CH. 16 Autoimmune Diseases

Question 1

What is central tolerance?

Answer 1

-deletion of lymphocytes in primary lymphoid organs before they mature; limits development of autoreactive T- and B-cells

Question 2

During central tolerance, B cells have been shown to undergo

Answer 2

receptor editing

Question 3

Peripheral tolerance

Answer 3

either renders self-reactive lymphocytes nonresponsive (anergic) or actively generates inhibiting lymphocytes outside the BM and thymus; regulates autoreactive cells in circulation

Question 4

Dependent mechanisms of CD4+ T cells

Answer 4

• occur as TREG cells express high levels of inhibitory CTLA-4 molecules
• CTLA-4 blocks CD28 activation through CD80/86, inhibiting APC activation/licensing

Question 5

Independent mechanisms of CD4+ T cells

Answer 5

rely upon secretion of cytokines (IL-10, TGF-B, IL-35) into the surrounding area, shutting down nearby cell responses
-these mechanisms halt costimulation and activate indoleamine 2,3-dioxygenase, responsible for cleaving tryptophan, creates kynurenines, which inhibits T cells

Question 6

In what ways do CD4+ T cells maintain tolerance?

Answer 6

work via contact dependent and independent mechanisms

Question 7

What current mechanisms are anticipated to allow regulatory CD8+ T cells to maintain tolerance?

Answer 7

• not likely generated in the thymus, but instead in the periphery during CD8+ T-cell activation induction events (appear after Ag-MHC class I stimulation in the presence of TGF-B)
• Most likely use a range of mechanisms to suppress activity (lysis of APCs, inhibition of APC function, regulation of effector cells that bind the same Ag)

Question 8

What factors can predispose an individual for tolerance rather than stimulation?

Answer 8

• high doses of antigen
• long-term persistence of antigen in the host
• intravenous or oral introduction
• absence of adjuvants
• low levels of costimulation
• presentation of antigen by immature or unactivated APCs

Question 9

What percentage of people in industrialized countries are estimated to have an autoimmune disease?

Answer 9

3-8%

• caused by failure of tolerance processes
• may be organ-specific or systemic
• may involve antibodies, T cells, immune complexes, or any combination of elements

Question 10

What factors predispose an individual for developing an autoimmune disease?

Answer 10

• studies have linked sex hormones to gene expression changes that could help explain why women experience autoimmune diseases more frequently
• intrinsic and extrinsic factors can favor susceptibility to autoimmune disease
• The roles of genes in susceptibility to autoimmunity (certain MHC genes linked to specific autoimmune disorders)

Question 11

In most organ-specific autoimmunities, what four areas are treatments aimed at?

Answer 11

• increasing levels of missing, required gene products (thyroid hormone, insulin, acetylcholine)
• decreasing antibody production (B cell inhibitors)
• decreasing inflammatory mediators (TNA, IL inhibitors)
• decreasing costimulatory signals (CD80/86 inhibitors)

Question 12

What potential side effects are affiliated with long-term use?

Answer 12

• general toxicity, often to rapidly dividing cells (hair follicles, intestinal lining, blood cells)
• also predisposes individuals to uncontrolled infections
• can promote development of cancer by removing anti-tumor T and NK cells

Question 13

What is the holy grail of immunotherapy in treating autoimmunity?

Answer 13

Antigen-specific immunotherapy

stimulate tolerance to the auto-Ag, restoring balance

Question 14

What is an example of the holy grail of immunotherapy in treating autoimmunity?

Answer 14

glatiramer acetate has been used to treat MS

• four basic AAs found in mylein basic protein
• selectively increases TREG cells, modulating APC function
• although shifts T cell populations, it has shown only modest improvement over standard therapies

Question 15

What are the four types of tissue transplantations?

Answer 15

• autograft
• isograft
• allograft
• xenograft

Question 16

Autograft

Answer 16

transplant from the same individual

Question 17

Isograft

Answer 17

tissue transplant from genetically identical sibling or clone

Question 18

Allograft

Answer 18

transplant from genetically different member of the same species

Question 19

Xenograft

Answer 19

transplant from different species

Question 20

First-set rejection

Answer 20

complete by 12-14 days, but memory of the anti-graft response is generated; first exposure

Question 21

Second-set rejection

Answer 21

occurs much faster, completing within only 5-6 days; secondary immune iresponse

Question 22

What is the role of T cells in graft rejection

Answer 22

T cells mediate graft rejection

Question 23

Which type of T cells facilitate rejection?

Answer 23

-CD4+ more important, but CD8+ does too

Question 24

Histocompatible

Answer 24

tissues that are antigenically similar

Question 25

How do you determine MHC compatibility?

Answer 25

Cross-matching

Question 26

What allows organ transplant between completely mismatched people?

