Post on 14-Dec-2015
Faculty of Allied Medical Sciences
Clinical Immunology & Serology Practice
(MLIS 201)
IMMUNOGENS & ANTIGENS
Prof. Dr. Ezzat M HassanProf. of Immunology
Med Res Inst, Alex UnivE-mail: elgreatlyem@hotmail.com
OBJECTIVES:
BY THE END OF THE LECTURE THE STUDENTS WILL BE ABLE TO
1. To Define the immunogen, antigen, and hapten
2. To describe the factors influencing immunogenicity
3. To characterize antigenic determinants
4. To introduce the concept of hapten-carrier conjugates
5. To know the types of antigens
COMPONENTS OF ANTIGEN-ANTIBODY REACTIONS
1. Immunogens & Antigens
2. Immunoglobulins (Antibodies)
3. Complement
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Definitions
IMMUNOGEN:
A substance, usually foreign, which when introduced into an animal can generate a specific immune response and binding specifically to immune components.
ANTIGEN:
A substance, usually foreign, which may not always induce an immune response in all animals, however is capable of binding specifically to immune components when present.
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Definitions (cont.)
Depending on the nature of the immune response the substance may be classified as:
an Immunogen/ antigen – a protective effect
a Tolerogen – depending on the nature of the tolerogen, its effect on the individual may be harmful, beneficial or neutral.
an Allergen – generally the effect is harmful.
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[1] Immunogenicity
“Ability of a substance to stimulate the production of antibodies and/or cell-mediated immune response”
Immunogens can be classified into:Complete immunogenIncomplete immunogen, also known as hapten
Haptens = molecules that can bind to antibodies or surface receptors (antigenic). However, they cannot induce specific immune response alone (non immunogenic)
HAPTENS
Low mw molecules. e.g. Antibiotics, drugs Not immunogenic, unless...
HAPTENS
HAPTENS
Low mw molecules. E.g. Antibiotics, drugs Not immunogenic, unless...
conjugated to high mw compounds (carriers) to gain immunogenicity
HAPTENS
CARRIER
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[2] Antigenicity
“Ability of a substance to combine specifically with the final product of the immune responses” (i.e. antibodies and/or cell surface receptors)
All immunogenic molecules are antigenicbut
Reverse is not true
What affects Immunogenicity/Antigenicity ?
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1) Foreignness
Ability of lymphocyte to recognise self antigen occurs during MATURATION
Any molecule not exposed to immature lymphocytes during this
critical period = nonself or foreign
Degree of immunogenicity depends on degree of foreignness
The greater the phylogenetic distance between two species, the greater the genetic and antigenic disparity between them
FOREIGNNESS (CONT)
Bovine serum Albumin (BSA)
Response toImmunization
NO
Yes++
Cow
Sheep
Chicken Yes+++++
Bovine serum albumin (BSA) = more immunogenic in chicken than sheep
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FOREIGNESS & ANTIBODY PRODUCTION:
Time
Antibody response to human serum
Rabbit
Chimpanzee
16Molecular Weight x103
Antibody response to Antigen
Rabbit
0 1.0 2.0 5.0 10 25 100 500
molecular weight<1000D-Not Immunogenic (penicillin) 1000-6000D May or May not be immunogenic
(insulin)>6000D-Generally immunogenic (albumin,
Tetanus toxin)
2) Size (i.e.Molecular Weight)
3)CHEMICAL COMPEXITY & HETEROGENEITY
Proteins almost always immunogenic
Carbohydrates potentially immunogenic glycoproteins usually immunogenic
Lipids poorly immunogenic Nucleic Acids poorly immunogenic
Chemically complexity (cont.)
The more chemically complex the substance the stronger the immunogenicity
homopolymers not generally immunogenic Ex: Polylysine-30,000 D, Poly-D-Glutamic acid-50,000D
Primary, secondary, tertiary and quaternary structures of proteins affect immunogenicity
CHEMICAL COMPLEXITY (CONT.)
