody dependent cell mediated cytotoxicity (ADCC)

Answer 17

complement INDEPENDENT destruction of target cell and hypersensitivity type II

1. antibodies (IgG or IgA) bind to antigens on target cell’s surface.
2. Complex is recognized to WBCs (monocytes, neutrophils, eosinophils, NK cells)
3. WBC mediates destruction of pathogen

Question 18

Complement system

Answer 18

complement proteins (MAC) destroy target cells in hypersensitivity type II

• IgM and IgG are good it fixing complement
• production of complement proteins activates macrophages and neutrophils

Question 19

functional derangement

Answer 19

antibodies act as agonists or antagonists to cell receptors in hypersensitivity type II

• may occur with or without inflammation

Question 20

Hemolytic Anemias

Answer 20

what are the five carbon protein on RBC. RBC are then phagocytized. When complemented fixed, RBCs are quickly lysed

Question 21

rheumatic heart disease

Answer 21

streptococcal throat infection activate helper cells

• helper T cells cross react with a protein present on mitral valve the heart
• cross reacting helper T cells direct an inflammatory attack on the heart

Question 22

hypersensitivity reaction type III

Answer 22

deposition of antibody-antigen complexes accumulate (MAC), are first cleared

1. IgM and IgG fixed complement
2. complement attracts neutrophils and macrophages
3. FC region on neutrophil in macrophage bind to FC region of IgM and IgG
4. phagocytes eat the antigen-antibody complex thus releasing inflammatory chemistry

Question 23

Lupus Erythemoatosus

Answer 23

an inflammatory disease of the in T-cell intolerance

• IgG recognizes many antigens that form self antigen-antibody complexes
• example than autoimmune hypersensitivity type III

Question 24

Hypersensitivity reaction type IV

Answer 24

cell mediated = inappropriate or excessive immune response from T cells

• types: delayed type hypersensitivity (DTH), cell mediated cytotoxicity
• they do not involve antibodies. But stimulated by intercellular parasites
• may be directed against self or exogenous antigens
• require prior exposure

Question 25

Delayed type hypersensitivity

Answer 25

form of hypersensitivity type IV reaction

• Th1 secretes INFγ Which stimulates macrophages
• macrophage does damage and stimulates fibrosis
• examples include: contact dermatitis, Crohn’s disease, type I diabetes, multiple sclerosis

Question 26

Multiple sclerosis

Answer 26

it example of delayed hypersensitivity (hypersensitivity type IV)

• initiated by self reactive T cells that target myelin base proteins
• helper T cells emit cytokines attracting macrophage which do damage

Question 27

Cell mediated cytotoxicity (hypersensitivity type IV reaction)

Answer 27

CTL cells display foreign antigens

• perforin or granzyme B
• CTLs release INFγ (Activates macrophage –> fibrosis)
• major reason organ transplants are rejected
• example = viral hepatitis