Answer 26

anti-rejection drugs (immunosuppressants)

Question 27

Sensitization Stage of Graft Rejection

Answer 27

CD4 and CD8 cells recognize alloantigens expressed on foreign graft cells

• T cells proliferate in response
• May recognize donor MHC molecules directly
• may recognize peptides from donor MHCs presented in the recipient’s own APC MHC molecules (indirect)
• Memory T cells generated

Question 28

Effector Stage of Graft Rejection

Answer 28

• generally involves heavy infiltration of recipient cells into graft tissue (similar to DTH reaction)
• can rarely involve production of Abs against donor HLA molecules or endothelial Ag

Question 29

Hyperacute rejection

Answer 29

• by preexisting antibodies
• occurs before grafted tissue ever revascularizes
• antibodies bind to graft cells and activate complement
• complete rejection may occur in as few as 24 hours

Question 30

Acute rejection

Answer 30

• mediated by T-cell responses
• begin 7-10 days post-transplantation
• induce massive infiltration of lymphocytes and macrophages
• rejection occurs through mechanisms described for effector stage of graft rejection

Question 31

Chronic rejection

Answer 31

• develops months or years after acute rejection reactions have subsided
• mechanisms include humoral and cell-mediated recipient responses
• anti-rejection drugs help, but are not perfect

Question 32

Total lymphoid irradiation

Answer 32

-used to eliminate lymphocytes
-lymphocytes extremely sensitive to x-rays
often used in bone marrow transplants or to treat GvHD
-repeated x-ray exposures to the thymus, spleen, and lymph nodes
-effectively wipes out the recipient’s own immune cells, creating a situation where donor stem cells can engraft and form a “new” immune system safely

Question 33

Azathioprine

Answer 33

• mitotic inhibitor that diminishes B- and T-cell proliferation
• can dramatically increase survival rates of allografts by inhibiting proliferation of these cells
• often prescribed with corticosteroids to prevent inflammation

Question 34

Cyclophosphamide

Answer 34

inserts into DNA helix, disrupting it

Question 35

Cyclosporin A (CsA)

Answer 35

• fungal metabolite
• acts to decrease synthesis of inflammatory cytokines by preventing the activation of key transcription factors
• not without side effects, including kidney toxicity

Question 36

In Hashimoto’s Thyroiditis, what is produced?

Answer 36

autoantibodies and sensitized TH1 cells specific for thyroid antigen

Question 37

What do autoantibodies produced in Hashimoto’s Thyroiditis do?

Answer 37

interfere with iodine uptake by thyroid, which decreases production of thyroid hormone. This results in hypothyroidism

Question 38

In Hashimoto’s Thyroiditis, a delayed-type hypersensitivity reaction occurs which results in:

Answer 38

inflammation –> goiter

Question 39

Functions of thyroid hormone

Answer 39

• controls basal metabolic rate
• protein synthesis
• sensitivity to other hormones

Question 40

What causes Type 1 Diabetes?

Answer 40

autoimmune attack against insulin-producing Beta cells in the pancreas

Question 41

Type 1 Diabetes: After CTLs infiltrate the pancreas and activate macrophages, what happens?

Answer 41

Followed by cytokine release and production of autoantibodies, which may activate complement or antibody-dependent cell-mediated toxicity activities by NK cells

Question 42

In Myasthenia Gravis, what do autoantibodies do?

Answer 42

bind acetylcholiine receptors on motor end plates of muscles

Question 43

In Myasthenia Gravis, the binding of autoantibodies on acetylcholine receptors induces:

Answer 43

complement-mediated lysis of cells

Question 44

In SLE, what kinds of autoantibodies are produced?

Answer 44

autoantibodies against DNA, histones, platelets, and other self structures

Question 45

symptoms of SLE

Answer 45

• fever
• weakness
• kidney dysfunction
• frequent skin rashes

Question 46

in SLE, autoantibodies against RBCs and platelets induce

Answer 46

complement-mediated lysis

Question 47

In SLE, autoantibodies against nuclear antibodies can deposit on walls of small blood vessels resulting in:

Answer 47

type III hypersensitivity reaction

Question 48

In MS, autoreactive T cells form:

Answer 48

inflammatory lesions along myelin sheaths around nerve fibers in the brain and spinal cord

Question 49

Breakdown of myelin sheaths around nerves leads to a range of symptoms:

Answer 49

numbness to paralysis and loss of vision

Question 50

What virus may predispose a person to MS?

Answer 50

Epstein-Barr virus

Question 51

What factors may predispose a person to MS?

Answer 51

• Epstein-Barr virus
• hygiene hypothesis
• sunlight exposure

Question 52

_______ is a known immune modulator that promotes anti-nflammatory response.

Answer 52

Vitamin D

Question 53

What is the major symptom of Rheumatorid arthritis?

Answer 53

chronic inflammation in joints

Question 54

In rheumatoid arthritis, autoantibodies are reactive with:

Answer 54

determinants in the Fc region of IgG

Question 55

Rehumatoid factos are often produced in rheumatoid arthritis and form _____ complexes and activate complement cascades.

Answer 55

immune