Levels of Protein Structure
CHEMICAL COMPLEXITY (CONT.)
ANTIGENIC DETERMINANT OR EPITOPE : A specific small structural shape on the surface of an
immunogen or antigen, and usually limited to those portions of the antigen that are accessible to antibodies
It physically interact with paratopes (combining sites) of Abs Therefore actually "determine" antigen specificity Epitopes may be Linear or Discontineous
AgEpitope
A model of a substance with four epitopes
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NUMBER OF ANTIGENIC DETERMINANTS(i.e. epitopes)
Small mass = fewer antigen determinants
Large mass = greater number of antigen determinants
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4) Degradability
Macromolecules that cannot be degraded and presented by APC are poor immunogens
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5) Genotype Of The Recipient Animal
Mouse 1 Mouse 1
Level of Ab Level of Ab
Cross
F1 Generation
Ag X Ag X
Intermediate Level of Ab
Ag X
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6) Immunogen Dosage
Low dose failure to activate enough lymphocytes or induces Nonresponsiveness i.e. Low dose tolerance
High dose lymphocytes enter nonresposnsivess state i.e. High dose tolerance
Single dose usually not enough to induce reaction
Repeated doses over a period of weeks to induce a strong immune response
Repeated administration of antigen is required to stimulate a strong immune response
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Route of administration determines which immune organ and cell population will be deployed
Intravenous administration carried first to spleen
Subcutaneous = Move first to lymph nodes; strongest response
This generated differences due to differences in residingpopulations of cells
7) Route Of Administration
Route of Administration: SC>IP>IV>Intragastric
Gastrointestinal route – GALT; may induce tolerance
Intranasal route – MALT; may elicit allergic responses
8) ENHANCING IMMUNOGENICITY BY ADJUVANTS
Adjuvants are “Substances that enhance immunogenicity of antigen when mixed and injected with it”
Adjuvants used to boost immune response when: immunogen has low immunogenicity Small amounts of immunogen are available
Examples: Incomplete Freund’s adjuvant : oil-in- water
emulsion Complete Freund’s adjuvant: oil-in-water
emulsion plus dead Mycobacteria Aluminum hydroxide gel
TYPES OF ANTIGENS ACCORDING TO THEIR ORIGINS :
1-Exogenous antigens
Exogenous antigens are antigens
that have entered the body from
the outside by inhalation,
ingestion, or injection.
e.g. Viruses, bacteria, food
allergens,
2-Endogenous antigens
Endogenous antigens are antigens that
have been generated within the cell, as a
result of normal cell metabolism, or
because of viral or intracellular bacterial
infection.
3-Autoantigens An autoantigen (self antigen)is usually a normal self
protein or complex of proteins (and sometimes DNA or RNA) that becomes immunogenic due to break down of normal immunological tolerance for such an antigen.
When recognized by the immune system of patients it results in an autoimmune disease.
4-Tumor antigens
Tumor antigens are those antigens that
are presented on the surface of tumor
cells.
e.g. Alpha fetoprotein, Carcino-
embryonic antigen, prostate specific
antigen
FACTORS INFLUENCING IMMUNOGENICITY (SUMMARY)
1-Foreigness : Foreign substances are immunogenic
2- Molecular size: High molecular weight increase immunogenicity
3- Chemical structure complexity: High complexity increase immunogenicity
4- Route of administration: Parenteral routes are more immunogenic to oral
route
SC>IP>IV>Intragastric
FACTORS INFLUENCING IMMUNOGENICITY (SUMMARY) (CONT.)
