Dr. Nabil MTIRAOUI, M.Sc, Ph.D - PowerPoint PPT Presentation

1 / 40
About This Presentation
Title:

Dr. Nabil MTIRAOUI, M.Sc, Ph.D

Description:

Immunoglobulin Structure and Function Dr. Nabil MTIRAOUI, M.Sc, Ph.D Lecture 8 Immunoglobulin E 90 000 MW, largest immunoglobulin, present in extremely low levels in ... – PowerPoint PPT presentation

Number of Views:105
Avg rating:3.0/5.0
Slides: 41
Provided by: KarenDem
Category:

less

Transcript and Presenter's Notes

Title: Dr. Nabil MTIRAOUI, M.Sc, Ph.D


1
Immunoglobulin
Structure and Function
  • Dr. Nabil MTIRAOUI, M.Sc, Ph.D

Lecture 8
2
Definition and Properties
3
Outline of Lecture
  1. Recognize the structure of immunoglobulin
    molecule
  2. Know the different types of immunoglobulin.
  3. Understand the biological activities of each
    type.
  4. Differentiate between types of immunoglobulin.
  5. Define isotype switching and antibody diversity.
  6. Differentiate between types of FC receptors.

4
Antibodies (or Immunoglubulins)
  • The chemical information of immunoglobulin was
    provided by Tiselius and Kabat in the early
    1940s.
  • In 1950s, Porter and Edelman revealed the basic
    structure of immunoglobulin molecule.
  • Antibodies are products of antigen- activated B-
    lymphocytes.
  • They are the main effectors of humoral immunity.

5
Definition
  • An antibody or immunoglobulin (Ig) is a
    glycoprotein that is made by plasma cells in
    response to an antigen and can recognize and bind
    to the antigen that caused its production.
  • Antibodies are produced by B cell

6
General Functions of Immunoglobulins
  • Ag binding
  • Can result in protection
  • Valency
  • Effector functions
  • Fixation of complement
  • Binding to various cells
  • Usually requires Ag binding

7
Basic Immunoglobulin Structure
  • Fab region
  • Fc region
  • Heavy chain with one variable (VH) domain
  • followed by a constant domain (CH1), a hinge
    region, and two more constant (CH2 and CH3)
    domains.
  • Light chain with one variable (VL) and one
    constant (CL) domain
  • Antigen binding site (paratope) It is the area
    of Ig molecules that interacts specifically with
    epitope of the Ag
  • Hinge regions.

8
Basic Immunoglobulin Structure
  • Abs have more than one antigen combining site
    Some bivalent Ab molecules can combine to form
    multimeric Abs that have up to 10 combining
    sites.
  • All immunoglobulin have a basic structure
    composed of 4 polypeptide chains connected to
    each other by disulfide bonds.
  • Each light chain consist of 220 Aa and has a mass
    of approx. 25kDa.
  • Each heavy chain consists of about 440 Aa and has
    a mass of 50-70kDa.

9
Basic Immunoglobulin Structure
  • Both light and heavy chains contain 2 different
    regions
  • constant and variable region
  • The four chains are arranged in the form of a
    flexible Y with the hinge region and is termed
    as crystallizable fragment (Fc) and contains the
    site at which Ab binds.
  • Top of the Y consist of two Ag binding
    fragments (Fab) that bind with antigenic
    determinant sites.
  • The four chains are linked by disulfide bonds.

10
Basic Immunoglobulin Structure
  • Light chain
  • The light chain may be either of two distinct
    forms called Kappa and Lambda and can be
    distinguished by aa sequence of carboxyl portion
    of the chain.
  • Heavy chain
  • In the heavy chain NH2 terminal has a pattern of
    variability similar to that of kappa and lambda
    of the light chain.

11
The variable (V) regions.
  • The first 100 or so amino acids at the N-terminal
    of both H and L chains vary greatly from antibody
    to antibody.
  • These are the variable (V) regions.
  • The amino acid sequence variability in the V
    regions is especially pronounced in 3
    hypervariable regions.
  • Together they construct the antigen binding site
    against which the epitope fits
  • Only a few different amino acid sequences are
    found in the C-terminals of H and L chains.
  • These are the constant (C) regions.

12
The variable (V) regions.
13
The Hypervariable regions.
  • Hypervariable regions In the variable regions of
    both LH chains, there are 3 extremely
    hypervariable amino acids sequences that form the
    Ag binding sites.
  • The hypervariable regions form the region
    complementary in structure to the epitope. These
    regions are involved in the formation of paratope.

