ksu faculty - immunohistochemistry–these bridges can mask antigen presentation and prevent...
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Immunohistochemistry
By:Reham Alahmadi OCT 2018
IHC
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IMMUNOHISTOCHEMISTRY
Immunohistochmistry (IHC) combines histological, immunological and biochemical techniques for the identification of specific tissue components by means of a specific antigen/antibody reaction tagged with a visible label. IHC makes it possible to visualize the distribution and localization of specific cellular components within a cell or tissue.
Antigen/Antibody
basedTissue based
Reaction
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IntroductionImmunohistochemistry is the localization of antigens (proteins) in
tissue sections:
❖ by the use of labeled antibodies as specific reagents through
antigen-antibody interactions
❖ visualized by a marker such as fluorescent dye, enzyme.
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IntroductionVisualizing an antibody-antigen interaction can be accomplished in
a number of ways.
❖ Chromogenic
an antibody is conjugated to an enzyme, such as peroxidase, tha
t can catalyse a colour-producing reaction
❖ fluorescent
Alternatively, the antibody can also be tagged to a fluorophore,
such as fluorescein or rhodamine
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Introduction
➢ Cytoplasmic
➢ Nuclear
➢ Cell membrane
➢ Lipids
➢ Proteins
➢ disease diagnosis
➢ drug development
➢ biological research
target cellular antigens Applications
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TYPES OF IHC
❖ one step staining method
❖ involves a labeled antibody reacting
directly with the antigen in tissue
sections.
❖ This technique utilizes only one
antibody and the procedure is short
and quick.
❖ However, it is insensitive due to
little signal amplification and rarely
used since the introduction of
indirect method.
➢ Direct method-primary antibody only
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TYPES OF IHC
❖ involves an unlabeled primary antibody
(first layer) which react with tissue antigen
❖ and a labeled secondary antibody
(second layer) react with primary antibody
❖ This method is more sensitive due to
signal amplification
❖ economic
➢ Indirect method –
primary and secondary antibodies
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IHC protocol
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IMMUNOHISTOCHEMISTRY STEPS
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Antigen retrieval• What?
– Retrieve your antigen for detection by IHC
• Why?
– Formaldehyde fixation generates methylene bridges
– that crosslink proteins in tissue samples;
– these bridges can mask antigen presentation and prevent antibody
binding.
• How?
– to unmask the antibody epitopes,
1. either by heat (heat-induced epitope retrieval; HIER)
2. or enzymatic degradation (proteolytic-induced epitope retrieval; PIER)
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Blocking Endogenous target activtiy• What?
– Quenching or masking endogenous forms of enzymatic proteins (biotin, peroxidases or phosphatases)
• Why?
– When using Enzymatic detection
– To prevent false positive and high background detection.
• How?
– Hydrogen peroxide – peroxidases
– levamisole - Alkaline phosphatase
– Avidin - biotin
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Blocking non-specific sites• What?
– Masking sites that are similar to target sites
• Why?
– antibodies may partially or weakly bind to sites on nonspec
ific proteins that are similar to target
– nonspecific binding causes high background staining that
can mask the detection of the target antigen.
• How?
– Commonly blocking buffers are used
– normal serum, non-fat dry milk, BSA or gelatin
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Non-specific staining
Before block After block
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Workflow of IHC Sample Preparation
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Workflow of IHC Staining