The Humoral Immune Response

Question 1

What stage of antigen independent B-cell development does positive selection for a good BCR occur in?

Answer 1

Pre-B cell stage

Question 2

What stage of antigen independent B-cell development is characterized by B-cell tolerance?

What are the three features of B-cell tolerance?

Answer 2

Immature B-cell stage.

1. BCR editing
2. Deletion
3. Anergy

Question 3

What antigen dependent events occur in the paracortex to help the B-cell differentiate?

Answer 3

1. APC presents the antigen to a T-cell
2. T-cell proliferates and differentiates
3. T-cell interacts with B cell (CD40/40L) to provide “signal 2” to the B cell
4. The B-cell receives cytokines and either:
   a. ) forms a Primary focus to release Ab
   b. ) migrate to the cortex of the LN or spleen to enter a follicle for further differentiation

Question 4

What events occur in the dark zone of the germinal center?

What events occur in the light zone?

Answer 4

B-cells enter the germinal center from the paracortex and in the dark zone:

1. clonally expand
2. somatic mutation (AID dependent)

In the light zone:

1. FDC helps select the most fit B-cell
2. B-cells go through class switching

Question 5

What are the four major differences between the 2nd and 1st response to an antigen?

Answer 5

1. 2nd is quicker
2. more antibody is made
3. IgG>>IgM
4. The antibody has higher affinity for the antigen

Question 6

The primary IgM response arises from the activation of ___________________.

During the lag phase, what three major events occur?

Answer 6

virgin (naive) B-cells

Lag Phase events:

1. B-cell recognizes antigen
2. Clonal expansion of B-cell
3. Differentiation in the primary focus

Question 7

Because in the primary response, the B-cells differentiate in the primary focus rather than the germinal center, what will be missing from the IgG cells?

Answer 7

Affinity maturation (no somatic rearrangement or FDC “survival of the fittest”)

Question 8

What is the time line of IgM titer after first antigen exposure?

Answer 8

7 days- IgM appears

10 days- IgM peaks

14 days- IgM returns to baseline

Question 9

You take a serum patient sample and the IgM titer is higher than the IgG titer. What information does this give you about the infection?

Answer 9

It is a primary infection (first exposure to this antigen) and it is a very RECENT INFECTION (IgM develops before IgG)

Question 10

What B cells are critical for fueling a secondary immune response?

Where are they located?

Answer 10

Memory B-cells (class-switched and mutated)

They are located in the marginal sinus or subcapsular sinus

Question 11

Which antibody increases quicker upon secondary exposure to an antigen? Why?

Answer 11

IgG predominates and arises faster because memory B cells have higher affinity IgG BCR.

Question 12

What two factors cause the secondary immune response to be quicker and stronger?

Answer 12

1. Memory B-cells are in the marginal sinus so they will encounter the antigen faster
2. Memory-B cells have reduced activation threshold (don’t need two signals like naive B-cells)

Question 13

What type of dendritic cell is found in the paracortex of the LN?

What type of DC is found in the cortex?

Answer 13

Interdigitating DCs are in the T-cell zone to present antigen to the T-cells

FDC are in the B-cell follicles in the cortex of the LN

Question 14

What are the three products of a successful immune response?

Answer 14

1. Effector T- Cells
2. Memory T and B cells
3. Plasma cells and antibodies

Question 15

What determines whether a cell will be a B-cell or a plasma cell?

Answer 15

RNA splicing events because there are (s) and (M) components that stand for secreted or membrane bound.

If the (s) exon is spliced next to the VDJ and Fc it will be secreted

Question 16

What homing receptors on activated B and T cells will direct them to the inflamed tissue?

Answer 16

VLA4 to VCAM1 on the inflammed tissue

LFA1 to ICAM1 on the inflammed tissue

Question 17

The presence of what cell allows the Memory B-cell to sample invading antigens?

Answer 17

Macrophages are in the subcapsular and marginal sinus so they can engulf and present antigens to the memory B-cells

Question 18

Where would one find short-lived plasma cells?

Where do they secrete antibodies?

Answer 18

medullary cords of the LN or red pulp of the spleen.

They secrete antibodies into the efferent lymphatics

Question 19

When plasma cells, Ig and effector lymphocytes flow out the efferent lymphatics, where do the plasma cells go?

What type of cell do they become and where do these cells secrete their antibodies?

Answer 19

They go to the bone marrow where they become long-lived plasma cells. They secrete Ig into the blood, contributing to serum levels of Ab.

Question 20

In order for BCRs to generate a signal, what needs to happen?

Answer 20

Two or more adjacent IgM and/or IgD need to be crosslinked by the antigen

Question 21

What kind of antigen is best for crosslinking on adjacent BCRs?

Answer 21

1. Aggregated antigens
2. Antigens folded in native conformation

Question 22

What are the steps involved in BCR activation? (8)

Answer 22

1. Adjacent BCRs use crosslinking to bind the antigen
2. ITAM motifs of the CD79 (Iga and Igb) get phosphorylated
3. The phosphorylated ITAM recruits Syk
4. Syk phosphorylates several molecules via BTK intermediate
5. BTK (via BLNK) phosphorylates and activates PLCgamma2
6. PLC generates DAG and IP3
7. IP3 and DAG activate calcium, calcineurin, NFAT, PKC, NFKb, MAP kinases
8. These activate TF that regulate cell division, differentiation, co-stim, cytokines

Question 23

What is the role of signaling via the B-cell coreceptor?

Answer 23

To amplify the BCR-mediated signal

Question 24

Antigen coated with _______________ has the potential to engage a key B-cell coreceptor, ___________________ also known as ______________________.