5- Degradability of the immunogen
6-Genotype of the recipient
7- immunogen dose: Appropriate dose optimum
antigenicity Low dose low- zone tolerance High dose high-zone tolerance
8- Adjuvant: Substance when injected with an immunogen enhance immunogenicity
Take so
me rest
IMMUNOGLOBULINS:STRUCTURE & FUNCTIONS
Prof. Dr. Ezzat M HassanProf. of ImmunologyMed Res Inst, Alex UnivE-mail: elgreatlyem@hotmail.com
TEACHING OBJECTIVES:
1. To discuss the general properties of all immunoglobulins
2. To describe the basic structure of immunoglobulins
3. To relate immunoglobulin structure with function
4. To define immunoglobulin classes and subclasses, types and subtypes
6. To describe the structures and properties of immunoglobulin classes
IMMUNOGLOBULINS
Definition: Glycoprotein molecules in serum and tissue fluids that are produced by plasma cells in response to an immunogen and which function as antibodies.
They react specifically with antigen
Five classes of Antibodies: IgG IgM IgA IgD IgE
Immune serum
Ag adsorbed serum
+-
albumin
globulins
Mobility
Am
ount of protein γ β α2 α1
Serum Protein Electrophoresis
Am
ou
nt
of
pro
tein
Mobility
albumin
globulins
+-
Serum Protein Electrophoresis
TWO FORMS OF IMMUNOGLOBULIN
Membrane-bound receptor
Soluble antibody
IMMUNOGLOBULINS MEMBRANE-BOUND AND SOLUBLE RECEPTORS
Immunoglobulins are composed of two identical heavy (H) and two identical light (L) polypeptide chains. Each H and L chain has an amino-terminal variable (V) region and a carboxyl-terminal constant (C) region.
Structure of Immunoglobulin The Four-Chain Basic Unit
IMMUNOGLOBULINSFOUR-CHAIN BASIC UNIT
VLCL
CL VL
IMMUNOGLOBULINS: STRUCTURAL REGIONS
IMMUNOGLOBULINS: STRUCTURAL DOMAINS
IMPORTANT TERMS Antibody – immunoglobulin secreted by B cells
Antigen (antibody generator) – any substance capable of Binding with specific antibody
Epitope – region of the antigen recognized by an antibody
Paratope – region of the antibody that binds the epitope
Paratope
Antibody is a flexible molecule(Hinge Region)
IMMUNOGLOBULIN CLASSES AND SUBCLASSES
Immunglobulin molecules are divided into distinct classes
and subclasses in terms of the differences in amino
acid sequence of constant region of heavy chains
into:
1- 5 distinct classes i.e. γ,α, μ,δ, and ε chains.
2- Subclasses:
IgG has a family of subclass, IgG1, IgG2, IgG3, IgG4.
IgA is divided into two subclasses, IgA1 and IgA2.
Immunoglobulin classes
IgG subclasses
All light chains have protein
molecular weights of approximately
23,000.
Divided into two distinct types,
namely
κ (Kabba) chain and λ (Lumbda)
chain with a ration of 2:1
Light Chains
VH, VL antigen binding
sites CH1~ 3, CL genetic markers
of Ig CH2(IgG), CH3(IgM) C1q binding sites CH2~ CH3(IgG) binding to
placenta CH3(IgG) Fcγ Receptor
binding siteCH4(IgE) Fcε Receptor
binding site
Functions of the domains on Ig:
FUNCTIONS OF IMMUNOGLOBULINS
Recognition of antigen (FAB) Activation of complement Opsonization Neutralization Antibody-dependent cell-
mediated cytotoxicity,ADCC Mediate hypersensitivity type I
