L47, L49- Hypersensitivity, Immune Tolerance, Autoimmunity

Question 1

Type I hypersensitivity reactions have (1) as the immune reactant and Ag in the (2) form. (1)-(2) complex binds to (3) on (4) cells inducing (5).

Answer 1

1- IgE
2- soluble
3- FcεRI
4- mast cells (basophils, eosinophils)
5- degranulation of mast cells

Question 2

Type II hypersensitivity reactions have (1) as the immune reactant and Ag in the (2) form. (1) binds to (3) leading to (4) activation and (5) of target cell.

Answer 2

1- IgG or IgM
2- cell-bound
3- cellular Ag
4- complement (classical pathway)
5- lysis
(Note- IgG can lead to ADCC w/ Tc / NK cells, macrophages, neutrophils)

Question 3

Type III hypersensitivity reactions have (1) as the immune reactant and Ag in the (2) form. (1)-(2) complexes are deposited in tissues which activates (3) resulting in (4) and recruitment of (5) which will cause local tissue damage.

Answer 3

1- IgG & IgM
2- soluble (SERUM)
3- complement
4- inflammation (C3a, C5a)
5- neutrophils (release enzymes => tissue damage)

Question 4

Type IV hypersensitivity reactions have (1) as the immune reactant and Ag in the (2) form. (1) secretes (3) to activate (4) cells.

Answer 4

1- T cells (Th1)
2- soluble or cell-bound
3- CKs
4- macrophages & Tc cells

Question 5

hypersensitivities take place in response to… (hint- 3 things)

Answer 5

• infection that can’t be cleared
• normally harmless exogenous substance (allergen)
• auto-antigen

Question 6

define hypersensitivity

Answer 6

exaggerated or inappropriate immune response => tissue damage

Question 7

Type _ hypersensitivity(ies) is(are) Ab mediated (humoral)

Type _ hypersensitivity(ies) is(are) cell mediated

Answer 7

I, II, III –> Ab mediated

IV –> cell mediated

Question 8

(T/F) hypersensitivities occur upon first contact with Ag

Answer 8

F- never, sensitization occurs on 1st contact, hypersensitivity always upon re-exposure

Question 9

define atopy

Answer 9

genetic predisposition to produce IgE in response to many common, naturally occuring Ag/allergens (~20% individuals in US)

Question 10

IgE is the usual response against (1), where it binds (2) after binding Ag on (3) cells

Answer 10

1- metazoal parasites (too large to be phagocytized)
2- FcεRI (high-affinity)
3- mast cells, basophils (+ eosinophils)

Question 11

Type I hypersensitivities are (immediate/delayed) reactions

Answer 11

immediate-type hypersensitivity

Question 12

describe development of IgE against (harmless) Ags in upon first contact

Answer 12

• IgM on B cell binds Ag
• Th2 cell binds B cell via CD4 and releases IL-4 / IL-13
• ILs stimulate class switching to IgE
• results in memory B cell + plasma cell producing Allergen specific IgE

Question 13

list the primary mediators in mast cell granules

Answer 13

(made before and stored)

histamine, proteases, eosinophil chemotactic factor, heparin

Question 14

list the secondary mediators in mast cells

Answer 14

(2-4 hrs after immediate response)

platelet-activating factor, LTs, PGs, bradykinins, some CKs + chemokines

Question 15

compare atopic to immune allergy response

Answer 15

(based on genetic + environmental factors)
-Atopic: Th2, IgE; not exposed to pathogens regularly (urban enviro., western diet, widespread Antibiotic use)

-Immune: Th1, IgG, exposed to pathogens regularly (hygiene hypothesis)

Question 16

examples of localized and systemic Type I hypersensitivity

Answer 16

Local: allergic rhinitis, asthma, food allergies, wheals, atopic eczema

Systemic: anaphylaxis

Question 17

explains desensitization using Abs

Answer 17

• for type I hypersensitivity in people with mild to moderate allergies (not for extreme- must have some tolerance)
• development of IgG as ‘blocking Abs’ preventing IgE binding and rxn with mast cell

Question 18

Type II hypersensitivity can involve cytotoxic process where (1) is activated, phagocytosis occurs via (2) receptor, and (3) occurs via NK cells and eosinophils. Non-cytotoxic process involves (4).