Answer 24

1. complement C3d
2. CD21
3. complement receptor 2 (CR2)

Question 25

When C3d binds the CD21 on the B-cell, what other component of the B-cell coreceptor is phosphorylated and activated?

Answer 25

CD19 which recruits PI3K, VAV, Fyn and Lyn

Question 26

What does CD19 do after it is phosphorylated?

Answer 26

recruits signaling molecules: VAV, Fyn, Lyn and PI3K

Question 27

What recruits PI3K, VAV, Fyn and Lyn to the B-cell?

What do these signaling factors do?

Answer 27

They are recruited by CD19 and augment phosphorylation of ITAMs

Question 28

Co-ligation of the BCR and CD21 complex has the net effect of:

Answer 28

amplifying signal 1.

(signal 2 is NOT involved. signal 2 for the B cell is the interaction between CD40/40L with the T cell)

Question 29

What are two mechanisms by which the activated B-cell can be shut off or ramped down?

Answer 29

1. The removal of antigen removes ligand for the BCR so this will ramp down B-cell activation
2. CD32B (FcRgammaIIb) and CD22 are molecules on the surface of B cells that can transmit a negative signal by activating phosphatases in the cell to dephosphorylate key signaling molecules

Question 30

Signal delivered by ________ to ___________ constitutes signal 2 for B-cell activation. Absence of the ligand, _____ results in ____________________syndrome because:

Answer 30

1. CD40L on the T cell
2. CD40 on the Bcell
3. CD40L
4. Hyper IgM Syndrome - because T cell/Bcell linked recognition is required for mature B cells to be activated and enter the germinal centers (where somatic mutation and class switching occur)

Question 31

What two molecules help amplify signal 1 of B-cell activation?

Answer 31

CD21 reacts to antigen bathed in complement (C3d) and phosphorylates CD19 which activates Fyn and Lyn, PI3k and VAV to help phosphorylate ITAMs.

Question 32

What molecules dampen the BCRs signal by binding CD32B (FCgammaRIIb)?

Answer 32

Ab+Antigen immune complex

Question 33

What molecule on the B-cell delivers signal one to the T-cell?

Answer 33

MHC/peptide complex

Question 34

What structure on the B-cell delivers signal 2 to the T-cell?

Answer 34

CD80/CD86 (B7-1 and B7-2) on the B-cell engage with the CD28 of T-cells

Question 35

What are the three major characteristics of T-dependent B-cell maturation?

Answer 35

1. memory
2. class-switching
3. affinity maturation (somatic mutation, FDC survival of the fittest)

Question 36

What are the two types of antigens that can do T-indenpendent activation of B-cells?

Answer 36

1. TI-1 ligands like LPS that can trigger B-cells polyclonally as a mitogen (not antigen specific)
2. TI-2 ligands which are polymeric antigens that are able to cross-link specific BCRs to a high degree of crosslinking

Question 37

TI-1 ligands like ____ trigger all B-cells ___________.

Answer 37

LPS; polyclonally

Question 38

TI-2 lignads are _______________________ that cross-link specific BCRs to a high degree of cross-linking.

Examples include: (4)

Answer 38

polymeric antigens

1. flagellin
2. dextran
3. Ficoll
4. *** bacterial polysaccharides

Question 39

Can TI-1 and TI-2 antigens make germinal centers?

Answer 39

No because to make a germinal center there must be linked recognition by the T-cell.

They are able to make primary centers though so they can make IgM and IgG but there is no class-switching or somatic mutation

Question 40

Where are TI-2 B-cells mostly induced?

Answer 40

1. marginal zone
2. In B1 cells

Question 41

What type of receptor is engaged on the B-cell by a TI-1 antigen?

What type of cell does it turn the B-cell into?

Answer 41

TLR which results in the differentiation of the B-cell into an IgM-secreting cell

Question 42

What does the TI-1 antigen contain that allows it to activate the B-cell without a T-cell?

What does the TI-2 antigen have that allows it to activate the B-cell?

Answer 42

1. a mitogen
2. it is polyvalent so it can crosslink BCR to a high degree

Question 43

What do TI-2 antigens still require in order to initiate optimal antibody response?

Answer 43

Cytokine release from T-cells

Question 44

What surface molecule is expressed by B1 cells?

Where are B1 cells usually located?

Answer 44

CD5

They are expressed in the peritoneal and pleural cavities (primary B-cell found in newborns)

Question 45

What are the benefits of the T-cell independent B-cell activations?

Answer 45

1. FAST production of IgM
2. agglutination of antigen
3. Binding of complement

Question 46

What are the major targets for drug development in B-cell activation?

Answer 46

Syk, BTK, PI3K, NFK-b, MAP kinases

Question 47

What two drugs target calcineurin?

Answer 47

Cyclosporin and FK506

Question 48

What is Bruton’s disease also called?

What gene is mutated in this disease?

What cell levels are normal?

What cell levels are depleted?

Answer 48

X-linked agammaglobulinemia

Mutated BTK gene

Normal Pre-B cell count

Low activated B-cells and serum Ig

Question 49

What are three bacteria that operate as TI-2 antigens?

Why are they T-independent?

Who is most susceptible to infection by TI-2 antigens?

Answer 49

1. Strep pneumonia
2. Hemophilis influenza
3. meningococcal polysaccharides

They are unable to be presented by MHC molecules so they can’t depend on T-cells

Children up to 2 years old and people who have had splenectomy are most susceptible because they lack marginal zone B cells

Question 50

How should patients who have had a splenectomy (lack marginal zone) be immunized against TI-2 antigens?

Answer 50

Conjugate the pathogen to a protein that can bind non- marginal zone cells be internalized and proteolyzed and presented on the MHC