SPECIFIC ANTIGEN BINDING WITH ANTIGEN BINDING SITE
Paratope
Complement activation
Opsonization
ADCC
PROPERTIES OF IMMUNOGLOBULINS
Property IgG
IgA IgM IgE IgD
Heavy chain symbol
γ α µ ε δ
Molecular weight
150 KDa
170-400 KDa
900 KDa
190 KDa
180 KDa
Percentage in serum
75 % 15 % 10 % 0.004 % % 0.2
Complement fixation
Yes No Yes No No
Transplacental passage
Yes No No No No
Opsonization Yes No No No No
EFFECTOR FUNCTIONS OF IGG
Major serum Ig Major Ig in extravascular spaces Opsonization of bacteria for phagocytosis
by macrophages and neutrophils Neutralization of toxins and microbes Activation of the classical pathway of
complement Antibody dependent cell mediated
cytoxicity (ADCC) by NK cells. Transfer of maternal antibody across the
placenta (i.e. The only Placental transfer Ig)
IgA
EFFECTOR FUNCTIONS OF IGA -Found in serum and body secretions (Tears,
saliva, gastric and pulmonary secretions) Major secretory Ig on Mucous surfaces gives
Local Immunity by coating bacteria or viruses preventing their adherence to mucosal cells and is chiefly derived from local synthesis and is mainly dimeric
Does not fix complement (unless aggregated) Present in colostrum and mother milk protect
newly born. Neutralization of bacteria, viruses and toxins In humans, the IgA in serum is chiefly
monomeric, comprising ~90% IgA1 and 10% IgA2
EFFECTOR FUNCTIONS OF IGM
Elevated level of IgM usually indicated either recent infection or recent exposure to the antigen.
Isohemagglutinins (Blood group antibodies).
Antigen receptor of B lymphocyte Activation of classical pathway of
complement IgM is the first antibody produced in
a primary response to an antigen.
EFFECTOR FUNCTIONS OF IGD
IgD, together with IgM, is expressed by mature B cells as a B cell surface Ig. Present in very small amount in serum Does not bind complement
IgE
EFFECTOR FUNCTIONS OF IGE
Least common serum Ig (Binds to basophils and mast cells)
Mediate immediate hypersensitivity reaction.
Mediate antibody dependent cell mediated cytotoxicity (ADCC) to parasites involving eosinophils Binds to Fc receptor on eosinophils
Does not fix complement
ENZYMATIC DIGESTION PRODUCTS OF IMMUNOGLOBULINS
ANTIBODY PRODUCTION
Polyclonal antibodies: antibodies
produced against antigen by multiple B
cells, have different paratopes
Monoclonal antibodies: antibodies
secreted from a single B cell, have
identical paratopes
Prof. Dr. Ezzat M HassanProf. of ImmunologyMed Res Inst, Alex UnivE-mail: elgreatlyem@hotmail.com
TEACHING OBJECTIVES:
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1. To know the general properties of complement system
2. To know different components of complement
3. Understand different pathways of complement activation.
4. Know the biological Functions of C activation products.
Discovered in 1894 by Bordet Sheep antiserum could lyse Vibrio
cholera Its lysing activity was destroyed when
heated at 56C° for 30 min Added fresh serum (with no cholera
antibodies) to heated serum restored the lysing ability!!!!
Complement activity in serum that completes the action of antibodies.
