The Life of a B-Cell: Surveillance and Warfare

Question 1

What is the chance of a B-cell sensing its specific antigen in the periphery?
How long does it take for a B-cell to circulate through the body?

Answer 1

1/10^6

The total circuit time varies between 12 and 24 hours

Question 2

What is a B-cell that has not seen an antigen called?

Answer 2

Naive or virgin mature B-cell

Question 3

What is the path of the B cell when it enters the spleen or LN?

Answer 3

It transverses the T-cell zone toward the B-cell follicles

Question 4

How long can a B-cells live while they are recirculating?

Answer 4

several weeks to a couple months

Question 5

What type of pathogens does the spleen monitor for?

Answer 5

blood-borne pathogens

Question 6

What type of pathogens does the lymph nodes monitor for?

Answer 6

tissue-derived pathogens (from liver, skin, brain, etC)

Question 7

What type of pathogens does the MALT monitor for?

Answer 7

Pathogens entering via the mucosal portal

Question 8

What type of pathogens does the GALT monitor for?

Answer 8

Enteric pathogens (including those in Peyer’s patches)

Question 9

How many WBCs are there per microliter of blood?

Answer 9

4000-11,000

Question 10

How many lymphocytes are there per microliter of blood?

Answer 10

1000-4000

Question 11

What percent of all WBCs in blood are lymphocytes?

Answer 11

15-40%

Question 12

What is the ratio of T to B cells in most secondary lymphoid organs?

Answer 12

2:1

Question 13

What types of cells are found in the thoracic duct lymph?

Answer 13

1. effector T cells
2. memory B cells
3. plasma cells

(very few naive lymphocytes)

Question 14

What structure rejoins the lymph to the blood?

Answer 14

thoracic duct lymph rejoins blood circulation in the subclavian vein

Question 15

How do naive lymphocytes gain access to the LN?

Answer 15

L-selectin on the lymphocyte binds to GlyCAM or CD34 on the HEV

Question 16

After lymphocytes are activated in the LN or spleen, what happens to their cell surface molecules?

Answer 16

L-selectin is downregulated so the effector lymphocyte won’t reenter the LN or spleen.
VLA4 and LFA1 are upregulated to direct the lymphocyte to inflamed tissue

Question 17

What homing receptor pair is most important for extravasation of lymphocytes from the LN to the target tissue?

What are the ancillary pairs?

Answer 17

VLA4/VCAM1 is most important

LFA1/ICAM and CD2/LFA3 are ancillary

Question 18

What ligand/addressin is crucial for delivery of lymphocytes to the skin?

Answer 18

CLA

Question 19

What ligand/addressin is crucial for delivery to the GALT (gut)

Answer 19

a4b7 integrin

Question 20

What splenic structure serves the same function as the subcapsular sinus of the LN?

Answer 20

the marginal sinus

Question 21

Where are primary B follicles located in the LN?

Where are they located in the spleen?

Answer 21

LN- cortex

Spleen- white pulp

Question 22

Through what structure do naive lymphocytes enter the LN?

The spleen?

Answer 22

LN- through HEV in the paracortex

Spleen- through central arterioles in the PALS

Question 23

Where are T cells located in the LN?

In the spleen?

Answer 23

LN- paracortex

Spleen- periarteriolar lymphoid sheath (PALS)

Question 24

Where are plasma cells and macrophages located in the LN?

The spleen?

Answer 24

LN- medulla

Spleen- red pulp

Question 25

What is the difference between a primary and secondary B-cell follicle?

Answer 25

Primary- no germinal center

Secondary- germinal centers with proliferating B cells

Question 26

What constitutes the White pulp of the spleen?

Answer 26

B and T cell zones (follicles and PALS)

Question 27

What cells localize primarily to marginal sinus and subcapsular sinus? What is the function of these cells?

Answer 27

1. Marginal zone macrophages and B-cells which are important for T-independent immune responses
2. Memory B-cells to sense pathogens entering via afferent lymph

Question 28

What are the two ways the body protects from potentially cross-reactive B-cells that attack self-antigens?

Answer 28

1. Central B-cell tolerance testing in the bone marrow

2. Two trigger activation of B-cells in the periphery (antigen trigger on BCR and Helper-T trigger via CD40)

Question 29

What are the two signals needed to fully activate a B-cell?

Answer 29

1. Antigen triggers BCR

2. Helper T-Cells trigger B-cell via CD40

Question 30

Autoimmunity can only occur under what conditions?

Answer 30

If self-tolerance is breached in BOTH B and T cell compartments

Both atuoreactive B cells and autoreactive T cells must be specific for the same antigen and both must be present to elicit an autoimmune response

Question 31

What does the CD40L molecule bind to? What is the function?

Answer 31

It binds to CD40 on the B cell and it sends the second activation signal to the B-cell.

(signal 3 is cytokines just like T-cells)

Question 32

How do B and T cells specific for the same antigen rendezvous to activate each other?

