Chapter 6: The Development Of B Lymphocytes

Question 1

B cells are important players in…

Answer 1

• adaptive immunity

Question 2

Stem Cells

Answer 2

• give rise to immune stem cells in bone marrow

Question 3

Lymphoid Progenitor Cells

Answer 3

• give rise to T and B lymphocytes

- they are the cornerstones of the immune system

Question 4

B Lymphocytes

Answer 4

• start developing in the bone marrow

- mature B-cells produce specific antibodies against foreign aantigen

Question 5

T Lymphocytes

Answer 5

• leave bone marrow and migrate to the thymus where they mature

Question 6

Phase 1 of B cell development

Answer 6

• generation of diverse and clonally expressed B-cell receptors in the bone marrow
• repertoire assembly

Question 7

Phase 2 of B-cell Development

Answer 7

• alteration, elimination or inactivation of B-cell receptors that bind to the components of the human body
• Negative selection

Question 8

Phase 3 of B-cell Development

Answer 8

• promotion of a faction of immature B cells to become mature B cells in the secondary lymphoid tissues
• Positive selection

Question 9

Phase 4 of B-cell development

Answer 9

• recirculation of mature B cells between lymph, blood, and secondary lymphoid tissues
• Searching for infection

Question 10

Phase 5 of B-cell Development

Answer 10

• activation and clonal expansion of B cells by pathogen-derived antigens in secondary lymphoid tissues
• finding infection

Question 11

Phase 6 of B-cell Development

Answer 11

• differentiation to antibody-secreting plasma cells and memory B cells in secondary lymphoid tissue
• Attacking infection

Question 12

B-cell development is stimulated by…

Answer 12

• bone marrow stromal cells

Question 13

Stromal cells are needed to…

Answer 13

• provide the microenvironment for the various stages of maturation of hematopoietic stem cells

Question 14

B-cells develop in the BM and then go….

Answer 14

• migrate to the secondary lymphoid tissues (spleen, lymph nodes, peyer’s patches, etc.)

Question 15

Pro-B cells develop…

Answer 15

• from pluripotent hemapoietic stem cells

Question 16

Protein Markers on the cell surface…

Answer 16

• identify the cells at their different stages

Question 17

The different stages in b-cell maturation are correlated with…

Answer 17

• molecular changes that accompany the gene rearrangement

Question 18

Which chain genes are rearranged first?

Answer 18

• heavy-chain of IgM

- produces a functional step that allows the cell to proceed to the next stage

Question 19

Heavy-chain gene…

Answer 19

• regulates the progression of gene rearrangement (feedback regulation)

Question 20

Pro-B cell rearrangement of the heavy-chain locus is…

Answer 20

• inefficient

- at each rearrangement event there is only 1 in 3 chance of the correct reading frame being maintained

Question 21

Immunoglobulin heavy chain gene rearrangement in pro-b cells give rise to both ___________ and ______________ rearrangements.

Answer 21

• productive

- nonproductive

Question 22

A productive rearrangement…

Answer 22

• enables the B cell to proceed to the next stage of development
• rearrangements occur at the H-chain genes on both chromosomes, and if neither is successful the cell dies

Question 23

The large Pre-B cell receptor monitors…

Answer 23

• the quality of immunoglobulin heavy chains

Question 24

If you cant make the heavy u chain, then…

Answer 24

• apoptosis is triggered

Question 25

Even if you could make the heavy chain, you got to get along with the pseudo-light chain (surrogate LC) which are made…

Answer 25

• VpreB and (lambda)5 polypeptides

Question 26

The pre-B receptor is distinguished from the B-cell receptor in that it lacks an immunoglobulin light chain, which is replaced by the ________________________.

Answer 26

• surrogate light chain made up from the VpreB and (lambda)5 polypeptides

Question 27

It is thought that the pre-B cell receptor does not appear on the cell surface but ________ ______ ______ _____ in the cytoplasm, as part of membrane-closed vesicles.

Answer 27

• remains inside the cell

Question 28

Pre-Be cell receptor causes allelic exclusion

Answer 28

• prevents B cells from making more than one functional heavy (mu) chain

Question 29

Allelic Exclusion at the Ig loci results in B cells w/ antigen receptors of a _______ specificty

Answer 29

• single

Question 30

LC loci rearrangement by small pre-B cell is…

Answer 30

• relatively efficient (2 loci; kappa and lambda)

- no diversity segment here thus give LC gene rearrangement more chances to get a correct LC (VJ) chain

Question 31

Pre-B cell events leads to the….

