Lecture 2 - B cells - Immune Deficiencies 2

Question 1

What is the phenotype of mice lacking CD40L?

Answer 1

• Unable to undergo isotope switching
• No memory
• Low affinity

Question 2

What is a combined immune deficiency?

Answer 2

Spans both humoral and cellular immunity

Question 3

What is the name for humoral deficiencies (as opposed to combined)?

Answer 3

Antibody deficiencies

Question 4

Describe persistence of B cell immunity

Answer 4

Even 60 years after vaccination, there can be protective levels of antibody in the serum

Question 5

Describe the antibody response after vaccination

Answer 5

→ Vaccination
• IgM response
• Later, isotope switching to IgG

→ Booster
• Increased levels of IgG

Question 6

Compare B memory cells in the healthy people and hyper IgM patients

Answer 6

Normal: Many memory cells in serum

HIGM: no memory B cells in their serum

Question 7

What are the symptoms of Hyper-IgM syndromes?

Answer 7

• Recurrent infections (upper and lower respiratory)
• GIT dysfunction (malabsorption)
• Autoimmune disorders
• Enlarged 2° lymphoid organs

Question 8

What happens on a cellular level to a B cell when differentiating into a plasma cell?

What brings about this change?

Which other cell mediated this?
Why?

Answer 8

Major organelle reorganisation

1. Expression of BLIMP1
2. Switching off of B cell program
3. Change to plasma cell program

Tightly regulation:
• By CD4+ cells (Tfh)
• This is because making Ab is dangerous: once it’s made, it can’t be unmade
• Need to be sure that the Ab being made is not going to cause problems

Question 9

What are the various areas in the spleen?

Describe the structure

Answer 9

1. Red pulp:
   • Erythrocytes

2. White pulp: 
• Lymphocytes
• Surrounding blood vessels
a. Follicle: B cells
b. PALS: T cells
c. Marginal zone: around follicle

Question 10

Describe the cell distribution within white pulp

Answer 10

• Mature B lymphocytes: follicle
• T lymphocytes: periarteriolar sheath (central)
• Dendritic cells: PALS
• MZ B lymphocytes: marginal zone

Question 11

Describe the early and late stages of B and T cell activation in lymphoid organs

Answer 11

1. B cell clonally selected; Ag on follicular DC; T cell stimulated by Ag presented on DC
2. B cell and T cell migrate to boundary of B cell follicle and paracortex
   a. B cell upregulation of CCR7
   b. T cell upregulation of CXCR5
3. TFH cell and B cell interaction:
   a. MHC II:peptide – TCR
   b. CD40 – CD40L
4. B cell forms a germinal centre under the action of Bcl-6 and undergoes maturation events:
   a. CSR
   b. SHM
   c. Affinity maturation
5. Alternatively, some B cells differentiate immediately into plasma cells under the action of BLIMP1:
   a. BLIMP1: transcription repressor that turns of B cell program
   b. Immediate production of low affinity IgM

Question 12

What is a germinal centre?

Which cells are present, and in what proportions?

Answer 12

An area within a secondary lymphoid organ in which B cells mature and proliferate

Composition:
• B cells: 90%
• T cells: 5%
• Follicular dendritic cells: 1%

Question 13

What are the outcomes for B cells after interaction with T cells?

Answer 13

1. Initial plasma cells
   • Low affinity IgM
   • Short lived
   • Initial, rapid response
2. Germinal centre formation
   • Maturation events (SHM, CSR, affinity maturation)
   • Production of memory cells and ‘better’ plasma cells

Question 14

Which signals are required for Plasma cell development?

Describe the function

Answer 14

BLIMP1
• Transcription factor (repressor)
• Expressed in B cells

Brings about:
• Switching off of B cell program
• Switching on of plasma cell program
• Massive intracellular reorganisation

Question 15

What is the transcription factor vital for B cells to form Germinal centres?

Describe its function

Why is it so vital?

Answer 15

Bcl6

Function:
• Transcription repressor
• Promotes cell cycling

Vital:
• Inhibition of the DNA damage response to SHM and CSR

Question 16

List the processes occurring in the germinal centre

Answer 16

• Clonal expansion
• Isotope switching
• Somatic hypermutation
• Affinity maturation
• Memory formation

Question 17

Describe the mechanism of somatic hypermutation

Answer 17

1. AID converts Cystosine to Uracil in variable region
2. Induction of error prone DNA repair
3. Random mutation in the V region of the heavy and light chains

Question 18

Describe affinity maturation

Answer 18

Cells with mutations in Ig with increased affinity are selected, others are discarded

(Evolution on a microscale)

Question 19

Describe memory formation

Answer 19

High affinity GC B cells differentiate into either:
• Plasma cells
• Memory cells

Memory cells persist after primary infection in secondary lymphoid organs, as well as the BM

Question 20

What is the difference between the plasma cells derived from the GC and those originally derived from the B cell that was yet to undergo maturation events?

