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Chapter 12 B-Cell Activation and Differentiation Dr. Capers

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B cell activation B cell encounters specific antigen B cell presents to T helper cell Cytokines are released for full B cell activation Proliferation, some of the B cells become plasma cells Some of the B cell clones move to germinal centers of lymph nodes, somatic hypermutation can occur Class switching occurs
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Chapter 12 B-Cell Activation and Differentiation Dr. Capers
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Page 1: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Chapter 12B-Cell Activation and Differentiation

Dr. Capers

Page 2: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

B cell activation B cell encounters specific antigen B cell presents to T helper cell Cytokines are released for full B cell activation Proliferation, some of the B cells become

plasma cells Some of the B cell clones move to germinal

centers of lymph nodes, somatic hypermutation can occur

Class switching occurs

Page 3: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

The tiny region of the antigen that BCR actually binds to is called its “epitope”.

The epitope will be the part of that protein (usually 6 – 12 amino acids) to which the BCR receptor binds.

Page 4: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

When the BCR recognizes the epitope, for which it is matched, it must signal this recognition to the nucleus of the B cell, where genes involved in activating the B cell can be turned on or off.

Page 5: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

B cell Activation Thymus-dependent (TD) antigens

B cell required direct contact with TH cell B-2 B cells, majority of B cells

Thymus-independent antigens (TI) These antigens activate B cells by pattern recognition

receptors (bacteria that might be in high amount)Type I (TI-1) – lipopolysaccharideType 2 (TI-2) – highly repititous molecules (bacterial

flagella)

Page 6: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 7: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

B cell Activation Membrane bound

antibody have short cytoplasmic tails

○ Too short to generate signal by associating with tyrosine kinases and G proteins

Page 8: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

So that the external part of the BCR can signal what it has seen, B cell are equipped with two accessory proteins

Membrane Ig must be associated with B-cell receptorIg-α/Ig-β

Page 9: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

ITAMS ITAMs are important for signal

transduction in immune cells. An ITAM is a specific sequence of amino acids occurring twice in close succession in the intracellular tail of a receptor

Page 10: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

They are found in the tails of important cell signaling molecules such as the CD3 and ζ-chains of the T cell receptor complex, the CD79-alpha and -beta chains of the B cell receptor complex, and certain Fc receptors.

Page 11: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

The tyrosine residues within these motifs become phosphorylated following interaction of the receptor molecules with their ligands and form docking sites for other proteins involved in the signaling pathways of the cell

Page 12: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 13: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 14: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

ITIM (immunoreceptor tyrosine inhibitory motif)

○ Associated with CD22

○ Functions to deactivate B cells – negative regulation

○ Important in preventing autoimmunity

Page 15: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

TH cells play essential role in B cell repsonses

Page 16: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Remember: B cells can be t-cell independent or dependent!

Page 17: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

TEM of interaction between B cell and T cell

Page 18: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Humoral Response – Primary vs Secondary

Page 19: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 20: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Hapten-carrier conjugates Hapten – low molecular weight molecule

that can elicit an immune response only when attached to a large carrier such as a protein.

Page 21: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 22: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

In vivo sites for induction of humoral responses Bloodborne antigen is filtered by spleen Antigen from tissue spaces filtered by lymph

nodes○ Antigen either enters alone or with antigen-

transporting cells- Langerhans cells (antigen-presenting immune cells) of the

skin and mucosa- Dendritic cells

○ Encounters antigen-presenting cells- Dendritic cells- Macrophages- Follicular dendritic in follicles and germinal centers

Page 23: Chapter 12 B-Cell Activation and Differentiation Dr. Capers
Page 24: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

T cells are green and B cells are red

Page 25: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Germinal centers arise within 7-10 days after initial exposure to thymus-dependent antigen in lymph node

○ 3 events in germinal centersAffinity maturation

- Result of somatic hypermutationClass switchingFormation of plasma and memory B cells

Page 26: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Cellular events in germinal centers

Dendritic cell presents antigento developing B cells to seewhich B cells are producingantibody with high-affinityfor that antigen

Page 27: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Class Switching Dependent on cytokines to

switch from IgM to other isotype Thymus-dependent

antigens Interaction of CD40 on B

cell and CD40L on T cell X-linked hyper-M syndrome

○ TH cells don’t express CD40L, patients only produce IgM No memory cell populations,

no germinal centers

Page 28: Chapter 12 B-Cell Activation and Differentiation Dr. Capers

Regulation Humoral and cell-mediated branches must be heavily

regulated Cytokines play important role Antigenic competition

Previous encounter with antigen can render animal tolerant or may result in formation of memory cells

Presence of antibody can suppress response to antigenSome vaccines are given to babies after maternal IgG

(that was transferred across placenta) has left systemVaccination before this will prevent proper response

and development of long-lasting memory cells


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