BCH 422 Lecture Notes 2022 - Antigen-Antibody Reactions PDF

Summary

These lecture notes cover antigen-antibody reactions in BCH 422. The notes discuss the forces, nature, factors, characteristics, types, and applications of these reactions. The information is presented in a way to aid student understanding.

Full Transcript

Antigen – Antibody Reactions
Objectives: Students should be able to

1. Discuss the forces stabilizing the antigen-antibody reactions

2. Explain the nature of antigen-antibody reactions

3. Discuss the factors affecting antigen-antibody reactions

4. Discuss the characteristics of antigen-antibody reactions

5. Describe common types of antigen- antibody reactions

6. Explain the applications of antigen-antibody reactions
 Introduction
Interaction between antigen and antibody combining together (antigen –
antibody interaction)

Normally shortened as Ag – Ab interaction

The basis of humoral or antibody mediated immunity

Serology - science that deals with in vitro interaction of antibodies with
antigens
 Introduction

Interaction of Ag – Ab interaction occurs in three stages:

 Formation of Ag – Ab complex (primary Ag – Ab reaction – invisible)
rapid (occurring in seconds)
not dependent on electrolytes (salts or buffered solutions)

 Conversation of invisible primary reactions to macroscopically visible
ones (secondary Ag – Ab reactions – precipitation or agglutination)

 Destruction or neutralization of the antigens (tertiary)
 Introduction
How is the interaction possible???
 Nature of Ag – Ab reactions
Antibody interlocks with antigen like a key in a lock.

Non-covalent forces hold antigenic determinants within the Ab
combining site
 Hydrogen bonds, hydrophobic, Van der Waals

 NB: distance or closeness between interacting molecules

Reaction is reversible
k1
Ag + Ab Ag - Ab K = k1/k-1 Affinity
k-1
 Properties of Ag – Ab reactions

Affinity: strength of the reaction Avidity: overall strength of binding
between a single antigenic reaction of an Ag with many
determinant and a single combining antigenic determinants and
site of Ab multivalent Abs

NB: sum of repulsive and attractive NB: it is affect by the valence of Ab
forces between antigenic determinants More than sum of individual affinities
and combining sites
 Properties of Ag – Ab reactions
Specificity: ability of an Ab Cross Reactivity: ability of an Ab
combining site to react with one combining site to react with more
antigenic determinant or population than one antigenic determinant or
of Ab molecules to react with only population of Ab molecules to react
one antigen with more than one antigen

NB: A type of Ab destined to
bind to a particular Ag
 Factors affecting Ag – Ab interactions measurements

Directly or indirectly detecting complex formed between Ag and Ab

Affinity: higher affinity for antigen the more stable the reaction and ease
to detect the interaction

Avidity: reactions between multivalent Ags and multivalent Abs are most
stable and thus easy to detect

Ag:Ab ratio: size of complex formed is related to concentration of Ag and
Ab
 Factors affecting Ag – Ab interactions measurements

Physical form of the antigen: physical form influences how it reacts with
Ab

Temperature: high temperature affect binding of Ag to Ab

pH: ????

Ionic strength: ????
 Tests for Ag –Ab interactions

Agglutination

Precipitation

Immunoassays

Complement Fixation

Western blotting

Immunofluorescence
 Agglutination (clumping) Tests

When a particulate antigen reacts with an Ab

Haemagglutination????

Types
 Quantitative
Qualitative
Agglutination inhibition
 Qualitative Agglutination Tests
Ab is mixed with a particulate
antigen and a positive is indicated
by agglutination of the particulate Ag

Typical example: ABO blood
groupings

The hCG pregnancy testing
 Qualitative Agglutination Tests

Coagulase test for Staphylococcus aureus: use human or rabbit plasma
 Quantitative Agglutination Tests
Make serial dilutions of samples
to be tested for Ab
Add fixed number of RBCs or
bacteria or particulate antigen
Determine maximum dilution
that gives agglutination

Titer: the highest dilution that still
causes agglutination beyond
which no agglutination occurs

Titer is reported as reciprocal of
maximum dilution
 Prozone Effect
Occasionally, at high Ab (lower dilutions) there is no agglutination and
as sample is diluted agglutination occurs

Lack of agglutination at high Ab concentration - prozone effect

Abs are present in excess so Ag/Ab ratio is out of balance

Every epitope on one particle may have bound individual Ab
molecules thus preventing cross-linking between different particles
 Haemagglutination Inhibition
Measures ability of antigen to inhibit the agglutination of Ag-coated
RBCs by Abs

Fixed amount of Abs to Ag in question is mixed with fixed amount of
RBCs coated with Ag

Add amount of sample to be analyzed for the presence of the Ag

If sample contains Ag, the Ag will compete with Ag coated on RBCs for
binding to the Ab therefore inhibiting agglutination
 Some Applications
Pregnancy testing
Using illicit drugs (cocaine)
 False positive results since some legal drugs have similar structures as illegal
ones
Individuals have been exposed to some viruses
 Precipitation Tests
When a soluble antigen reacts with an Ab in the correct proportion

Constant Abs in tubes and add increasing concentration of Ags

Three zones
 Zone of excess Abs
Equivalence zone
Zone of excess Ags

Equivalence Zone: proportion of Ab and Ag is optimal for maximal
precipitation

At zones of excess Ag or Ab proportion of reactants do not lead to effective
cross linking thus preventing precipitation
 Radial Immunodiffusion (Mancini Test)

Ab is incorporated into agar gel and
different dilutions of Ags placed in
holes punched in the agar

As antigen diffuses into the holes it
reacts with Abs

At the equivalence point, rings of
precipitation are formed

Measure diameter of rings and
determine unknow
 Applications
Determination of immunoglobulin levels in patient samples

Antimicrobial sensitivity testing
 Immunoelectrophoresis

Complex mixture of Ags are placed
in well on agar gel and Ags
electrophoresed so that they are
separated based on charges

After electrophoresis, Abs are added
into a trough cut in the gel

Diffusion of Abs into the agar cause
formation of precipitin lines at the
equivalence point,
 Applications
Evaluate purity of isolated serum proteins

Determine the presence or absence of immunoglobulins in serum of
patients
 Immunoblotting (Western Blotting)

Mixture of Ags are separated in a gel

Separated material is blotted onto a
nitrocellulose sheet (binds Ag
strongly)

Ab applied to the sheet to bind to
specific Ag

Ab may be labeled
 Diagnosis of AIDs by applying a patient serum to a nitrocellulose sheet on which HIV
antigens are found

Binding of specific Ab is strong evidence of infection b the virus