Answer 32

DC presenting the antigen arrest the recirculating naive lymphocytes in the T-cell zone RIGHT at the exit from the HEV or central arteriole

Question 33

What are the four key events that must occur for B and T cells to co-activate?

Answer 33

1. Interdigitating DCs that picked up the pathogen position themselves in the T-cell zone (PALS or paracortex) at the exit from HEV or central arteriole
2. Naive T cells exiting the HEV sense the cognate antigen and slow down dramatically to sample the antigenic peptides
3. Naive B cells zipping out of the HEV toward the follicle ALSO slow down dramatically to sample in the paracortex
4. LINKED RECOGNITION- B and T cells specific for the same antigen activate each other

Question 34

Do the B-cell and T-cell epitopes need to be the same for Linked Recognition to occur?

Answer 34

They don’t need to be the same or even overlap as long as the antigen has BOTH the B and T cell epitopes somewhere on them

Question 35

After the BCR recognizes an antigen, signal 1 is triggered. What three key events ensue?

Answer 35

1. The antigen is endocytosed, processed and presented as MHC II
2. CD40 is up-regulated
3. CD80/CD86 are upregulated

Question 36

Why does the B-cell upregulate MHCII when it binds to an antigen?

Answer 36

The MHCII/peptide complex allows T-cells specific for the same antigen to bind aand the B-Cell is able to deliver “signal 1” to the T-cell

Question 37

What does the B-cell upregulate CD80/86 when it binds an antigen?

Answer 37

CD80/CD86 (B71-B72) binds to and activates CD28 which is the second signal for activating a T-cell

Question 38

When the B-cell delivers signal 1 (MHCII/peptide) and signal 2 (CD28 activation), the T cell becomes fully activated. What is the next step of linked recognition?

Answer 38

Since the T cell is activated, it upregulates CD40L, which binds to the CD40 upregulated on the B cell delivering signal 2 to the B-cell.

Question 39

What cells are T-cells in the T-cell zone most likely to receive their signals 1,2, and 3 from?

Answer 39

Dendritic cells although B-cells reactive to the same antigen can do the same

Question 40

What are the two fates that B-cells activated in the T-cell zone have?

Answer 40

1. undergo cell division and mature into plasma cells in the primary focus to release Ab
2. Move toward the B-cell follicle in the cortex to form a germinal center

Question 41

What are the two main regions of the germinal center? What events occur in each?

Answer 41

Dark Zone:
1. B-cell enters from the T-cell zone
2. Clonal expansion
3. Somatic mutation
Light Zone:
1. FDCs determine the "fittest"::B-cells (the rest die..in fact the majority die)
2. Class-switching occurs

Question 42

What is somatic mutation?
Where does it occur?
When?

Answer 42

Somatic mutation is when mutations are randomly inserted into the hypervariable regions to increase avidity of the B-cell for the antigen
It occurs in the dark zone of the germinal center in the cortex of the LN or spleen
It occurs AFTER antigen recognition

Question 43

What is the key enzyme for somatic mutation of the B-cell hypervariable region?

Answer 43

AID (activation-induced cytidine deaminase)

Question 44

What is a follicular dendritic cell? Where is it located and what function does it serve?

Answer 44

FDC is a dendritic cell loaded with antigen in the germinal center of a follicle of the LN or spleen.
B-cells compete to bind to the antigen on the FDC and those with the highest avidity survive, the rest die in the light zone of the follicle

Question 45

What are the 2 events that occur in affinity maturation?

Which is antigen independent?

Answer 45

1. random somatic mutation to increase affinity for the antigen- antigen independent
2. positive selection for the B-cell clones with the highest avidity via FDCs

Question 46

What cells help the B-cells class-switch their Ig heavy chain isotope?
What surface molecule and cytokine mediate the process?
What enzyme is required?

Answer 46

Tfh mediated by CD40L and IL-21 cytokine.

AID (activation induced cytidine deaminase) is the enzyme that assists

Question 47

What are the two products of the germinal center reactions?

Answer 47

1. plasma cells

2. memory cells

Question 48

Where do plasma cells reside?

Answer 48

Splenic red pulp, LN medulla, and long lived plasma cells reside in the bone marrow

Question 49

How long do plasma cells in the medulla of the LN and splenic red pulp live?

Answer 49

several months to a year

Question 50

Ig from what plasma cell source account for the majority of serum Ab?

Answer 50

Long-lived plasma cells in the bone marrow

Question 51

What are the three major distinguishing features of a memory B-cell?

Answer 51

1. Class-switched and lack IgD
2. higher affinity for antigen because of somatic mutation and positive selection by FDCs
3. reduced threshold for activation

Question 52

Where are memory B-cells located?

Answer 52

1. Subcapsular and marginal sinuses to readily encounter antigens as they enter the LN or spleen
2. B-cell follicles

Question 53

What stage of the cell cycle are memory B-cells in?

Answer 53

G0 but can be quickly activated to cycle

Question 54

What two surface molecules are upregulated in memory B-cells?

Answer 54

MHC II and CD80/86

Question 55

What is class-switching?

