5 - B and T cell Devo

Question 1

All lymphoid neoplasms (B and T cells) are derived from _____ ______ _____ and are ______.

Answer 1

All lymphoid neoplasms (B and T cells) are derived from transformed single cells and are clonal.

Question 2

B and T cells undergo what type of rearrangement?

Answer 2

Antigen receptor gene rearrangement. This almost always occurs before transformation.

Thus, the clonal malignant B or T cells can be identified by their unique antigen receptors.

Question 3

How can we identify malignant T or B lymphocytes in a patient?

Answer 3

By analyzing the antigen receptor genes.

And, if a large population of clonal cells is present, this information can be used to differentiate clonal neoplasms from polyclonal pathologic processes.

Question 4

In what primary/generative lymphoid tissue do B and T cells develop?

Answer 4

B lymphocytes are generated in the bone marrow.

T lymphocytes are generated in the thymus.

Question 5

What are the two functions of the antigen receptos of B and T cells?

Answer 5

1. Bind epitopes in a highly specific manner
2. Trigger responses in the lymphocytes in which they are expressed

Question 6

Describe how T and B cell antigen receptors bind chemically different epitopes?

Answer 6

BCRs bind non-degraded antiens of many types (proteins, lipids, carbs, and nucleic acids)

TCRs bind complexes of MHC molecules and peptides (degraded proteins)

Question 7

Are immunoglobulins membrane bound or secreted? Are TCRs membrane bound or secreted?

Answer 7

Immunoglobulins may be membrane bound of secreted.

TCRs are membrane bound but NOT secreted.

Question 8

How does antibody (immunoglobulin) recognize its antigen? What is responsible for it’s effector function?

Answer 8

Via the variable (V) region of heavy and light chains of membrane Ig.

The constant region (C) of the secreted Ig mediates the effector function.

Question 9

How does the TCR recognize its antigen? What is responsible for it’s effector function?

Answer 9

Antigen is recognized by the variable (V) regions of the alpha and beta chains.

TCR does not perform effector funcitons.

Question 10

What are the names of the green regions on the immunoglobulin?

Answer 10

Blue box is the variable region where the antigen binding occurs on the N terminus.

C terminus is the constant where theeffector function lies.

Question 11

What is the structure of the B cell antigen receptor?

Answer 11

There are 5 different classes (isotypes) that are functionally different due to constant region differences.

Light chains are either kappa or lambda (does not change during class switching).

Question 12

Each immunoglobulin variable region (heavy and light chain( have 3 regions of what?

Answer 12

Hypervariability (complementary-determining (CD) regions).

These are contact sites for the epitope in the antigen binding site.

Question 13

What is the function of:

• IgA
• IgD
• IgE
• IgG
• IgM

Answer 13

1. IgA: mucosal immunity
2. IgD: Naive B cell antigen receptor (transiently expressed)
3. IgE: Mast cell activation (immediate hypersensitivity) and defense against helminths/parasites
4. IgG: opsonization, complement activation, ADCC, neonatal immunity, feedback inhibition of B cells
5. IgM: naive B cell antigen receptor, complement activation

Question 14

What are isotypic differences?

Answer 14

Differences in the heavy chain and constant regions.

If an animal is immunized with human Ig, it will generate an antibody response to the non-self protein. Abs direct againt common epitopes on a given isotype will react with the same isotypes from any human. For example, anti-IgG Abs will react with all human IgG molecules.

Question 15

What are allotypic differences?

Answer 15

Small differences due to polymorphisms in the heavy chain constant regions (differences between people)

These are generally single amino acid interchanges. They may also serve as epitopes. Antibodies will be present that will react specifically with allelic variants. For example, individual A may have an allelic variant in his IgG heavy chain that is not present in person B. Antisera that distinguish the IgG from these two people are called anti-allotypic. Anti-allotypic antibodies are common in pts with RA.

Question 16

What are idiotypic differences?

Answer 16

Differences in antigen binding (specificity)

Epitopes associated with the variable regions of antibodies are unique to a given antibody; these are the antigen-binding regions of the antibody. Antiodies reactive with these epitopes are called anti-idiopathic and may be used to identify B cells from an individual with a B cell tumor.

