B-cells

Question 1

What are B-cells?

Answer 1

B-cells are cells that arrise in the bone marrow thry recognise antigen via B-cell receptors and produce antivodies

Question 2

What is the B-cell response?

Answer 2

A naive B-cell is activated once it binds an antigen- activated Bcells can become plasma cells or memory cells- these cells can reporduce via clonal expanssion

Question 3

What are plasma cells?

Answer 3

Cells that produce antibodies (2000/second)

Question 4

What are BCRs?

Answer 4

B cels receptors- theyre antibodies that are membrane bound

Question 5

What is the structure of a BCR?

Answer 5

Antibodies made of two light and two heavy chains that have cosntant and variable regions theyre all held together by disulfide bonds (known as the hinge(

Question 6

Where are antigen binding sites in antibodies?

Answer 6

Variable regions

Question 7

Antobodies have two segments what are they?

Answer 7

Fc and FAB fragments

Question 8

What is the Fc region of antibody?

Answer 8

The constant region with heavy chains

Question 9

What is the FAB region?

Answer 9

Fragment of antogen binding found in the variable zone of the antibody

Question 10

How is antobody diversity produced?

Answer 10

VDJ recombination

Question 11

How does VDJ recombination create diversity?

Answer 11

Antobodies have loci that are spliced together but they can be spliced together in varying combinations leading to variety in antibodies

Question 12

How is VDJ recombination of a light chain work?

Answer 12

Start with germ line DNA and splice V and J segements together RNA is then produced which is spliced to join the constant segment- then translated to a light chain

Question 13

How does VDJ recombination occur for heavy chains?

Answer 13

V D and J regions spliced together into RNA then join constant region and are transcribed to antibodies.
Same as light chain but plus D regions

Question 14

Where does VDJ recombination occurs?

Answer 14

At recombination signal sequences

Question 15

Where are recombination signal sequences (RSS) found?

Answer 15

Between/ flanking VDJ segments

Question 16

Where does VDJ recombination occur in the body?

Answer 16

Bone marrow

Question 17

What happens when mature B-cells are activated by antigens?

Answer 17

They differentiate into plasma or memory cells

Question 18

How can B- cells be activated?

Answer 18

Only by helper T-cells for the same antigen

Question 19

Two types of B-cell activation?

Answer 19

Thymus dependent (T-cell) or thymus independent (no T-cell)

Question 20

What is thymus independent activation?

Answer 20

Antigen binds directly to immune receptors on the B-cell

Question 21

How does thymus dependent activation work?

Answer 21

TCR binds the epitope (antigen) then antigen is internalised MHC class 2 molecules present MHC through TCR and release cytokines. MHC activates B-cells

Question 22

How do T-cells cause activation of B-cells?

Answer 22

T cells express CD40L which stimulates B-cells to proliferate and become plasma cells. Also release iL-4 droves proloferation and il-5/6 ther drive plasma cells

Question 23

Where does B-cell proliferation occurs?

Answer 23

Germinal centres of the lymphnodes

Question 24

How does B-cell proliferation occur in lymphnodes?

Answer 24

B-cells move into lymphnode brcoming trapped in T-cell zone so they come in contact. They then move to the germinal centre which is made up of proliferating B-cells

Question 25

What happens in germinal centres?

Answer 25

B-cells undergo:
Somatoc hypermutation
Affinity maturation
Class switching

Question 26

What is somatic hypermutation?

Answer 26

Introduces point mutation in the variable region of the light and heavy chain-further diversifies antibodies.

Question 27

How does somatic hypermutation occur?

Answer 27

Its occurs using a cystine deaminase called AID- introduces nicks in DNA that are repaird leading to point mutations -requires single strand DNA

Question 28

What is affinity maturation?

Answer 28

Process of B-cell selection based on their abilities to bind to the antigen

Question 29

What happens to cells that arent specific enough for affinity maturation?

Answer 29

They lack signals need to survive so die

Question 30

What is antibody class switching?

Answer 30

Antibody classes switch from producong IgM antibodies to produces IgA to IgG to IgE. Become more specific with different C regions

Question 31

There are 3 types of antibody functions what are they?

Answer 31

Neutralisation,opsonisation and complement activation

Question 32

Whatare 3 examples of antibody neutralisation?