Answer 18

1- classical complement pathway (IgG, IgM)
2- FcR and complement receptors
3- ADCC (Ab-dep. cellular cytotoxicity)
4- interference with receptors (anti-receptor Abs)

Question 19

Autoimmune hemlytic anemia (HDNB) is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 19

1- type II (cytotoxic)
2- RBC membrane proteins (Rh, ABO)
3- opsonization, phagocytosis, complement-mediated destruction of RBCs
4- hemolysis, anemia

Question 20

Acute rheumatic fever is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 20

1- type II (cytotoxic)
2- streptococcal cell-wall Ag (cross-reaction with myocardial Ag)
3- inflammation + macrophage activation
4- myocarditis, arthritis

Question 21

Goodpasture syndrome is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 21

1- type II (cytotoxic)
2- type IV collagen (BM of kidney glomeruli + lung alveoli)
3- complement + Fc-receptor-mediated inflammation (IgG accumulation in tissue)
4- nephritis, lung hemorrhage, linear Ab deposits

Question 22

Myasthenia Gravis is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 22

1- type II (non-cytotoxic)
2- AChR
3- blocks ACh binding
4- muscle weakness, paralysis

Question 23

Graves disease is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations)

Answer 23

1- type II (non-cytotoxic)
2- TSH receptor
3- stimulates TSH receptor
4- hyperthyroidism (followed by hypothyroidism)

Question 24

describe Erythroblastosis fetalis

Answer 24

• Rh+ fetus, Rh- mother
• upon 1st vaginal birth, mother exposed to Rh –> develops IgG against
• upon 2nd pregnancy –> IgGs can cross placenta and damage fetus
• RhoGAM administered to block Rh from being exposed to mother

Question 25

describe Arthrus reaction

Answer 25

(type III hypersensitivity)

• individual sensitized to Ag
• Ag administered locally (SQ, ID)
• rxn occurs locally
• mast cell mediated

Question 26

what is serum sickness

Answer 26

(type III hypersensitivity)

• response to foreign protein after receiving anti-serum, which is usually from another animal containing anti-toxin
• deposition of serum immune complex (Ag-IgG/IgM) systemically
• fever, vasculitis, arthitis, nephritis

Question 27

Type IV hypersensitivities are (immediate/delayed) reactions

Answer 27

delayed-type hypersensitivity (48-72 hrs after second exposure)

Question 28

Type I hypersensitivities are important for the clearance of…

Answer 28

• intracellular pathogens (ex. M. tuberculosis, Leishmania major)
• if Ag persists –> lytic products of macrophages can damage healthy tissue

Question 29

describe sensitization phase of Type IV hypersensitivity

Answer 29

upon first exposure, APCs (macrophages, Langerhans cells) present Ag to naive T cells generating Th1 (generally)

Question 30

describe effector phase of Type IV hypersensitivity

Answer 30

• Th1 cells secrete CKs and chemokines to effect macrophages

- macrophages inc MHC-II, TNF receptors, O2 radicals + NO

Question 31

prolonged DTH can lead to formation of….

Answer 31

(delayed-type hypersensitivity)

granuloma (surrounding resistant intracellular microbe)

Question 32

define central tolerance

Answer 32

• deleting T or B clones before maturity if they have receptors that recognize self-Ags with great affinity
• ‘negative selection’
• occurs in primary lymphoid tissues

Question 33

define peripheral tolerance

Answer 33

• killing lymphocytes that bind self-Ag (high dose) in secondary lymphoid tissue
• regulated by apoptosis or anergy (no proliferation)

Question 34

(T/F) B cells can escape anergy or deletion in peripheral tolerance

Answer 34

T- Receptor Editing can occur; further rearrangement of their immunoglobulin genes

Question 35

in peripheral tolerance (1) cells may be responsible for controlling this process, as they recognize (2) and then will (3)

Answer 35

1- Treg cells (CD4+)
2- self-Ag (intermediate affinity)
3- suppress T cells (non-reg) that bind with low affinity to self-Ag

Question 36

list the 5 ways immunogens can become tolerogens

Answer 36

• high doses of Ag
• persistent Ag
• IV / oral introduction
• absent adjuvants
• low levels of co-stimulators: CD28/B7 low => CTLA-4 binding B7 to inhibit

Question 37

(T/F) CD28 has higher affinity for B7 than CTLA-4

Answer 37

F- CTLA-4 (inhibitory) has higher affinity than CD28 (activator)

Question 38

tolerogens induce ______ in mature lymphocytes

Answer 38

apoptosis or anergy

Question 39

how does the body prevent autoimmunity

Answer 39

• central tolerance
• peripheral tolerance
• immune regulation (Treg cells)