Question 17

What is the structure of a T cell antigen receptor?

Answer 17

Two chains: an alpha and a beta chain.

Only a single constant resion and a single variable region.

Variable region forms the antigen binding site.

Question 18

What is the difference between affinity and avidity?

Answer 18

Affinity: magnitude of binding interaction between single receptor and ligand

Avidity: binding activity between multiple receptors and ligands

Question 19

How is receptor diversity generated?

Answer 19

Rearrangement of genomic gene segments!

Although the expressed proteins are different, the rearrangement process for Ig and TCR is very similar.

Question 20

What is the sequence of Ig and TCR gene rearrangement events?

Answer 20

Question 21

The somatic gene recombination processes are mediated by what enzymes?

Answer 21

An enzyme complex made up of Rag-1 and Rag-2 proteins.

Question 22

What are the mechanisms of diversity in antigen receptors?

Answer 22

1. Combinatorial: random rearrangement causes the diversity of antigen receptors
2. Junctional diversity: random nucleotide additions or subtractions
3. Mix and match pairing or light and heavy chains: Immunoglobulin light and heavy chains have to come together and the way they mix and match can add to the level of diversity. Same is true in the TCR with the alpha and B chains.
4. Somatic hypermutation (Ig affinity matruation - doesn’t actually generate new specifities, inceases antigen binding affinity).

Question 23

What is allelic exclusion? Explain how it works.

(PS I’m so sorry for this card being so long, I’m only human).

Answer 23

Makes sure that one cell only makes one type of receptor.

Example: if the first Ig heavy chain recombination event occurs on the maternal chromosome and is sucessful, the heavy chain genes on the paternal chrom will not rearrange and the cell will express the maternal gene product only. If the first rearrangement is not sucessful, rearrangement of the heavy chain genes on the paternal chromosome will occur. If successful, the paternal heavy chain gene product will be expressed. If neither is expressed, the cell will die.

Expression of the heavy chain gene product of EITHER the maternal or paternal chromosome, but NOT both is called allelic exclusion. This ensures clonal specificity.

Question 24

What happens if there are mutations in the recombination enzymes such as VDJ recombinase, RAG-1 and RAG2?

Answer 24

This results in the failure to make T or B cells.

Causes severe combined immunodeficiency disease (SCID).

Question 25

What interleukin helps maintain progenitor lymphocytes?

Answer 25

IL-7

Question 26

What are the 5 steps in the maturation of lymphocytes?

Answer 26

1. Proliferation
2. Pre-B/T antigen receptor expression
3. Proliferation
4. Antigen receptor expression
5. Positive and negative selection

Question 27

What are the 7 steps in the maturation and selection of B lymphocytes?

Answer 27

1. Stem cell
2. PRo-B
3. Pre-B
4. Immature B
5. Mature B
6. Peripheral lymphoid tissues
7. Activated B cells secrete antibodies

Question 28

What is negative selection of B cells?

Answer 28

The process of removing or functionally inactivating B cells with autoreactive receptors.

Question 29

T cell maturation and selection occurs in the _______? Where does positive and negative T cell selection occur?

Answer 29

Thymus!

Positive selection occurs in the cortex of the thymus, negative selection primarily occurs in the medullary region of the thymus.

Question 30

Describe positive and negative selection of T cells?

Answer 30

Positive: thymocytes reactive with self MHC are expanded following interaction with self-MHC peptide complexes in the thymus.

Negative: self-reactive thymocytes are eliminated, either physaically or functionally, following interaction of the T cell antigen receptor with self MHC-peptide complexes.

Question 31

The majority of thymocytes co-express what two markers?

Answer 31

CD4 and CD8

As they further mature, they become either CD4 or CD8 cells

Question 32

Nearly all lymphoid neoplasms are derived from ____ cells and are thereby ______.

Answer 32

Single cells and are thereby clonal.

Question 33

How can clonal malignant B or T cells be identified?

Answer 33

By their unique antigen receptors.

This is because lymphocyte antigen receptor gene rearrangement almost always occurs prior to malignant transformation.