T Cell Immunity

Question 1

what signals stimulate dendritic cell maturation in BACTERIAL infections

Answer 1

TLR agonists (like PAMPs) induce CYTOKINE production by epithelial cells and tissue macrophages; the cytokines stimulate dendritic cell maturation

Question 2

what signals stimulate dendritic cell maturation in VIRAL infections

Answer 2

1. type I interferons promote dendritic cells maturation
   AND
2. TLR agonists induce cytokine production, promoting dendritic cell maturation

Question 3

what are the PRIMARY T-cell activators

Answer 3

dendritic cells

Question 4

characteristics of immature dendritic cells

Answer 4

-tissue resident, quiescent
-HIGHLY endocytic
-LOW level of expression of costimulatory molecules and HLA
-POOR stimulators of T cells

Question 5

characteristics of mature dendritic cells

Answer 5

-migrates to LYMPH NODES
-endocytosis is shut down
-HIGH level expression of costimulatory molecules and HLA
-HIGHLY stimulatory for T cells

Question 6

where do mature (activated) dendritic cells present their antigens to T cells

Answer 6

in the PARACORTEX (T-cell rich area) of the lymph nodes

Question 7

how do T cells enter the paracortex of lymph nodes

Answer 7

across high-endothelial venules (HEVs)
*circulating T cells “hop” from one dendritic cell to another, looking for their antigen
*if they don’t find it, they leave and continue to circulate through the blood
*T cells that encounter their antigen proliferate and differentiate into effector cells

Question 8

what is the first type of interaction between dendritic cells and T cells

Answer 8

adhesion molecule interactions (low-affinity)
*LFA-1 on T cell interacts with ICAM-1 on APC
-if T cell does not recognize, then T cell leaves
*if T cell DOES recognize, then LFA-1 changes conformation and increases affinity to prolong cell-cell contact

Question 9

what are the 3 signals necessary for T-cell activation by antigen-presenting cells (APCs)

Answer 9

1. TCR recognition of HLA-bound epitope & CD4/8 association with class I/II HLA
2. interaction of CD80/86 (B7-1 or B7-2) on the dendritic cell with CD28 on the T cell
3. activated T cells need inflammatory cytokines or type I interferon to be functional

Question 10

signal 1 in T-cell activation

Answer 10

TCR recognition of HLA-bound epitope & CD4/8 association with class I/II HLA
*interaction via adhesion molecule interaction (LFA-1 on T cell with ICAM on dendritic cell)

Question 11

signal 2 in T cell activation

Answer 11

interaction of CD80/86 (B7-1 or B7-2) on the dendritic cell with CD28 on the T cell
*CD28 interaction leads to:
a. increased IL-2 transcription (growth factor for T cells) and mRNA stability
b. increased Bcl-xL (anti-apoptotic protein)

Question 12

what is the major advantage of the CD80/86 - CD28 interaction in the activation of naive T cells (signal 2)

Answer 12

prevention of clonal amplification of T cells bearing TCRs that recognize self-peptides (minimize self-reactivity)

Question 13

role of CTLA-4 during T cell activation

Answer 13

CTLA-4 on T cells competes with CD28 for CD80/86 to prevent over-activation

Question 14

CTLA-4 inhibitors

Answer 14

*sometimes CTLA-4 inhibitors are used as therapy to prevent T cells from self-regulating, creating a more robust immune response to tumor burden

Question 15

activation and proliferation of CD8+ T cells

Answer 15

1. secrete IL-2 (a T-cell growth factor)
2. upregulate the high-affinity IL-2 receptor
   *the secreted IL-2 binds the IL-2 receptor, promoting T-cell growth and proliferation
3. signals from the dendritic cell (IL-12 or type I interferon) give the T cells the ability to lyse cells and produce cytokines of their own (perforins & granzymes)

Question 16

activation and proliferation of CD4+ T cells

Answer 16

1. express IL-2 receptor and secrete IL-2
2. CD40-L expression (helps activate B cells)
3. assume a CD4+ fate, based on which signal 3 they received

Question 17

function of activated CD8+ T cells

Answer 17

target cells for destruction in which cytoplasmic localized pathogens (e.g. viruses) are present

Question 18

fates of activated CD4+ T cells

Answer 18

1. CD4+ Th1 cell
2. CD4+ Th2 cell

Question 19

CD4+ Th1 cells

Answer 19

activate macrophages to kill vesicle-bound pathogens and enhance the expression of certain IgG isotypes
*secretes IFN-gamma, TNF-alpha, and Il-2
*Th2 signals INHIBIT Th1

Question 20

CD4+ Th2 cells

Answer 20

promote the activation of B cells and the expression of certain IgG isotypes
*secretes IL-4, IL-5, IL-6, IL-10, and IL-13
*Th1 signals INHIBIT Th2

Question 21

regulatory T cells

Answer 21

help maintain specific immune tolerance by suppressing CD4 and CD8 T-cell effector functions
*produce anti-inflammatory cytokines
*kill self-reactive cells

Question 22

thymic aplasia (DiGeorge Syndrome) - 22q11 deletion

Answer 22

-leads to an absent thymus (and absent parathyroids)
CATCH-22:
*cleft palate
*abnormal facies
*thymic aplasia
*conotruncal abnormalities (tetralogy of Fallot)
*hypocalcemia
*22q11 deletion

Question 23

what signal 3 induces differentiation into a Th1 cell

Answer 23

IFN-gamma & Il-12

Question 24

what signal 3 induces differentiation into a Th2 cell

Answer 24

IL-4

Question 25

what signal 3 induces differentiation into a Th17 cell

Answer 25

TGF-beta, IL-1 & IL-6

Question 26

what signal 3 induces differentiation into a regulatory T cell

Answer 26

TGF-beta & IL-2

Question 27

deficiency in Th1 cells leads to

Answer 27

susceptibility to mycobacterial disease

Question 28

deficiency in Th17 cells leads to

Answer 28

hyper-IgE syndrome

Question 29

deficiency in regulatory T cells leads to

Answer 29

IPEX (autoimmunity)

Question 30

cytokine profile of Th1 cells

Answer 30

1. IL-2: T cell proliferation
2. IFN-gamma and TNF-alpha: macrophage activation; increased HLA expression

Question 31

cytokine profile of Th2 cells

Answer 31

1. IL-4: B cell activation; class-switching to IgG1 and IgE
2. IL-5: B cell activation; eosinophil growth and differentiation
3. IL-6: B cell activation; enhances Th2 cell development
4. IL-10: inhibits the generation of Th1 cells
5. IL-13: B cell activation; class switching to IgG1 and IgE

Question 32

what guides T cells to site of infection

Answer 32

expression of chemokine receptors and adhesion molecules