Answer 20

GC derived plasma cells have much higher affinity, and are class switched

Question 21

Which class of immunoglobulin is made first?

What would be the benefit of this?

Answer 21

IgM

Initially, the immunoglobulins have low affinity, so the pentamer IgM, which confers higher avidity, compensates for this fact

Question 22

Compare the effector functions of the following:
• IgG
• IgM
• IgA
• IgE

Answer 22

IgG
• Complement activation
• Placental transfer

IgM
• Complement activation
• Little bit of mucosal protection

IgA
• Mucosal protection

IgE
• Sensitising of Mast cells

IgD
• Present on mature B cells (naïve)

Question 23

Compare the location of the following:
• IgG
• IgM
• IgA
• IgE

Answer 23

IgG
• Serum

IgM
• Serum

IgA
• Secretions

IgE
• Bound to mast cells

Question 24

Describe the regions on the Ig molecule that are changed through CSR

What is the significance of this?

Answer 24

Constant region: changes
Variable region: no change

This ensures the antibody still has the same affinity after isotype switching

Question 25

Describe the process of CSR

Which enzyme is required?

Answer 25

1. AID introduces nicks into ‘S’ region (upstream from each constant region segment) of heavy chain
   • By converting C to U, and then U is removed
2. Formation of loop, cleaved out, deletion intervening sequences
3. Ligation of ends

IgM → IgG → IgE → IgA

Question 26

Describe the likely events after helminth infection

Answer 26

1. DC recognition and migration to lymph node
2. DC presentation to Th cell; 3 signals
3. Th cell releases cytokines and presents antigen to B cell
4. B cell undergoes CSR differentiation and starts producing antibody against helminth

Question 27

Describe DC and Th cell interaction

Answer 27

Signal 1:
• TCR binds to MHC-peptide complex

Signal 2:
Costimulation: CD28 and CD80/CD86

Signal 3:
• Release of cytokines from DC that act on IL-R on T cell
• Drives differentiation into various Th cell subtypes

Question 28

Describe T cell help for B cells

Answer 28

1. Interaction between TCR on Tfh and MHC-peptide complex on B cell
2. Interaction between CD40 and CD40L on B cell and T cell respectively
3. Release of cytokines from Tfh cell (IL-21) onto B cell

4. B cell forms a GC
Undergoes:
• CSR
•  SHM
• Affinity maturation
• Memory formation

Question 29

What is AID?

Where is it expressed?

Describe its function and mechanism of this function

Answer 29

Activation induced deaminase

Expressed in the germinal centre

Role in:
• CSR
• SHM

Mechanism
• Converts Cytosines to urasils
• Error prone DNA repair is then induced → SHM

Question 30

By which process do the variable portions of Ig’s change?

Answer 30

SHM: Somatic hyper mutation

Question 31

Where does B and T cell interaction occur?

Answer 31

At Marginal zone; the border of the B cell follicle

Question 32

What are some of the molecular bases of HIGM?

Answer 32

• CD40 mutation
• CD40L mutation (X linked)
• AID mutation
• UNG mutation

Question 33

Which processes is AID important for?

Answer 33

• CSR (class switch recombination)

* SHM (somatic hypermutation)

Question 34

What happens on AID deficiency?

Answer 34

GC form, but there is no:
• CSR
• High affinity Ig

Question 35

What happens in CD40L deficiency?

Answer 35

• Defective B cell proliferation

No GC formation:
• No memory
• No CSR
• No SHM and Affinity maturation

Question 36

What are some therapies for HIGM?

Answer 36

Intragam (intravenous immunoglobulin)

Bone marrow transplantation

Question 37

What is CVID?

What are the manifestations?

Answer 37

Common variable immune deficiency

Individuals unable to produce one or two of the isotypes

More common than XLA and HIGM (1 / 25 000)

Less severe than those as well

Question 38

What are symptoms of CVID?

Answer 38

Recurrent pyogenic infections from encapsulated bacteria

Question 39

List some mutations that can cause CVID

Answer 39

• TACI (most common)
• ICOS
• CD19
• STAT3

Question 40

How many binding sites on the IgM pentamer?

