basic principles of immunology and ag- ab reactions
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Basic Principles of Immunology and Ag- Ab Reactions . PREPARED BY: JOSEPHINE C. MILAN, RMT, MSMT WAGGAS AHMEDELAAS; M.Sc , MLT ( Revised, Feb 2014). Objective and Focus. - PowerPoint PPT PresentationTRANSCRIPT
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Basic Principles of Immunology and Ag-Ab Reactions
PREPARED BY:JOSEPHINE C. MILAN, RMT, MSMTWAGGAS AHMEDELAAS; M.Sc, MLT
(Revised, Feb 2014)
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Objective and FocusTo recall basic concepts of Immunology and
Antigen- Antibody reactions as they apply to Blood Banking practice, such as:
Immune response arising from blood group antigen stimulation
Characteristics of antigensDescribing clinically significant antibodiesEnhancing Ag-Ab reactions
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Topic OutlineDefinition and properties of Antigen,
immunogenDefinition and properties, types of antibodiesThe immune system response in relation to
Immunohematology or blood banking practiceNature/ principle of Ag-Ab reactions
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ANTIGEN, IMMUNOGENANTIGEN (Ag)– substance recognized as foreign by
the body, which when introduced to a host , will stimulate an immune response.
Immune response 1. activation of the cellular components of
immune system 2. the production of specific antibodies
Properties of antigen: 1. Specific reactivity – react with specific antibody 2. Immunogenicity- stimulate immune response
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Blood Group AntigensBiochemically : Protein, large polysaccharide,
glycoproteins or glycolipids
Immunogenic, antigenic
Represent the blood group phenotype
Determined by blood group genes
Antigens are integral structural component of the RBC membrane
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BLOOD GROUP ANTIBODIESGamma globulins / immunogloblinsProduced in response to antigenic
stimulation. How?Exposure through pregnancyExposure through transfusionExposure through transplant
Essentially of Ig M and IgG classes; some IgA
Characterized with specific reaction with blood group antigen epitopes/ determinants
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Antibodies:Produced and secreted by activated B lymphocytes
(plasma cells)Types: 1. Heteroantibodies (xenoantibodies) – produced in
response to antigens from another species.2. Alloantibodies / isoantibodies – produced in response to antigens from individuals of the same species;
such as those involved in transfusion reactions3. Autoantibodies – made in response to the body’s own antigens.
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Ig CLASSES OF SOME BLOOD GROUP ANTIBODIES
IgM antibodies important in Blood banking includes those against :ABH, Ii, MN, Lewis, Lutheran, and P.
IgG antibodies important in Blood banking includes those against:
Rh(D), Ss, Kell, Duffy, and Kidd.
IgA antibodies – Le, ABH subs
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II. Antibody ClassesIgM IgG IgA IgD IgE
Other names Macro-globulin
- Secretory Ig - Reagin
% 5-10 75 – 85 5-15 0.001 0.0003
MW 900,000 150,000 160,000 & 400,000 180,000 190,000
Half-life 9 - 11d 25 - 35d 6-8d 2-3d 2d
56 C stable yes yes yes no no
Pass thru placenta
no yes no no No
valence 10 2 2,4 2 2
C-fixing yes IgG3 No no no
subclass 2 4 2 - -
form pentamer monomer dimer Monomer Monomer
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Ig G structure
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Ig M structure
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Secretory Ig A
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Serologic properties of Abs:IgM Strong agglutinins (3-4+ agglutination)Reactive at cold temperature (4 0C to room temp) React to cells suspended in salineFix/ activate the complement
IgGWeak agglutinins, need AHGReactive at warm temperature (37 oC)React to red cells in protein or potentiating
mediumWeakly activate the complement
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ANTIBODY FUNCTIONSPrimary function: to bind with antigen
Secondary functions/ biological effector functions:Complement fixation/ activation hemolysis of red cellsPlacental transfer ( Ig G)Bind on receptor sites on tissues and
other cells
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The Complement in ImmunohematologyProteins normally produced in the body.Unstable, heat labile (56 oC); serum must be
freshWhen activated, they cause lysis of cell
membrane of antibody-coated RBCs.Complement is activated by the classic
pathway : IgM or IgG3 antibodies bound to red cell
antigens C1 component binds to the Fc portion of the
Ab activate C4, C2, C3, C5, C6 + C7 + C8 + C9 lysis.
Reason why: hemolysis of RC is a positive result.
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IMMUNE RESPONSEImmune system – activated by the presence of
foreign antigen, or abnormal autoantigen.
Cells involved :APCs (antigen presenting cells)= macrophages,
dendritic cells, monocytesLymphocytes = T helper, T cytotoxic, B/ plasma
cellsNatural killer, neutrophils, eosinophils, basophils,
platelets
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Plasma cells; Monocytes; Neutrophols; Platelets; Lymphocytes
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IMMUNE RESPONSES in Immunohematology
1. antibody production IgM and IgG2. hemolytic reaction mediated by Ab-Ag
and complement (cascade pathway)3. inflammatory reaction tissue necrosis
(organ transplantation)4. allergic reaction mediated by IgE with
basophils and mast cells
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IMMUNE RESPONSE BY BLOOD GROUP ANTIGEN STIMULATION
PREGNANCY – incompatible blood type of fetus to that of mother (baby’s antigen foreign to the mother) E.g. Baby is D(+), mother is D(-)
TRANSFUSION- incompatible blood type between patient (recipient) and donor blood
Tissue/ organ transplantation – incompatible type between patient (recipient) and donor tissue
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PRINCIPLES OF ANTIGEN- ANTIBODY
REACTION
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MANIFESTATIONS OF ANTIGEN – ANTIBODY REACTION
1. Red cell agglutination Clumping of red cells Various grades of strength of reaction(4+, 3+, 2+, 1+, +/-)
2. Hemolysis (red cell destructionHb)Red tinge of supernatantMinimal red cell button or none at allMay be misread as negative
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Grades of agglutination reaction
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NON- SPECIFIC AGGREGATION OF RED CELLS; NOT (+) RESULTRouleaux Formation
Stacked-coin formation Found in patients with Multiple Myeloma, Walderstrom’s Macroglobulinemia or Hyperviscosity Syndrome The red cells cluster and resembles amacroscopic agglutination)
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NATURE OF Ag- Ab REACTIONS
A. Lock and Key principlespecific reaction of antigen and
antibody the antigenic determinant fit in a
cleft / space formed by the combining site of the antibody (at the Fab region, formed by variable regions of light and heavy chains)
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Ag-Ab binding
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NATURE OF Ag – Ab REACTIONSB. Non-covalent Bonds
That hold the Ag in the antibody combining site
Include hydrogen bonds, electrostatic bonds, Van der Waals forces and hydrophobic bonds
Multiple bonding ensures the Ag bound to the Ab is tight and stable.