Question 40

list the immunologically privileged sites and what occurs there (include the CK that might be most responsible)

Answer 40

• brain, eyes, testis, placenta (only exposed to immune system in trauma)
• T cells enter => undergo apoptosis
• foreign Ags (+ tissue grafts) don’t elicit immune responses
• tolerance&raquo_space; destructive reponse
• TGF-β may be key CK responsible

Question 41

list the 4 ways peripheral tolerance prevents autoimmunity

Answer 41

• lack of co-stimulatory
• lack of Ag presentation
• negative feedback prevents overstimulation
• T cells entering immune-privileged sites undergo apoptosis

Question 42

list the 6 discussed causes of autoimmunity

Answer 42

• Tolerance => thymic breakdown (genetic) OR in periphery (enviroment)
• HLA (human leukocyte Ag) = genetic predisposition
• release of sequestered Ags (tissue traumas)
• Infection => mimicry of self-Ags (short-lived and reversible)
• some viruses activate B cells non-specifically
• inappropriate MHC expression

Question 43

(T/F) autoimmune diseases affect women more than men

Answer 43

T

Question 44

which hypersensitivity mechanisms can result in autoimmunity

Answer 44

• Type II, Ab mediates, immediate rxn
• Type III, immune complex mediated
• Type IV, cell-mediated, delayed rxn

Question 45

Autoimmune thrombocytopenia purpura is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading

Answer 45

1- type II (cytotoxic)
2- platelets’ integrin or glycoprotein
3- Abs destroy platelets => thrombocytopenia

Question 46

list the 3 autoimmune anemias (include Ags and through what hypersensitivity mechanism)

Answer 46

[type II cytotoxic mechanism]

• hemolytic anemia: Abs for Rh or AB(O) RBCs
• drug induced anemia
• pernicious anemia: Ab against intestinal protein responsible for B12 uptake

Question 47

Pernicious anemia is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 47

1- type II (cytotoxic)
2- intestinal B12 protein responsible for uptake
3- no B12 absorption from intestine
4- anemia (+ neurological symptoms)

Question 48

systemic autoimmunities are usually due to type ___ hypersensitivity mechanisms

Answer 48

type III (immune complex mediated)

Question 49

Systemic Lupus Erythematous is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 49

1- type III
2- antinuclear Ags (ANA): dsDNA (mainly), histones, platelets, leukocytes, clotting factors
3- excessive complement activation (systemically)
4- fever, weakness, arthritis, rash, kidney issues
(note typically affects middle aged women most)

Question 50

what is an ANA and how is it detected

Answer 50

• antinuclear Ag: dsDNA, histone, ect.

- detected via indirect immunoflorescent Ags

Question 51

Polymyositis is considered a type (1) hypersensitivity. It involves (2) as target Ag.

Answer 51

1- type IV

2- muscle cells

Question 52

Hasimoto’s Thyroiditis is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 52

1- type IV
2- thyroid Ags- mainly TPO (thyroid peroxidase)
3- destruction of thyroid tissue + accumulation of incomplete thyroid hormone
4- hypothyroidism, goiter
(mainly affects middle aged women)

Question 53

Insulin dependent DM (type I) is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 53

1- type IV
2- β-cell (pancreas) elements
3- Abs / T cells destroy insulin producing β-cells
4- diabetes

Question 54

Multiple sclerosis is considered a type (1) hypersensitivity. It involves (2) as a mechanism leading to (3) as clinical manifestations.

Answer 54

1- type IV
2- inflammatory lesions in myelin sheath caused by T cells
3- numbness, paralysis, vision loss

Question 55

Rheumatoid arthritis is considered a type (1) hypersensitivity. It involves (2) Ag, has (3) as a mechanism leading to (4) as clinical manifestations.

Answer 55

1- type IV
2- Fc region of IgG
3- immune complexes (T cells + IgG) depositing systemically in tissue
4- chronic inflammation of joints

Question 56

CTLA-4 is expressed on (1) cells in (2) fashion and (3) cells in (4) fashion. CTLA-4 binds to (5). Variants of CTLA-4 has been associated with the following autoimmune diseases: (6).

Answer 56

1/2- Treg cells, constitutively
3/4- activated T cells, only when activated
5- B7-1/CD80, B7-2/CD86
6- type I DM, Grave’s, Hashimoto’s. Celiac’s, SLE, others