Compare this with IgG and IgA

Answer 40

IgM: 10
IgG: 2
IgA: 4

Question 41

Which classes of Ig can be transferred to the placenta?

Answer 41

IgG only

NB IgA present in milk

Question 42

How do B cells ‘know’ how to produce the appropriate Immunoglobulin?

Answer 42

The helper T cell releases a certain program of cytokines that bring the CSR about.

Question 43

Which PID is most important?

Answer 43

(Primary immune deficiency)
CVID (common variable immunodeficiency)
It has the highest incidence

Question 44

Which antibody deficiency is the most severe?

Why?

Answer 44

Order of severity:
• Agammaglobulinaemia: no B cells or Ig
• HIGM: only IgM
• CVID: missing only one or two isotopes
• SAD: missing Ab against certain polysaccharide antigens

Question 45

What is the treatment for HIGM?

Answer 45

IVIg

Bone marrow transplantation (in more serious cases)

Question 46

In which types of HIGM will a GC form?

When won’t a GC form?

Answer 46

GC:
• UNG mutation
• AID mutation
• TACI
• STAT3

No GC:
• CD40L mutation
• CD40 mutation
• ICOS
• CD19

Question 47

What is the therapy for CVID?

Answer 47

IVIg

Question 48

Where are the CD40L and CD40 molecules located?

Answer 48

CD40L: Th cell
CD40: B cell

Question 49

Where is white pulp found?

Answer 49

In the spleen

Question 50

Which sort of infections is one more susceptible to in XLA?

Why?

Answer 50

Extracellular bacteria

Can’t make Ab, which is most important in protection against bacterial infections

T cell compartment, which mediated viral immunity, is still intact

Question 51

Which type of B cells are seen in HIGM patients?
Which are lacking?
Why is so?

Answer 51

• Naïve cells present
• Lacking memory B cells

This is because there is a mutation (CD40L, CD40, AID, UNG) that means that CSR and affinity maturation can not occur

Question 52

Compare the location of erythrocytes in the lymph nodes and the spleen

Answer 52

Spleen: red pulp

Lymph nodes: not found here

Question 53

Compare location of the genes for CD40L and CD40

Answer 53

CD40L: X-chromosome
CD40: Autosomal chromosome

Question 54

What is the driver of clonal expansion of B cells in GC?

Answer 54

T cells stimulate the clonal population of B cells to proliferate to produce a robust response through IL-21 signalling

Question 55

Describe the germ line configuration of constant regions at the heavy chain locus

Answer 55

Downstream of VDJ mini gene segments:
• Cμ
• Cδ
• Cγ3
• Cγ1
• Cγ2b
• Cγ2a
• Cε
• Cα

Question 56

What happens to B cells in the absence of Blimp1?

Answer 56

The B cell can never be a plasma cell

Question 57

Compare the effect of the following on B cells:
• Bcl6
• Blimp1

Answer 57

B cell expression of

Blimp1 → plasma cell

Bcl6 → Maturation events in GC

Question 58

What is the function of UNG?

In which cells is it found?

Answer 58

Enzyme that removes uracils that AID inserted during SHM or CSR

Ubiquitous throughout the body

Question 59

What determines which class of Ig is made through CSR?

Answer 59

Depending on the infection, the DC will induce different Th cell subsets

These Th cell subsets will release specific cytokines that induce CSR to a specific isotype

Question 60

When do the following mutations affect B cells:
• CD40L
• AID
• ICOS
• UNG
• CD40
• CD19
• TACI
• STAT3

In which cases would a germinal centre form?

Which disorder results?

Answer 60

1. CD40L
   • B-T cell interaction at MZ
   • No germinal centre
   • HIGM
2. AID
   • Maturation events in GC
   • GC still forms
   • HIGM
3. ICOS
   • B-T cell interaction
   • No germinal centre
   • CVID
4. UNG
   • Maturation events in GC
   • GC still forms
   • HIGM
5. CD40
   • B-T cell interaction
   • No germinal centre
   • HIGM
6. CD19
   • B-T cell interaction
   • No GC
   • CVID
7. TACI
   • Maturation events in GC
   • GC still forms
   • CVID
8. STAT3
   • Defective B cell response to cytokines
   • GC still forms
   • Hyper-IgE

Question 61

Compare cellular expression of the following:
• AID
• UNG

Answer 61

AID: only in B cells

UNG: all cells

Question 62

Which PID (of the ones spoken about) is less severe?

Answer 62

CVID