3. Immunoglobulin
Immunoglobulin is a glycoprotein that is made in
response to an antigen and can recognize and bind to
that antigen.
Abbreviated as Ig
Are gamma globulins(Mobility in Electric Field)
Immunoglobulins and Gamma Globulins are synonyms
Synthesized by plasma cells
4. Immunoglobulin is a functional term while
Gamma Globulin is Physical term
Constitute 25-30 % of total serum proteins
Antibodies are present in serum, tissue fluids and
mucosal surfaces.
All antibodies are immunoglobulins, but all
immunoglobulins may not be antibodies
5.
6. Basic structure
Composed of 4 polypeptide chains.
2 identical light and 2 identical heavy chains
Linked by disulphide bonds
Light chains similar in all immunoglobulins
Light chains occur in 2 varieties kappa and lambda
For eg: IgG may have λ(Lambda) or κ (Kappa) in all
classes
7. Light and Heavy chains are subdivided into variable and
constant region as per their amino acid composition.
VL and CL are terms used for light chain and VH and CH
are used for heavy chain.
For eg: First 108 aa in light chain and 118 aa in Gamma
Heavy chain constitutes variable region.
Each heavy and light chain contains amino terminal in
variable region carboxy terminal in constant region
8.
9. Heavy chains are structurally and antigenically
distinct for each class
Each immunoglobulin peptide chain has intra chain
disulphide bonds which form loops
Each loop is compactly folded to form a globular
structure-domain
Light chain contains a single variable domain (VL)
and a single constant domain (CL).
10.
11. Heavy chain contains one variable domain (VH) and
3 constant domains (CH1, CH2, CH3)
Hinge region is the segment in heavy chain - between
CH1, CH2
12.
13. Digestion with proteolytic enzymes
Papain enzyme
Papain is proteolytic enzyme from papaya cleaves Ig in
2 Fab portions (Fraction Antibody) and 1 Fc(Fraction
Crystallizable) portions.
Peptide bonds in the hinge region are broken
Produces 3 fragments
14. 2 identical fragments called Fab fragments it possess antigen
binding activity.
Other fragment called Fc fragment (Fraction crystallizable)
15.
16. Pepsin Digestion
Another enzyme Pepsin cleaves Ig at other site
Produce a single fragment composed of two Fab like
subunits F(ab)2 binds antigen
Fc fragment is not recovered- digested to small
numerous peptides.
19. Based on structure and antigenic nature of Heavy
chain the Immunoglobulins are classified into 5
classes.
Ig G- (gamma)
Ig A- (alpha)
Ig M- (mu)
Ig D- (delta)
Ig E - (epsilon)
20. Immunoglobulin G (Ig G)
Most abundant antibody in serum
Constitutes 75-80% of total immunoglobulin
Present in blood, plasma and tissue fluids
IgG contains two heavy chain and two light chains
Heavy chain is of Gamma Type
21. Contains less carbohydrate than other immunoglobulins
It has a half life of 23 days: the longest of all of the
immunoglobulin isotypes
This antibody is seen in Secondary Immune Response.
It can cross placental barrier hence can protect newborn from
infections.
Available in neonatal circulation up to 2-4 months
22.
23. Acts against bacteria and viruses by opsonizing
Neutralize toxin
Activate complement by classical pathway
Catabolism of IgG is unique in that it varies with
its serum concentration
24.
25.
26. Sub classes of Ig G
Ig G1……Ig G2….. Ig G3…..and Ig G4.
27. Biological Function of Subclasses
IgG1, IgG3, IgG4 – cross placenta and protect foetus
IgG3 activates complement
IgG1 and IgG3 binds to Fc receptor on phagocytic cells,
monocytes and macrophages and mediate opsinization.
28. Constitutes 10-15 % of Total Immunoglobulins
Present in milk, saliva, tears, mucous of Respiratory
Tract, Digestive Tract and Genitourinary Tract.
In serum exist as monomer
In external secretions exist as Dimer (4 Heavy chain
and 4 Light Chain) called Secretory Immunoglobulin.
29.
30. The J chain connects the dimer. The dimers are stabilized
against proteolytic enzymes by Secretory Piece. This piece is
produced in liver, reaches to intestinal mucosal cells, where it
combines with IgA dimer to form secretory IgA which is then
released.
Half life: 6-8 days
31.
32. The portion of the receptor that remains attached to the Ig A
dimer – secretory component
Secretory piece protects Ig A from digestive enzymes and
denaturation by bacterial proteases
33. Functions
Provides local immunity.
Secretory Ig A binds to surface antigens of
microorganism and prevent its attachment and invasion of
the mucosal surfaces of respiratory and digestive tract-
immune elimination.
Secretory IgA provides important line of defense against
salmonella, Vibrio cholerae, N. gonorrhoeae, influenza
virus and poliovirus.
34. Secretory IgA present in breast milk protects
newborn during first months of life.
