Ch. 11

Question 1

Summarize a day in the life of a naive T cell

Answer 1

• After T cells leave the thymus, they enter circulation on an epic journey to find their cognate antigen
o Highly motile, but otherwise boring cells (G0 of the cell cycle, chromatin is condensed, little cytoplasm and little transcriptional activity)
 Travel between SLO sites using blood circulation every 12-24 hours
• If t cells scan through and SLO and cannot find their cognate antigen, they simply leave and move on to the next SLO
• However, if they do happen to find an APC presenting their antigen, then IT. IS. ON!

Question 2

What is Signal 1 of T cell activation?

Answer 2

o The first requirement for T cell activation is antigen recognition via TCR/MHC (& coreceptor) interactions
 The low-affinity interactions of MHC/TCR at the contact point between the cells in a region called the central supramolecular activating complex (cSMAC) are stabilized by coreceptors CD4/8 & CD3
• This increases the avidity of the synapse
o Avidity=you can make a strong binding of weak bonds if there are several of them (like h-bonds in water)

Question 3

What is signal 2 of T cell activation?

Answer 3

o However, even further contact must be made between an APC and a T cell for full activation
 Activating coreceptors
• CD28 binding CD80/86
 Adhesion molecules in the peripheral supramolecular activating complex (pSMAC)

Question 4

What is signal 3 of T cell activation?

Answer 4

o However, even further contact must be made between an APC and a T cell for full activation
 Activating coreceptors
• CD28 binding CD80/86
 Adhesion molecules in the peripheral supramolecular activating complex (pSMAC)

Question 5

All three signals are necessary, with 1&2 triggering “activation,” and 3 indicated what the cell should differentiate into. What is the response?

Answer 5

In response, IL-2 is produced to trigger cell proliferation

Question 6

Under what circumstances does clonal anergy result for a T cell?

Answer 6

• result if a costimulatory signal is absent
• this helps provide tolerance (especially in periphery)
• if only signal one is received, the cell is rendered nonresponsive (might happen if a T cell isn’t screened against a peripheral self-antigen during development)

Question 7

Autocrine signaling of IL-2 has what outcome for an activating T cell?

Answer 7

• IL-2 is an example of an autocrine type of cytokine response system
  
  • T cells produce the cytokine and the receptor for it
  • Binding of this ligand induces a very strong proliferation signal during activation stages

Question 8

What are polarizing cytokines?

Answer 8

cytokines that can send the T cell down different subset developmental pathways

Question 9

What are superantigens

Answer 9

special class of T-cell activators
- viral/bacterial proteins that bind to specific VB regions of TCRs and a chain of class II MHC molecules

Question 10

Why are superantigens detrimental to our health?

Answer 10

• Specific for the VB
• Any T cell expressing the particular VB chain will be activated
  
  • effectively short-circuits activation by antigen
  • activates large numbers
• produces dramatic cytokine secretion by large proportion of inappropriately activated T cells (cytokine storm)

Question 11

Cytokine storm

Answer 11

DIC, shock, lung injury, cardiac damage, immune paralysis, renal failure

Question 12

What are the three outcomes of the signaling between a dendritic cell APC and a naive T cell?

Answer 12

• cell survival
• cell cycle entry
• cell differentiation

Question 13

How many cells can be derived from a single activated naive T cell that has developed into a blast cell? How many days does it take for this population of cells to be formed in an SLO?

Answer 13

1-2 days following activation via interaction with an APC in a T-cell zone of an SLO, T cells will enlarge into a blast cell which starts undergoing repeated rounds of cell divisions
-divide 2-3 times a day for 4-5 days
-2 divisions for 4 days=256 cells
-3 divisions for 5 days=32,768
production of memory and effector clonal cell populations

Question 14

What is the purpose of an effector CD4+ cell?

Answer 14

CD4+ effectors secrete cytokines to regulate the activity of the other immune cells

• some subtypes stay in SLO to help B cells and generate memory
• others return to sites of infection and enhance activity of phagocytic and cytotoxic cells

Question 15

What is the purpose of an effector CD8+ T cell?

Answer 15

CD8+ effectors leave lymphoid tissues and circulate to sites of infection, binding and killing infected cells

Question 16

What are the five main T helper subsets discussed in this section?

Answer 16

TH1, TH2, TH17, TREG, TFH

Question 17

Describe how an APC dictates which T helper subset a naive T cell should develop into.

Answer 17

• subtype is determined by polarizing cytokines
  
  • APCs may bind PAMPs via PRRs, inducing cytokine secretion
    
    • different PRRs engaged (via different antigens)= different cytokines present
      
      • viruses stimulate IL-12 and IFN-y which induce TH1
      • worms stimulate IL-4 and IL-6 which induce TH2 subsets

Question 18

Which T cells regulate cell-mediated immunity?

