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Immunological Methods

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Effectors of the humoral immune response, searching and neutralising ... been employed, such as alkaline phosphatase, horseradish peroxidase and b-galactosidase ... – PowerPoint PPT presentation

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Title: Immunological Methods


1
Immunological Methods
  • Dr Kathy Triantafilou
  • University of Sussex
  • School of Life Sciences

2
What is an antigen?
  • Any substance capable of producing a specific
    immune response

3
What is an antibody?
  • Antigen-specific products of B-cells
  • Present on the B-cell surface
  • Secreted by plasma cells
  • Effectors of the humoral immune response,
    searching and neutralising/eliminate antigens
  • Two functions
  • to bind specifically to molecules from the
    pathogen
  • to recruit other cells and molecules to destroy
    the pathogen once the antibody is bound to it

4
Structure of the antibody molecule
  • The antigen-binding region of the antibody
    molecule is called the variable region or V
    region
  • The region of the antibody molecule that engages
    the effector functions of the immune system is
    known as the constant region or C region.
  • They are joined by a polypeptide chain that is
    known as the hinge region

5
Structure of the antibody molecule
  • X-ray crystallography has revealed that the
    overall shape is roughly that of a Y
  • Each arm of the Y is formed by the association of
    a light chain with a heavy chain
  • The leg of the Y is formed by the pairing of the
    carboxyl-terminal halves of two heavy chains

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Antibody-antigen interactions
  • The biological function of an antibody is to bind
    pathogens and their products and facilitate their
    removal from the body
  • Regions of the molecule that are specifically
    recognised by antibodies are called antigenic
    determinants or epitopes

9
Antigen-antibody interactions
  • Antigen-antibody interaction depend on four
    noncovalent forces
  • hydrogen bonds
  • ionic bonds
  • hydrophobic interactions
  • van der Waals interactions (between the outer
    electron clouds)

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Antibody-antigen interactions
  • The interactions can be disrupted by
  • high salt concentrations
  • extremes of pH
  • detergents

12
Monoclonal antibodies
  • The resulting serum antibodies are heterogeneous
    (mixture of antibodies against different
    epitopes)
  • Antibody heterogeneity increases immune
    protection in vivo but reduces the efficacy of
    the antiserum in vitro
  • For research, diagnostic and therapeutic purposes
    monoclonal antibodies are preferable

13
Monoclonal antibodies
  • Monoclonal antibodies are derived from a single
    clone, and thus are specific for a specific
    epitope
  • In 1975, George Kohler and Cesar Milstein devised
    a method of preparing monoclonal antibodies
  • They fused normal activated B-cells with a
    myeloma cell
  • They generated a hybrid cell called hybridoma

14
Hybridomas
  • Hybridomas possess
  • the immortal growth properties of the myeloma
    cell
  • the secreted antibody produced by the B-cell
  • The resulting clones secrete large quantities of
    a particular monoclonal antibody
  • Hybridomas can be cultured indefinitely

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Use of antibodies
  • Antibodies can be tagged to fluorophores,
    radioisotopes and enzymes
  • Antibodies can be used to
  • detect antigen
  • purify proteins
  • locate antigen

17
Precipitin Reactions
  • The interaction between an antibody and antigen
    in aqueous solution forms a lattice that
    eventually develops into a visible precipitate
  • The precipitate develops as neighbouring antibody
    molecules within the lattice form ionic bonds
    with each other causing the lattice to lose its
    charge and thus become insoluble

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Precipitin reactions in gels
  • Immune precipitates can form not only in solution
    but also in an agar matrix
  • When antigen and antibody diffuse toward one
    another in agar or when antibody is incorporated
    into the agar and antigen diffuses, a visible
    line of precipitation will form
  • Radial immunodiffusion
  • Double immunodiffusion

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Immunodiffusion
  • Radial immunodiffusion
  • relative concentration of antigen can be
    determined
  • Double immunodiffusion
  • antigen and antibody diffuse radially from the
    wells towards each other

22
Agglutination reactions
  • The interaction between antibody and a
    particulate antigen results in visible clumping
    called agglutination
  • Hemagglutination
  • Bacterial agglutinations

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Agglutination Inhibition
  • A modification of the agglutination reaction
  • One of the early types of home pregnancy tests
  • Included latex particles coated with human
    chrorionic gonadotropin (HCG), and anti-HCG
    antibody
  • Addition of urine, which contained HCG, inhibited
    agglutination
  • Absence of agglutination indicated pregnancy

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Agglutination Inhibition
  • Agglutination inhibition is used
  • to determine whether an individual is using
    certain types of illegal drugs, such as cocaine
    of heroin
  • in clinical laboratories to determine whether an
    individual has been exposed to a certain type of
    virus (i.e. rubella)

29
Western Blotting
  • Used to identify a specific protein in a complex
    mixture of proteins
  • A protein mixture is electrophoretically
    separated on a gel
  • The proteins are then transferred onto a
    nitrocellulose membrane
  • Individual protein bands are identified by the
    addition of specific antibodies
  • The antigen-antibody complexes can be visualised
    by enzyme-linked antibodies

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Affinity Chromatography
  • Attachment of antibody to a solid support, such
    as a column matrix
  • An extract produced by disruption of cells is
    passed through the column
  • The protein of interest is captured by the
    antibody, whereas everything else runs through
    the column
  • In order to recover the protein of interest, the
    antibody-protein interaction is disrupted by
    change of pH (elution buffer)

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Enzyme-linked Immunosorbent Assay
  • ELISA depends on an enzyme label on an antibody
  • An enzyme conjugated with an antibody reacts with
    a colourless substrate to generate a coloured
    reaction product
  • A number of enzymes have been employed, such as
    alkaline phosphatase, horseradish peroxidase and
    b-galactosidase

34
Variations of ELISA
  • Indirect ELISA
  • Antigen is coated onto a well
  • Serum (containing antibody) is added
  • Presence of bound antibody is detected by adding
    an enzyme-conjugated secondary antibody
  • Substrate is added
  • Sandwich ELISA
  • An antibody is immobilised on a well
  • A sample containing antigen is added
  • A second enzyme-linked antibody specific for the
    antigen is added
  • Substrate is added

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