Answer 31

• immature B cell that expresses IgM

Question 32

Development of B cells in Bone Marrow

Answer 32

• two checkpoints need to be passed
• both checkpoints are marked by whether a functional receptor is made, which is a test of whether a functional HC (1st cp) or LC (2nd cp) has been produced
• cells that fail die by apoptosis

Question 33

Chromosomal translocations

Answer 33

• B cell tumors carry this that join genes to genes that regulate growth
• as B cells cut, splice, and mutate their Ig genes int he normal events can go awry that converts B cell into a tumor cell

Question 34

Burkitt’s Lymphoma

Answer 34

• breakage of proto-oncogene MYC on chromosome 8 translocates to the Ig gene on chromosome 14 causing no reproduction and is then targeted for apoptosis

Question 35

Which chain genes are rearranged first LC or HC?

Answer 35

• heavy chains are rearranged before LC genes

- HC must develop before the B cell can proceed to the next stage

Question 36

If nonreproductive arrangement is made on one of the chromosome of a homologous pair, then rearrangement is attempted on the second chromosome.

Answer 36

• re read that again

Question 37

Immature B cells can leave the bone marrow…

Answer 37

• when they dont react with self antigens

- if the are auto-reactive, they must stay in the bone marrow until they lose their self reactivity

Question 38

Immature B cells w/ specificity for multivalent self antigens are retained in the bone marrow

Answer 38

• NEGATIVE SELECTION

Question 39

Autoreactive modification of B cells

Answer 39

• receptor editing/central tolerance

Question 40

Receptor editing

Answer 40

• changes their antigen specificity
• binding to self antigen in the bone marrow causes the immature B cell to continue to rearrange its LC locus
• this deletes the existing self- reactive rearrangement and may also produce a new LC rearrangement
• if no successful rearrangements are possible, then the B cell dies (apoptosis)

Question 41

Sometimes B cells leave the bone marrow and react against self-antigen, but they become angeric (anergy) unresponsive and eventually die. This is an example of…

Answer 41

• Peripheral tolerance

Question 42

Maturation and survival pf B cells requires access to ____________ _____________.

Answer 42

• lymphoid follicles

Question 43

After they graduate, they still are immature B cells that produce low levels of IgD and high levels of IgM on their surfaces. How do they become mature?

Answer 43

• undergo positive selection

Question 44

Chemokine attracts them to the ____________ lymphoid tissues.

Answer 44

• secondary

Question 45

They move to the Primary Lymphoid Follicles where they mature and become __________ B-cell and produce a bunch of _________ and fewer ______ on their surfaces.

Answer 45

• Mature
• IgD
• IgM

Question 46

High Endothelial Venule (HEV)

Answer 46

• chemokine CCL21 is released from the stromal cells to bring the immature B-cells to the secondary lymphoid tissues then to the primary lymphoid follicles.
• interaction with follicular dendritic cells and cytokines drives maturation of immature B cells
• Mature B-cells will exit the efferent lymphoid and circulate the blood

Question 47

Every B cell will eventually encounter an antigen and be activated for differentiation. This turns B-cells to…

Answer 47

• plasma cells and memory B cells

Question 48

Mature B cells are known as…

Answer 48

• Naive B cells because they havent been stimulate yet

Question 49

Secondary Lymphoid Tissue provides….

Answer 49

• sites where mature, naive B cells can encounter specific antigens

Question 50

Encounter with antigen are quickly retained in the ______ cell areas of the lymph node and become activated by the antigen-specific ________ T- cells

Answer 50

• T

- CD4

Question 51

Activated B cells turn into….

Answer 51

• plasma cells and secrete IgM first

Question 52

Other activated B cells form ___________ _______ in the lymph node.

Answer 52

• germinal centers (follicle area)

Question 53

Some B-cells chill in germinal centers while other hypermutate to fine tune their antigen specificity. Another word to describe this is…

Answer 53

• somatic hypermutation

Question 54

Germinal centers allow for isotype switching and formation of memory B cells

Answer 54

• mature B cells can encounter antigen in secondary lymphoid tissues and form germinal centers and undergo differentiation to plasma cells