Activates complement by the alternative pathway
Promotes phagocytosis and intracellular killing of
microorganisms
35. Immunoglobulin M (Ig M)
Accounts for 5-10% of total serum proteins
Polymer of five monomeric units (pentamer) 10 heavy
chains and 10 light chains joined by disulfide bonds and
‘J’ chain
It can combine with 5 antigens simultaneously.
Mol. Wt. of 900,000-10,00,000 (millionaire molecule)
hence they are macroglobulins or 19 S Ig
Half life: 5 days
36.
37. Most of IgM (80%) present intravascularly because of
large molecular weight.
IgM are predominant class of antibodies in Primary
response. Natural Ab’s are IgM in nature
Cannot cross placenta
Presence of IgM antibody in serum of newborn
indicate congenital infection.
Earliest immunoglobulin to be synthesized by foetus
(20 weeks)
38. Relatively short-lived hence it’s demonstration in the
serum indicates recent infection
Monomeric IgM appears on the surface of
unstimulated B lymphocytes and act as receptors for
antigens
39. Functions
It agglutinates bacteria more effectively.
Activates complement by classical pathway
Causes opsonization and immune hemolysis
Believed to be responsible for protection against
blood invasion by microorganisms
40. Immunoglobulin E (Ig E)
They are cytophillic antibodies and they mediate allergy,
hypersenstivity and anaphylaxis.
Structure is similar to Ig G
Has 4 constant region domains.
Mol. Wt. 1,90,000
Half life: 2 days
Heat labile (inactivated at 560C in 1 hour)
41. Normal serum concentration 0.3 ug/ml
Mostly present extra cellularly
Does not cross placenta
42.
43. Produced in the lining of respiratory and intestinal
tract
Known as reagin antibody
Does not activate complement nor agglutinate
antigens
Binds to the Fc receptors on the membranes of blood
basophils and tissue mast cells
44. IgE binds to Fc receptors on the membrane of blood
basophils and tissue mast cells.
When two IgE molecules on the surface of these cells
are cross linked by binding of the same antigen- cells
degranulates.
45. Mediates immediate hypersensitivity reaction.
Responsible for symptoms of anaphylactic shock, hay
fever and asthma.
Play a role in immunity against helminthic parasites
and IgE level markedly increased in above condition.
46. Release histamine and pharmacological mediators of
anaphylaxis from cell.
The physiological role of IgE appears to be protection
against pathogens by mast cell degranulation and
release of inflammatory mediators
47.
48. Mediates P.K. reaction (PRAUSNITZ & KUSTNER)
The presence of a serum component responsible for
allergic reaction was first demonstrated by Prausnitz and
Kustner in 1921.
Kustner was suffering from atopic hypersensitivity to
certain species of fish
49. Kustner’s serum was injected intracutaneously in
Prausnitz
After 24 hrs small quantity of cooked fish antigen
was injected at the same site
A wheal and flare reaction occurred within minutes.
50. Immunoglobulin D (Ig D)
Structure is similar to IgG
Serum concentration 30 micrograms per ml
Constitutes 0.2% of total immunoglobulins
Half life: 3 days
IgD together with IgM is major membrane bound
immunoglobulin on unstimulated B lymphocytes-acts
as recognition receptors for antigens
51.
52.
53.
54. Antibody Types
Polyclonal: When an animal is immunized with complex
antigen some B cells will make antibodies against one Epitope
whereas other cells will make antibodies for other epitope of
an same antigen. An antigen have more than one Epitope
The antibodies present in blood are actually mixture of
different immunoglobulins molecules. Antibodies are derived
from several B cells they are c/a Polyclonal Antibodies.
Polyclonal Ab’s are heterogenous mixture
55. Monoclonal: They are derived from clones of single B cells.
Clones synthesized one type of antibody specific for just one
epitope.
Monoclonal antibodies arise from benign or malignant
transformation of single B cell which produces identical
antibodies just for one epitope.
They are Homogenous made up of single Ig’s
If clones multiply malignantly s/a in Multiple Myeloma....
Waldenstorm’s Macroglobulinaemia....the serum concentration
of particular Ig’s become very high.
56.
57.
58.
59. Clinical Importance of Immunoglobulin's:
Quantitative changes in the amount of Ig’s in plasma and urine
are known in several pathological conditions in human.
Abnormally large amount of Ig’s are found in serum in several
disease. As well as deficiency of Gamma Globulins is found in
rare hereditary disease
60. Hypergammaglobulinaemia
1. Polyclonal Hypergammaglobulinaemia d/t increased
production of large numbers of different immunoglobulins.
Liver disease s/a hepatitis, cirrhosis, recurrent infections s/a
Rheumatoid Arthritis stimulate B cells for production of
heterogenous antibodies.
In this case Diffuse Discrete pattern is observed on
electrophoresis in contrast to monoclonal where Single band
is observed.
61.
62. 2.monoclonal hypergammaglobulinaemia
Or
Paraproteinaemia
Characterized by abnormal benign or malignant proliferation of
single clone of B lymphocytes or plasma cells that produces
homogenous Ig’s
Discrete Ig’s bands are observed on electrophoresis k/a
paraproteins or monoclonal components d/t production of
single Ig’s
63. Malignant paraproteinaemia occurs in Multiple Myeloma,
Plasma Cell leukemia, Waldenstorm’s macroglobulinaemia ,
heavy and light chain disease, amyloidosis, and other tumours.