Answer 18

TH1 and TH17

Question 19

Which T cells regulate humoral immunity?

Answer 19

TH2 and TFH

Question 20

Which T cell subsets cross-regulate each other?

Answer 20

• TH1 and TH2 pair

- TH17 and TREG pair

Question 21

What are the polarizing cytokines, master gene regulator, and effector cytokines of TH1 cells?

Answer 21

• Polarizing cytokines= IL-12, IFN-y, IL-18 (antiviral interferons)
• Master gene regulator= T-Bet
• Effector cytokine= IFN-y and TNF

Question 22

What are the polarizing cytokines, master gene regulator, and effector cytokines of TH2 cells?

Answer 22

• Polarizing=IL-4
• Master gene regulator= GATA-3
• Effector cytokine= IL-4, IL-5, IL-13

Question 23

What functions do the effector cytokines of TH1 perform?

Answer 23

1. Activates macrophages (stimulates microbicidal activity, MHC II expression)
2. Leads to class switching to IgG classes that support phagocytosis, complement fixation, and cytotoxicity
3. Supports differentiation of antiviral CD8+ killer T cells due to IFN-y secretion

Question 24

What functions do the effector cytokines of TH2 perform?

Answer 24

1. Activates eosinophils to express IgE receptors
   a. When eosinophils bind IgE-tagged pathogens, they release their inflammatory mediators
   b. This interaction is also particularly important in allergic reactions
2. Leads to class switching to IgE/IgG1 classes in B cells, which supports inflammatory mediator release from granulocytes
   Suited for extracellular infections and problematic in IgE-mediated allergies

Question 25

Describe the cross-regulation between TH1 and TH2 cells

Answer 25

• TH1/TH2 subsets are generally inhibitory to each other
• Cytokines can achieve cross-regulation
o IFN-y from TH1 responses inhibits IgE class switching (a common TH2-induced response)
o IL-4 from TH2 responses inhibits production of IgG2a (a common TH1-induced response)
• Master regulators commit T cells to one subset or the other
o T-Bet suppresses TH2 pathway gene expression
o GATA-3 suppresses TH1 pathway gene expression

Question 26

What are the polarizing cytokines, master gene regulator, and effector cytokines of TH17 cells?

Answer 26

Polarizing cytokines= IL-6 and TGF-B
Master gene regulator= RORyt
Effector cytokines= IL-17A, IL-17F, IL-22

Question 27

What functions do the effector cytokines of TH17 cells perform?

Answer 27

IL-17A is associated with chronic inflammatory and autoimmune responses
TH17 cells are the dominant inflammatory cell type in chronic autoimmune disorders
• IL-17A may play a role in warding off fungal and extracellular bacterial infections by promoting tissue inflammation

Question 28

What are the polarizing cytokines, master gene regulator, and effector cytokines of TREG cells?

Answer 28

• Polarizing cytokines=TGF-B and IL-2
• Master gene regulator=FOXP3
• Effector cytokines=IL-10 and TGF-B

Question 29

What functions do the effector cytokines of TREG cells perform?

Answer 29

IL-10 and TGF-B downregulate inflammation (by inhibiting APCs) and suppress other T-cell subsets
Regulation, suppression of immune and inflammatory responses

Question 30

Describe the cross-regulation between TH17 and TREG cells

Answer 30

• TGF-B is a key cytokine for differentiation of both subsets
• IL-6 is the “switch,” allowing RORyt to dominate and induce TH17 subset differentiation instead

Question 31

What are the polarizing cytokines, master gene regulator, and effector cytokines of TFH cells?

Answer 31

• Polarizing cytokines=IL-6 and IL-21
• Master gene regulator=Bcl-6
• Effector cytokines=IL-21 and IL-4

Question 32

What functions do the effector cytokines of TFH perform?

Answer 32

IL-21 and IL-4 promote B-cell differentiation

Question 33

Describe the features of TEM cells

Answer 33

o Travel to/between tertiary tissues (skin, lung, liver, intestine, etc.)
o Still committed to a particular T-cell subset
o Contribute better to first-line defenses
 Shift right back into effector functions on second Ag exposure

Question 34

Describe the features of TCM cells

Answer 34

o Reside in/travel between secondary lymphoid tissues
o Live longer/divide more times than TEM cells
o Are rapidly reactivated by second Ag exposure
o Can differentiate into several subset types depending on cytokine environment

Question 35

How do we tell naive T cells, TEM cells, and TCM cells apart?

Answer 35

o We can differentiate naïve, effector, and memory T cells by differences in surface protein expression
o Three surface markers can differentiate the sets
 CD44= an adhesion protein allowing extravasation from blood vessels
 CD62L= an adhesion protein
 CCR7= a chemokine receptor