Answer 32

• antobodies bind toxins
• antibodies can block viral binding
• can block adherence to host cells by bacteria

Question 33

What is opsonisation?

Answer 33

An example is phagocytosis which is done by macrophages neutrophils

Question 34

What is complement activation?

Answer 34

Ehancement of opsonisation leading to lysing bacteria

Question 35

What are Fc receptors?

Answer 35

They bind to the Fc portion of the antibody found on NK cells, mast cells and neutrophils- specific to each antobdot isotype

Question 36

What are the 4 antibody subclasses?

Answer 36

IgM
IgG
IgA
IgE

Question 37

What are IgM?

Answer 37

First low affinity antibodies expressed

Question 38

What are IgG?

Answer 38

Opsonises pathogens for phagocytosis

Question 39

What are IgE ?

Answer 39

Antobodies that localise with mast cells on the mucosa

Question 40

Why do we need vaccination?

Answer 40

As the humoral immune system progresses it cause higher affinity enzymes to ne produced faster

Question 41

What can B-cells differentiate into?

Answer 41

Plasma cells-release antibodies

Memory cells- for next time

Question 42

What is BCR?

Answer 42

B-cell receptor a membrane bound antibody

Question 43

Where are antigen binding sites found on BCRs?

Answer 43

Found within the variable regions

Question 44

What determines isotype of an antibody?

Answer 44

Carboxy terminus of the heavy chain

Question 45

What are Complimentary determining regions? (CDRs)

Answer 45

These are where the antigen binds

Question 46

How many CDR loops on an antigen?

Answer 46

3
CDR1/2 found on V segment of light chains
CDR3 is the most variable and found on the heavy chain

Question 47

How is antibody diversity generated?

Answer 47

VDJ recombination

Question 48

How does VDJ recombination occur?

Answer 48

It’s occurs at recombination signal sequences (RSS) RSS are brought together by the RAG complex which opens DNA allowing palindromic sequences to be added, then nucleotides are added by TdT unpair nucleotides are excised and DNA repaired.

Question 49

Where do you find RSSs?

Answer 49

At 23bp heptamer

-23bp nonamer

Question 50

How does VDJ recombination generate diversity?

Answer 50

Through combinational diversity and by junctions diversity.

Question 51

How do you generate combinational diversity in VDJ?

Answer 51

Through different combinations of gene segements

Question 52

How does junctional diversity work?

Answer 52

Generates diversity via the addition of nucleotides during recombination

Question 53

Where do B-cells develop?

Answer 53

In the bone marrow

Question 54

How can B-cells be activated?

Answer 54

Thymus dependently

Thymus independently

Question 55

How does thymus dependent activation work?

Answer 55

APC binds epitope and internalises. Presented on MHC2 molecule. T-helper recognises through TCR and release cytokines. B-cell then release specific antigens

Question 56

What does CD40L do on T-cells?

Answer 56

Stimulates B-cells to proliferate and become plasma cells

Question 57

What does interleukin-4 do?

Answer 57

Drives B-cell proliferation

Question 58

What do interleukin-5/6 do?

Answer 58

Drives plasma cell production.

Question 59

What happens in a germinal centre?

Answer 59

B-cell passed through T-cell zone and become trapped until contact a T-cell presented antigen. They then move into the germinal centre where they displace old B-cells into the mantle.

Question 60

What happen to B-cells in germinal centres?

Answer 60

They undergo
Somatic hypermutation
Affinity maturation
Class switching

Question 61

How does somatic hyper mutation occur?

Answer 61

Induces point mutations in the variable regions of antibodies. This is by AID (cystine deamination) introducing a nick in the DNA that is then repaired.

Question 62

What is affinity maturation?

Answer 62

Mutated B-cells are selected based on their ability to bind antigen. More survival signals sent to those who aren’t more specific.

Question 63

What is class switching?

Answer 63

DNA recombination that Changes the constant region of the heavy chain. IgG IgA and IgE

Question 64

What do IgG antibodies do?

Answer 64

Opsonise pathogens for phagocytosis

Question 65

What do IgA antibodies do?

Answer 65

Functions on epithelial surfaces -neutralisation of toxins and binding prevention

Question 66

What’s the role of IgE?

Answer 66

Localise mast cells

Question 67

What does BLIMP 1 do?

Answer 67

Switches off proliferation and affinity maturation