Multiple Myeloma: Characterized by a malignant proliferation
of plasma cells derived from a single clone.
Most common primary malignancy of bone (~40%)
Also known as Plasmocytoma or Monoclonal-gammopathy
65. Multiple myeloma is characterized by excessive numbers of
abnormal plasma cells in the bone marrow and overproduction of
intact monoclonal immunoglobulin usually IgG or IgA, or
Bence-Jones protein (free monoclonal κ and λ light chains).
BJ Proteins: they are light chain proteins (low molecular weight)
hence they enter the circulation and through glomerulus appear
in urine.
Multiple myeloma with bence jones proteins is k/a light chain
disease.
66. Organ damage classified as “CRAB”
C – calcium elevation (>10 mg/L)
R – renal dysfunction (creatinine >2 mg/dL)
A – anemia (hemoglobin <10 g/dL or ≥2 g/dL decrease from
patient’s normal)
B – bone disease (osteoporosis)
67.
68. Waldenstorm’s Macroglobulinaemia
Malignant disease of lymphoid elements characterized by high
serum IgM.
Amyloid Disease
Amyloidosis is a group of diseases in which abnormal protein,
known as amyloid fibrils, builds up in tissue
Amyloid proteins found in body tissue and fluids. Deposition of
amyloid in tissues is k/a Amyloidosis
Deposition leads to pressure on vital organs.
Generally associated with Multiple Myeloma
69. There are about 30 different type of amyloidosis, each due to a
specific protein misfolding
Diagnosis may be suspected when protein is found in the
urine, organ enlargement is present,
71. Antibody Diversity
Human Genome is thought to contain fewer than 105 genes,
yet a human can make at least 1015 different types of
antibodies in terms of Antigen binding specificity.
One of the important feature of the vertebrate immune system
is its ability to respond to an apparently limitless array of
foreign antigens.
72. As immunoglobulin (Ig) sequence data accumulated , virtually
every antibody molecule studied was found to contain a
unique amino acid sequence in its variable region but only one
of a limited number of invariant sequences in its constant
region.
The genetic basis for this combination of constancy and
tremendous variation in a single protein molecule lies in the
organization of the immunoglobulin genes.
An Ab combining site is made up of one VL and one VH.
73. The specificity of any combining site is determined by its
amino acid sequence.
There exist at least 106 unique combining sites .
The formation of a complete variable region of a light or
heavy chain requires the joining of two or three separate
genetic elements by a process of gene rearrangement
75. GERM-LINE THEORY –
◦ For every kappa-chain V-region there exists one unique germ-
line gene. A particular antibody-forming cell selects one of
these and expresses it in unmodified form.
SOMATIC THEORY –
◦ Only a single germ-line gene exists for all kappa-chain V-
regions.
◦ A particular antibody-forming cell expresses this gene
following a process of somatic mutation, which results in each
cell expressing a different version of this gene.
76. TWO-GENE MODEL
Dreyer and Bennett proposed the Two-Gene Model.
In 1965-Proposed that two separate genes encode a single
immunoglobulin heavy or light chain, one gene for the V
region (variable region) and the other for the C region
(constant region).
They suggested that these two genes must somehow come
together at the DNA level to form a continuous message that
can be transcribed and translated into a single Ig heavy or light
chain.
77. Moreover, they proposed that hundreds or thousands of V-
region genes were carried in the germ line, whereas only
single copies of C-region class and subclass genes need exist.
78. STRUCTURE AND EXPRESSION OF
IMMUNOGLOBULIN GENES
Three families of immunoglobulin genes exist, each on a
separate chromosome.
◦ kappa genes- chromosome 2
◦ lambda genes- chromosome 22
◦ heavy chain genes- chromosome 14
Each family consists of a series of V-regions genetically linked
to one or more C-regions.
79.
80. Antibody is a protein and antigen binding region is made up of
VL and VH regions of light and heavy polypeptide chain. So
how it is possible to have large variety of antigen specific
antibodies when there are only 30-35000 genes for
polypeptide.
This is explained by Multi gene theory of Immunoglobulin.
Accordingly each VL region is coded by 2 genes V and J and
each VH region is coded by 3 genes V D and J.
81. There are many alleles known for the genes coding VL and
VH regions of light and heavy chains
For eg: There are 40 VL and 5 JL genes
There are 51 VH, 27 DH and 6 JH genes
So by random combination of V and J genes in VL regions or
V D and J genes in VH regions a large variety of different
antigenic specific variables regions are produced. Splicing
produced fully functional antibody molecule.
82.
83.
84. MECHANISMS FOR GENERATING ANTIBODY
DIVERSITY
Multiple germ-line gene segments
Combinatorial V-(D)-J joining
Junctional flexibility
P-region nucleotide addition (P-addition)
N-region nucleotide addition (N-addition)
Somatic hypermutation
Combinatorial association of light and heavy chains.