Humoral immunity - B cell activation

Question 1

What is the lymphocyte lineage?

Answer 1

• HSC will differentiate into either common myeloid or common lymphoid progenitor
• Common lymphoid will differentiate into either Pre-B or pre-T
• Pre-B will undergo Ig gene rearrangement and become an immature B-cell

Question 2

What are the main phases of the humoral immune response?

Answer 2

• B cell makes IgM and IgD and expresses them on its surface
• Antigen activates B cell
• Th cell and other stimuli start the process of clonal expansion
• They can either make plasma cells -> produce Abs
• Some will express IgG (isotype switching - keep same specificity)
• Get affinity maturation - IgG can get higher affinity binding
• Also get memory B cells produced

Question 3

How does Ig expression change during B cell maturation?

Answer 3

• Stem cell has no Ig
• Pre-B cell has cytoplasmic mu heavy chain and pre-B receptor
• As they become immature B cell, functional Ig is expressed as membrane IgM - acts as a BCR
• Once mature B cell, they get IgD
• When the B cell is activated by Ag and co-stimulated by T cell, you start getting low rate secretion of Ig, heavy chain isotype switching and affinity maturation
• Finally you have an Ab secreting cell, with high rate of Ig secretion and reduced membrane bound Ig

Question 4

What are the 3 signals B cells need to be activated?

Answer 4

• Antigen binding to B-cell receptor (sIgM), resulting in stimulation of signal transduction pathways
• Co-stimulation by T-cell - have to agree that there is a foreign ag that needs dealing with
• Co-stimulation by cytokines

Question 5

What happens when an ag binds to the BCR?

Answer 5

• Proteins associated with BCR
• One is a protein TK binding of Ag causes activation of TK
• Activates signal transduction pathways for cell division and differentiation -sends growth signals
• The major receptors for growth stimulation are TK receptors such as EGF, insulin receptor and FGF

Question 6

What are the 2 forms of Abs?

Answer 6

• Membrane-bound on B cell surface - Ag receptor

- Secreted (circulation, tissues, mucosa)

Question 7

How does the activated B-cell start to secrete soluble IgM?

Answer 7

• Differential splicing
• The constant region of IgM is actually coded for by 4 different exons, with two alternative versions of exon 4
• Differential splicing gives 2 different mRNAs, coding for 2 proteins that differ at the C terminal end
• The V region, coded for by VDJ complex, is identical
• These different mRNAs give either secretory or membrane bound IgM

Question 8

Where are membrane and secreted forms of IgG made?

Answer 8

Membrane

• Made in the RER, modified in the golgi, go to the membrane
• Cytoplasmic tail of hydrophobic proteins anchors it into the membrane

Secretory

• Made in RER and processed in golgi, taken in vesicles to cell surface.
• When it reaches the membrane, it doesnt become embedded, it is secreted as it doesnt have the cytoplasmic tail

Question 9

What are the 3 main functions of sIg?

Answer 9

• Neutralisation of microbes and toxins
• Opsonisation of microbes to enhance phagocytosis
• Activation of complement

Question 10

Why do we have class-switching?

Answer 10

Different Ig classes work best at certain sites (IgM IgG - blood; IgA - mucosa) or work best against certain pathogens (IgE - parasites)

Question 11

What is class switching?

Answer 11

• During an immune response B cells can produce Igs of different classes, without changing specificity.
• IgM -> IgG, A or E
• IgG -> IgA or E

Question 12

What are the two mechanisms for class switching?

Answer 12

Minor
- IgD only by differential splicing, made at the same time as IgM

Major
- all other classes, by DNA arrangement

Question 13

What is the process of minor class switching?

Answer 13

• C mu and C delta are transcribed as part of a single precursor of RNA
• Differential splicing can remove the C mu exons, so just the C delta exons are used
• Results in same VDJ, but joined to C delta - now making IgD

Question 14

What is the process of class switching by further DNA rearrangement (Major)?

Answer 14

• Have VDJ complex before the C exons coding for any other Ig class
• Enzyme recombinase can cut at different places in the DNA and carry out somatic rearrangement
• This can give the VDJ transcribed next to a different C region of a different class
• Cannot revert back the enzyme gets rid of the DNA it cuts out

Question 15

How do T cells help class switching?

Answer 15

• CD40L on T cell interacts with CD40 on B cells
• Cytokines produced by T cell:
  . IFN-gamma -> switch to IgG1, IgG3
  .IL-4 -> switch to IgE
  . TGF-beta -> switch to IgA

Question 16

What is affinity maturation?

Answer 16

• Abs produced during early immune response have lower affinity for Ag
• Later in response and in secondary responses, there is production of high affinity Abs

Question 17

How does affinity maturation work?

Answer 17

• B cells are activated by antigen and Th cells
• Some migrate to follicles, where they form germinal centres - undergo rapid proliferation and accumulate somatic mutations in IgV genes
• Can make Ab more or less effective
• Follicular DCs will present the ag
• B cells with the highest affinity will be selected to survive
• Those that have lost their affinity will fail to survive as out-competed