14
The constant (C) regions.
  • two different kinds of C regions for their L
    chains producing
  • kappa (?) L chains
  • lambda (?) L chains
  • five different kinds of C regions for their H
    chains producing
  • mu (µ) chains (the H chain of IgM antibodies)
  • gamma (?) chains (IgG)
  • alpha (a) chains (IgA)
  • delta (d) chains (IgD)
  • epsilon (e) chains (IgE)

15
Fc and Fab regions
  • The proteolytic enzyme papain breaks each Ig
    molecule into 3 fragments at the hinge region.
  • The single crystallizable fragment (Fc region)
    includes part of the constant domain that
    occupies the stem.
  • There are 2 antigen-binding fragments (Fab
    region), which include the entire light chain and
    variable and constant portions of the heavy
    chain.
  • Ig G

16
Fc and Fab regions
  • Antigen-binding fragment (Fab)
  • recognize Ag
  • contain Ig idiotype
  • Unique protein sequence that identifies each Ab
  • Crystallizable fragment (Fc)
  • define isotype of Ig
  • bind FcR for all functional attributes of Ab
  • Fab link to Fc by hinge region

17
Fonction of Fc and Fab regions
  • By binding to specific proteins the Fc region
    ensures that each antibody generates an
    appropriate immune response for a given antigen.
  • The Fc region also binds to various cell
    receptors, such as Fc receptors, and other immune
    molecules, such as complement proteins.
  • Thus, Ab mediates different physiological effects
    including opsonization, cell lysis, and
    degranulation of mast cells, basophils and
    eosinophils.

18
Activation of complement
  • Antibodies that bind to surface antigens on, for
    example a bacterium, attract the first component
    of the complement cascade with their Fc region
    and initiate activation of the "classical"
    complement system
  • This results in the killing of bacteria in two
    ways
  • First, the binding of the antibody and complement
    molecules marks the microbe for ingestion by
    phagocytes in a process called opsonization
  • Secondly, some complement system components form
    a membrane attack complex to assist antibodies to
    kill the bacterium directly.

19
Types of FC receptors
FC receptor Affinity to Ig Cell distibution Function
Fc?Rl (CD64) High binds IgG1a and IgG3 MQ. Neutrophils and eosinophils Phagocytosis, activation of phagocytes
Fc?RllA (CD32) Low MQ. Neutrophils and eosinophils,platelet Phagocytosis,cell activation (inefficient)
Fc?RllB (CD32) Low B lymphocytes Feed back inhibition of B cells
Fc?RlllA (CD16) Low NK ADCC
FceRl High bind monomeric IgE Mast cells, basophils, eosinophils Avtivation, degranulation of mast cell, basophils
20
CLASSES (ISOTYPES) OF IMMUNOGLOBULINS
  • Classes based on constant region of heavy chains
  • Immunoglobulin A (IgA)
  • Immunoglobulin D (IgD)
  • Immunoglobulin E (IgE)
  • Immunoglobulin G (IgG)
  • Immunoglobulin M (IgM)
  • Differentiation of heavy chains
  • Length of C region, location of disulfide bonds,
    hinge region, distribution of carbohydrate
  • Classes have different effector functions

21
CLASSES (ISOTYPES) OF IMMUNOGLOBULINS
22
Immunoglobulin G
  • Structure
  • Monomer (7S)

23
IgG
  • It is the major Ig in normal serum, accounting
    for 75 of the total Ig pool. It is a monomeric
    unit (2 heavy chain 2 light chain), MW 160,000.
    It can bind 2 Ag molecules. 4 subclasses are
    known IgG1,2,3,4. Its biological activities
    include
  • Its half life time is 23 days and is the longest
    of all Igs.
  • It is the major Ab in the secondary immune
    response.
  • It is the only Ab that can cross placenta (IgG2
    does not cross well) and provide immunity to the
    newborn during the first months after birth.
    Transfer is mediated by a receptor on placental
    cells for FC region of IgG .
  • It diffuse into the extravascular neutralizing
    bacterial toxins (antitoxin).
  • It enhance phagocytosis (opsonization) by coating
    bacteria and attaching by its FC portion to FC
    receptor on phagocytic cells.
  • It can fix and activate complement (by IgG1 and
    IgG3)

24
Immunoglobulin A
Secretary Ab First line defense for microbes
  • IgA a doublet guards the entrance to the body.
    170,000 MW in serum and 400,000 MW in external
    secretions, 15 of Ig in serum, found in the
    blood as a monomer, and in tears, saliva,
    colustrum, nasal, vaginal, prostatic and
    bronchial secretions as a dimer.
  • Blocks attachment of microbes to mucous
    membranes
  • It concentrates in body fluids such as tears,
    saliva, and secretions of the respiratory and
    gastrointestinal tracts.

