Imunoglobulins – structure and function
Production of immunoglobulins
Genetic determination of immunoglobulin production
Clonal selection theory

Antigen and epitope
17-03_Epitopes_1








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Lidský Ig
Molecule of IgG


Hypervaribale region of immunoglobulin molecule binds epitope of the antigen
vazebná část protilátky


Hypervariabilní oblasti
Variable region of immunoglobulin molecule





Clonal selection theory
F.M. Burnet, 1957
•During (mainly fetal) development immunocompetent cells of the immune system develop. Each cell is
characterized by its  own antigen specific receptor. Each cell reacts only with one concrete
specific  antigen.
•After exposure to autoantigen during fetal life autoreactive clones are eliminated ( „forbidden
clones“).
•If a concrete cell recognizes its specific antigen, it is stimulated, proliferates and forms a
clone = clonal selection.
•After repeated divisions the cell becomes a terminally differentiated cell, that does not
proliferate and after some time dies.
•The cells of the clone that do not differentiate into the terminal stage become a memory cells
which will quickly react after the second exposure to the antigen.

schema3-01.png
Clonal selection theory
Effector cells
antigen
Memory cells
Elimination of autoreactive clones
Blood and periperal lymphatic organs
expansion
death
death

VDJ Recombination
Germline configuration
D to J recombination
V to DJ recombination
transcription, splicing
V segments
D segments
J segments
Constant region exons
AAA
Issembly
Adapted from Janeway 2001

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VDJ genes for BCR, and TCR

Somatic hypermutations
•The process occurs in activated B-lymphocytes, takes place in germinal centers of secondary
lymphoid organs.
•Key enzyme is AID (activation-induced deaminase).
•Mutation frequency is approx. 106 times higher than in other parts of human genome. •Antigen
presentation by lymphoid dendritic cells to B-cells leads to selection of clones with higher
affinity – the process is called  affinity maturation.
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Isotype switching



Isotypový switch
Isotype switching


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Activation and differentiation of B-lymphocytes
(clonal selection theory in B-lymphocyte development)

Primary phase of the antibody response
•Naive or opsonised antigen captured by follicular dendritic cells.
•Primary stimulation of B-cells in lymphoid folicles.
•The antigen also stimulates T cells (after adequate presentation) in T-cell zones. T-cells migrate
toward the lymphoid folicles. • Newly formed plasma cells produce mainly IgM(mainly in bone
marrow).

Secondary phase of the antibody response
•Occurs in newly formed germinal centers of lymphoid folicles •Th lympocytes  stimulate
B-lymphocytes to somatic hypermutations and isotype switching. •This leads to selection of B- cells
producing high-affinity antibodies (affinity maturation). •Majority of B-cells producing
low-affinty antibodies die.

Development of B-cells in the bone marrow
•Stem cells: no B-cell surface markers, no rearrangement of Ig genes. •Pro-B lymphocyte –
rearrangement of heavy chain , expression of several B-cell surface markers (e.g.  CD19).
•Pre-B-lymphocytes  VDJ of heavy chain has been completed,  m chain can be detected in cytoplasm.
Pre-B receptor – composed of m chain and surrogate chains V-preB and l5 is expressed on the surface
of the cell. Signal transduction though this receptor is essential for B- cell development.
•Imature B-cell – light chain rearrangement  (V-J) completed B-cell receptor is composed of
monomeric IgM.
•Mature B-lymphocyte has IgM and  IgD  B-cell receptors.

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Development of B-cells in the bone marrow

B-cell receptor
Heavy chain μ/δ
Light
chain κ/λ
Igα
Igβ
Differentiation
Proliferation
Survival
CD19

Pre B-cell receptor



Bruton´s tyrosine kinase (BTK)
•Activates phospholipase C, leading to hydrolysis of  phosphatidylinositol (PIP2) into
inositoltriphophate (IP3) and diacyglycerol(DAG). •This is key process in activation, differentian
and development of B-cells. •Mutations of BTK lead to  X-linked (Bruton´s) agammaglobulinemia. •BTK
blockers (e.g. ibrutimib) are used for the treatment of B- cell malignancies.
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Isotype
•The class or subclass  of an immunoglobulin.
•Antigenic determinats are on constant part of immunoglobulin molecule.

Idiotype
•An antigenic determinant on the variable region of immunoglobulin molecule.


Interaction idiotype-antiidiotype
antigen
Antiidiotyp
idiotyp
Antibody
Ab 1
Antibody
Ab 2
Antibody
Ab 3
Paratop
Epitop

www.immunology.klimov.tom.ru/1-1.php.



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Characteristics of immunoglobulin classes

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IgG





Antibody response after primary and secondary antigen exposure
Secondary antibody response
Primary antibody response
IgM
IgG
Weeks

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IgM on B-cell membrane


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Expression of surface immunoglobulins on B-cells


Dimerické IgA



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Formation of Secretory IgA

•Affinity: The strength of the binding between a single site of an antibody (one variable region)
and an epitope. •Avidity:  The overall strength of interaction between  and antibody and antigen.
The avidity  depends on affinity and  the valency of interactions.

Antibody affinity
http://pathmicro.med.sc.edu/mayer/rx-2.jpg


Affinity and avidity
IgA
IgG
IgM

Biological functions of immunoglobulin molecules
•Activation of complement system (IgG, IgM)
•Opsonization (particularly IgG)
•Neutralization of antigens (IgG, IgA, IgM)
•Adherence interference (IgA, IgG)
•Antibody dependent cellular cytotoxicity (ADCC)
•Agglutation, precipitation (IgG, IgM)
•Mast cells degranulation (IgE)
•Transport through placenta (IgG)
•Imunoregulation (mainly IgG)
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Antibody dependent cellular cytotoxicity (ADCC)
Fc receptor
Virus-infected Cell
NK Cell
perforin
granzyne
IgG
Fab
Fc
Epitope