Does it occur prior to or after antigen recognition?

Answer 55

Any constant region can be associated with the VDJ region that was selected for (recognized the specific antigen).

It occurs after Ag recognition and is T-cell regulated

Question 56

What is the purpose of class-switching?

Answer 56

It maintains specificity for a foreign antigen but changes the effector function

Question 57

Which Ig chain does class switching occur in?

Answer 57

It happens in the Fc region so it only affects the Ig heavy chain

Question 58

What features of the DNA allow class-switching to occur?

Answer 58

There are switch sequences at the 5’ end of each constant region (Cmu, Cgamma,Cdelta,Cepsilon, Calpha)

Question 59

At what level (DNA or RNA) does class switching occur? How does it happen?

Answer 59

It occurs at the level of DNA and there is Ch recombination with deletion of the intervening DNA sequences.
Allelic exclusion ensures that only 1 heavy chain is recombined

Question 60

In what direction does class-switching occur?

What enzyme mediates class-switching?

Answer 60

5’ to 3’ on one chromosome (NEVER reverse)

AID enzyme and cytokines like IL-21

Question 61

Where are “switch sequences” located on the DNA? (3’ to what and 5’ to what)
What do they allow to happen?

Answer 61

3’ to the VDJ region and 5’ to the Ch region (gamma, alpha, epsilon etc)
The switch sequences juxtapose the same VDJ to different constant regions allowing class-switching of the Ab.

Question 62

Is class-switching reversible?

Answer 62

No because one the switch sequences interact to bring the VDJ in proximity to the constant region, the intervening DNA is deleted

Question 63

What determines which switch sequences will be rearranged?

Answer 63

cytokines

Question 64

What cytokine is crucial for the transition from Pro-B to Pre-B?

Answer 64

IL-7

Question 65

What cytokines are crucial for growth and differentiation of immature T cells into mature T-cells?

Answer 65

IL-2 and IL-4

Question 66

What cytokine is crucial for the differentiation and survival of plasma cells?

Answer 66

IL-6

Question 67

What cytokine would allow Treg to influence plasma cells to secrete IgA?

Answer 67

TGF-b

Question 68

What cytokine does Th2 release to allow plasma cells to release IgA?

Answer 68

IL-5

Question 69

What two T-cell subsets help in the secretion of IgA from plasma cells?
Using what cytokines?

Answer 69

Treg- TGF-B

Th2- IL-5

Question 70

What T-cell subset influences plasma cells to release IgG4? Using what cytokine?

Answer 70

Th2- IL-4

Question 71

What T-cell subset influences plasma cells to release IgE? Using what cytokine?

Answer 71

Th2–> IL-13

Question 72

What T-cell subset influences plasma cells to release IgG1? Using what cytokine?

Answer 72

Th1–> IFN-gamma

Question 73

What are major targets in clinical trials for autoimmune diseases?
What two major interactions are scientists trying to disrupt?

Answer 73

Co-stimulatory molecules that deliver signal 2 to B and T cells
(Tcells- CD28, B-cells- CD40)

CD40/40L interaction and CD80/CD86- CD28 interaction

Question 74

What is CTLA4-Ig and how does it work?

What is the major disease it is used for?

Answer 74

It is an analog that blocks the CD28-CD80/86 interaction between T cells and APCs/B-cells.
It is used for autoimmune disorders like Rheumatoid Arthritis

Question 75

Patients with Hyper-IgM syndrome have a defect in what?
How are they treated?
What other mutation could present in a similar manner?

Answer 75

CD40-40L interaction because this disrupts T-cell and B-cell interaction. The B cell is not able to class switch or do somatic mutation.

They are treated with IVIG.

AID mutations present in the same manner (because AID is an enzyme necessary for somatic mutation and class switching)

Question 76

What is the major difference you would see in the secondary lymphoid organ between a Hyper-IgM patient and an AID deficient patient?

Answer 76

The Hyper-IgM patient would not have germinal centers because the B-cells would not be activated at all (they require CD40-40L interaction in the T cell zone to activate)
The AID deficient patient would still have germinal cente with activated B-cells, but no somatic mutation or class switching would occur

Question 77

Patients with CVID (common variable immunodeficiency) lack what molecule? How do they present?

Answer 77

They lack ICOS (on T-cells) which disrupts interactions with ICOSL on B cells. The antibodies in this situation are not able to class switch

Question 78

What tumor is associated with Pre-B cell tumors?

Answer 78

Acute Lymphoblastic Leukemia

Question 79

What tumor is associated with the mature B-cell stage?

Answer 79

Chronic lymphocytic Leukemia (CD5+)

Question 80

What tumors are associated with germinal centers?

Answer 80

Burkitt’s Lymphoma and diffuse large B-cell lymphoma where there is extreme proliferation of germinal centers in B-cell follicles

Question 81

What tumor is associated with plasma cells?

Answer 81

Multiple mylenoma- lesions in bone (from long-living plasma cells in bone marrow), electophoretic spikes of a particular antibody type