25
IgA
  • Structure
  • Serum - monomer
  • Secretions (sIgA)
  • Dimer (11S), sIgA molecule consists of two H2L2
    units plus one molecule each of J chain and
    secretory component (SC or SP)

26
IgA
  • Properties
  • 2nd highest serum Ig
  • Major secretory Ig (saliva, tears, respiratory,
    intestinal, and genital tract secretions.)
  • Does not fix complement unless aggregated
  • Binds to Fc receptors on some cells

27
Immunoglobulin M
Macroglobulin primary immune response Bacteriolyti
c
  • IgM usually combines in star-shaped clusters.
    pentamer,
  • It tends to remain in the bloodstream, 10 of
    blood Ig,
  • found on the surface of B lymphocytes.
  • Activates the complement system.

28
IgM
  • Structure
  • Pentamer (19S)
  • composed 5 H2L2 units plus one
    molecule of
  • J chain
  • Extra domain (CH4)
  • J chain

29
Fixation of C1 by IgG and IgM Abs
No activation
Activation
30
IgM
  • Structure
  • Properties
  • 3rd highest serum Ig
  • First Ig made by fetus and B cells
  • Produced early in the primary response
  • The most efficient Ig
  • Fixes complement

Agglutinating Ig Binds to Fc receptors B cell
surface Ig
31
Immunoglobulin D
Membrane bound antibody Found on B-cell
membrane Memory function
  • 180,000 MW, activity is not well known. 0.2 of
    plasma Ig. 13 carbohydrate content. Also found
    on the surface of B lymphocytes, where it somehow
    regulates the cell's activation

32
IgD
  • Structure
  • Monomer
  • Tail piece

33
IgD
  • Structure
  • Properties
  • 4th highest serum Ig
  • Expressed in B cell surface Ig
  • Does not bind complement
  • FUNCTIONS
  • B cell activation .
  • Acts as receptor for Ag binding.

34
Immunoglobulin E
Activate mast cells Release vasoactive
amines Respond to allergens Mediate
hypersensitivity reactions
  • 90 000 MW, largest immunoglobulin, present in
    extremely low levels in a healthy individual.
  • IgE levels rise in response to parasitic
     infections and in  allergic reactions.
  • Bind and activate mast cells. Mast cells cause
    acute inflammatory response (e.g. swelling,
    redness, pain and itchiness). 
  • Hay fever is a condition caused by too much IgE
    activity.

35
IgE
  • Structure
  • Monomer
  • Extra domain (CH4)

36
IgE
  • Structure
  • Properties
  • Least common serum Ig
  • Allergic reactions
  • Parasitic infections
  • Does not fix complement
  • FUNCTIONS
  • Responsible for immediate hypersensitivity or
    allergic reactions.
  • Binds to Fc receptors on basophils and mast
    cells.
  • Release of substances like histamine , bradykinin
    and other vasoactive mediators.

37
Properties of immunoglobulins
IgG IgA IgM IgD IgE
1. Serum conc. () 85 5-15 5-10 lt1 lt1
2. Mol. Wt. 160,000 170,000 385,000 960,000 184,000 188,105
3.Sed. coeff. 7S 7S 19S 7S 8S
4.Heavy chain class Gamma Alpha Mu Delta Epsilon
5.Light chain K L K L K L K L K L
6. Valency 2 2 or multiple of 2 5 (10) 2 2
7.No of basic 4-polypeptide chains Monomer Dimer or Trimer Pentamer Monomer Monomer
38
IgG IgA IgM IgD IgE
8.Placental transport _ _ _ _
9.Present in milk _ _ _
10.Selectie secretion by seromucus gland _ _ _ _
11. Intravascular distribution() 45 42 80 75 50
12.Carbohydrate () 3 11 10 13 12
8.Subclasses IgG1-4 IgA1-2 _ _ _
39
IgG IgM IgA IgD IgE
14.Comple-ment fixation
A.Classical _ _ _
B.Alternati ve _ _ _ _
15.Half life (days) 23 6 5 2-3 2-3
16.Princip-al site of action Serum Secretion Serum Receptor for B cells Mast cells
17.charact-eristic propert-ies precipitins, antitoxins, compleme-nt fixation, late Ab Serum and secretory Abs Agglutinin, opsonin , lysin , early Ab Not known (B-cell activation) Reaginic Ab (anaph- ylaxis)
40
Thank You
Write a Comment
User Comments (0)
About PowerShow.com