Complement: history
Important effector in both innate and acquired immunity
Heat-labile serum proteins that ‘complemented’ antibody activity
is present in serum and all tissue fluids except urine and CSF
Over 30 circulating and membrane-bound proteins
synthesized maily in liver and other cells : immune and epithelial
There are three activation pathways: classical, alternative and MBL
Acts as a cascade (one event must occur before another takes place) i.e. Activation of complement is essentially a proteolytic chain reaction
The complement system
Cascade:Many of the components are enzymes that become activated when cleaved into two peptides :
One peptide binds to the immune complex and becomes a functional part of it
The other peptide diffuses away and can become an inflammatory mediator (binds to a receptor)
Letter “b” is usually added to the larger, membrane-binding, peptide
and “a” to the smaller peptide (e.g., C3b/C3a, C4b/C4a, C5b/C5a),
EXCEPT C2 (the larger, membrane-binding moiety is C2a; the smaller on is C2b)
Activated component are usually over-lined: e.g. C1qrs
Proteins of the complementsystem (nomenclature)
C1(qrs), C2, C3, C4, C5, C6, C7, C8, C9
factors B, D, H and I, properdin (P)
mannose binding lectin (MBL), MBL associated serine proteases (MASP-1 MASP-2)
C1 inhibitor (C1-INH, serpin), C4-binding protein (C4-BP), decay accelerating factor (DAF),
C1 receptor (CR1), protein-S (vitronectin)
Complement activation
1-classical pathway which is activated by Ab bound to Ag
2-the lectin pathway activated by carbohydrates (Mannose & Fucose)
3-Alternative pathway activated in the presence of various microbial pathogen
Pathways of complement activation
CLASSICALPATHWAY
ALTERNATIVEPATHWAY
activationof C5
LYTIC ATTACKPATHWAY
antibodydependent
LECTINPATHWAY
antibodyindependent
Activation of C3 andgeneration of C5 convertase
Components of the Classical Pathway
C4C2 C3
C1 complex
Ca++
C1r C1s
C1q
Ca++
C1r C1s
C1q
C4
C4a
b
Classical Pathway Generation of C3-convertase
Classical Pathway Generation of C3-convertase
C4b
Mg++
C4a
Ca++
C1r C1s
C1q
C2
C2ba
C2a
C4b2a is C3 convertase
Classical Pathway Generation of C5-convertase
C4b
Mg++
C4a
Ca++
C1r C1s
C1q
C2b
C2a
C3
C3a
b
C4b2a3b is C5 convertase; it leads into the Membrane
Attack Pathway
Components of mannose-binding lectin pathway
Bacteria
M
C4
MBL C2 MASP1
MASP2
M
Mannose-binding lectin pathway
Bacteria
C4
MBL
C4b
C4a
C4b
C2
C2b
C2a
C2a
C4b2a is C3 convertase; it will lead to the generation of
C5 convertaseMASP1
MASP2
M M
Components of thealternative pathway
C3 B
D
P
C3b stabilization andC5 activation
C3b
C3b finds an activator (protector) membrane
C3
C3a
bB
D
b
PThis is stable C5 convertase
of the alternative pathway
C5-convertase of the two pathways
C3b Bb C3b
C5-convertase of the Alternative Pathway
C4b C2a C3b
C5-convertase of the Classical and lectin
Pathways
Generation of C5 convertase leads to the activation of the
Lytic pathway
Lytic pathway
Components of the lytic pathway
C6
C9
C8
C7
C5
Lytic pathwayC5-activation
C3b C2 aC4b
C5 b
C5a
Lytic pathwayassembly of the lytic complex
C5 b
C6
C7
Lytic pathway:insertion of lytic complex into cell membrane
C5 b
C6
C7C8
C9C
9C9 C
9C9
C9 C
9 C9
C9
MAC PORES
C9 complexes on RBC
Complement Activation Classical Pathway C1
MBL Pathway C4 C2
C3 Alternative pathway C5
C6
C7
C8
C9
Membrane damage
Classic And Alterenative pathways
Classic Pathway Alternative pathway
* Specific acquired immunity * Non-specific innate immunity
* Initiated by antibody * Bacterial endotoxin, capsule
* Interaction of all components * C1, C4, C2 are by-passed
* Properdin system not involved * Properdin system is involved
Biological functions of Complement
Lysis of bacteria and infected cellsOpsonization to enhance phagocytosisPhagocyte attraction and activationClearance of immune complexesRegulation of antibody responsesInflammation and anaphylaxis
Figure 2-18The complement system
Study Questions:
Write a short note about Factors Influencing Immunogenicity .
Define: Epitope – Paratope. Compare between: Classic and
Alterenative pathways of complement activation.
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Assignment:
Immunoglobulins Classes and subclasses
الكردى عرابى امال محمد رأفت امل احمد بدوى امنية محمد صبرى امنية الوهاب عبد الحى عبد امنية
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Thanks