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STAGES OF RED CELL AGGLUTINATION
1. PRIMARY STAGE ( ANTIBODY SENSITIZATION) Involves binding of the paratope /combining siteof the Ab and the epitope/ determinantof the Agin a reversible reaction).
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2. SECONDARY STAGE OF RED CELL AGGLUTINATION : LATTICE FORMATION
Multiple erythrocytes with bound antibodies form alatticework through Ag--Ab bridgesformed between adjacenterythrocytes The lattice formed is thebasis of all visible agglutination reactions.
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
1. TemperatureThe nature of the bonds determines if the reaction occurs better at colder or warmer temperature.
With hydrogen bonds- they are exothermic, reaction occurs better at colder temperature
Associated with carbohydrates antigen e.g. ABH, Lewis, P1, I)
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
If with hydrophobic bonding, the reaction is optimally reactive at
body temperature, 37 OCThis type of bond is normally associated
with protein antigen e.g. Rh, Kell, Duffy
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
2. Effect Of pHOptimum pH for most antigen-antibody
reactions = 6.5 to 7.5Some antigens show stronger reactivity
at lower pH e.g. anti-M, and anti-D at pH 6.5 – 7.0
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
3. Ionic Strength refers to charge concentration of the
suspending (reaction) medium.
decreasing the ionic strength of the suspending medium reduces the interfering effects of the electrostatic barrier…
THUS, better attraction between antigen and antibody.
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
Low Ionic Strength Saline (LISS)
Consists of 0.2 % NaCl Bring about increased rate of antibody
uptake for the Ag during sensitization shortens incubation period of 15 to 5 minutes.
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
4. Time of IncubationTo allow antigen/antibody reactions
reach equilibrium 15 to 60 minutes
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
5. Effect Of Antigen-antibody RatioAmounts of antigen and antibody should
be in optimal proportions Optimum ratio is 80 parts antibody to 1
part antigen2 drops serum : 1 drop RCSExcess in either antigen or antibody results
to non occurrence of lattice formation leading to a false-negative result.
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FACTORS AFFECTING THE PRIMARY STAGE OF REACTION
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FACTORS AFFECTING THE SECONDARY STAGE
1. ZETA POTANTIALThe surface of red cells carry a negative
charge .
In saline, red cells will attract positively charged Na+, and an ionic cloud will form around each cell.
Thus the cells repel each other and stay a certain distance apart.
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ZETA POTENTIAL
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• IgG antibodies cannot causeagglutination when zeta potential exists.
• To overcome zeta potential techniques are needed to neutralize these charges.
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FACTORS AFFECTING THE SECONDARY STAGE
2. Effect of CentrifugationThe antibody - sensitized red cells are
subjected to high gravitational force to overcome the natural repulsive effect of the red cells to one another
Closer physical proximity (nearness) increases antigen-antibody bridging
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FACTORS AFFECTING THE SECONDARY STAGE
3. Effect of Immunoglobulin TypeMost efficient for agglutination reactions.The physical size of IgMThe number of antigen binding sites of
IgM molecules (valence 10) compared with IgG (valence 2), increases the chances of random antibody-antigen collisions, leading to a greater chance of effective red cell cross-linking.
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FACTORS AFFECTING THE SECONDARY STAGE
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ENHANCEMENT MEDIA FOR Ag- Ab REACTIONS
1. ALBUMIN:1. Reduce the charge density (dielectric constant) of the red cell suspending medium.
2. Reduce net repulsive force between red cells 3. It replaces the water hydration surrounding
the red cell
Therefore: IgG antibody able to span the gap between individual positive red cells to produce agglutination.
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ENHANCEMENT MEDIA FOR Ag- Ab REACTIONS
2. ENZYMES The proteolytic enzymes:
1) papain (papaya) 2) ficin (figs)
3) bromelin (pineapples)4) trypsin (lining of a hog's stomach)
Enzyme treatment is known to increase the avidity of both IgM & IgG Abs. They reduce Zeta potential allowing cells to come closer. They also remove proteins adjacent to antigens, allowing Abs to have better access to Ags.
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3. ANTIHUMAN GLOBULIN (AHG) Produces a “bridging effect” by cross linking the antibody-sensitized red cells.
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4. POLYETHYLENE GLYCOL: Water- soluble polymer used with AHG to bring
sensitized cells close together and facilitate cross-linking and enhancement of agglutination reaction. Does not produce non-specific reactions.
5. POLYBRENE (hexadimethrine bromide) Positively charged macromolecule which
cause non-specific aggregation of sensitized red cells with IgG antibody after incubation with LISS.
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Thanks