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• Immunohistochemistry General Protocols

Immunohistochemistry General Protocols

The protocols described below are for general application. Any product specific protocol supercedes these general recommendations.

Background

Immunohistochemistry is widely used in basic research to understand the distribution and localization of biomarkers and differentially expressed proteins in different parts of a biological tissue. IHC staining is also widely used in the diagnosis of abnormal cells such as those found in cancerous tumors. Visualizing an antibody-antigen interaction can be accomplished in a number of ways. In the most common instance, an antibody is conjugated to an enzyme or cofactor, such as biotin, horseradish peroxidase (HRP) or alkaline phosphatase (AP) that can catalyze a color-producing reaction. Alternatively, the antibody can also be tagged to a fluorophore. such as fluorescein (FITC) or R-Phycoerythrin (PE) (see Immunofluorescence).

With the use of a conjugated primary antibody, direct IHC can be performed, but this method is seldom used because of the amplifying effect available with the use of a conjugated secondary antibody. The choice of secondary antibody for Immunohistochemistry is similar to that of ELISA and Western Blot. The conjugated secondary is directed specifically at the host species of the primary antibody and its specific isotype (e.g., mouse IgG1, goat IgM, rabbit IgG1,k, chicken IgY, etc.). In addition, if working with tissues or cells that have Fc receptors (thymus, spleen, blood, hematopoietic cells, leukocytes, B cells, etc.), it is best to choose an F(ab')2 fragment to eliminate non-specific binding through Fc receptors present on cells. As an alternative, binding of IgG whole molecule secondary antibodies to Fc receptors may be blocked by incubating cells in purified normal serum from the host species of the secondary antibody.

Fixed, Frozen Tissue Sections

1. Perfuse tissue with fixative or immerse tissue in fixative for a set time period. 4% paraformaldehyde is the most commonly used fixative.
2. Immerse the tissue in cyroprotectant solution containing 10-30% sucrose in PBS. Cryoprotection is complete when the tissue no longer floats in the solution.
3. Remove tissue from the cyroprotectant solution and store at -70°C until sectioned.
4. Remove tissue from the -70°C freezer and equilibrate at -20°C for about 15 minutes before attempting to section. Equilibration helps prevent cracking of the block when sectioning.
5. Using a cryostat, prepare 10-15um sections that can be collected directly onto slides. Usually 3 sections can be placed per slide; spaced well apart.
6. Thoroughly dry sections on slides. Drying can be accomplished by air drying or by using a slide warmer, usually overnight, or at least 2-3 hours at 40-50°C.
7. Prepared slides can be stored dry at -70°C until stained. Equilibrate to room temperature and briefly re-dry prior to rehydration and staining.

Paraffin-Embedded Sections

1. Deparaffinize and hydrate sections
• Xylene 2-3 changes, 5 minutes each
• 100% absolute ethanol: 2 changes, 3 minutes each
• 95% ethanol: 2 changes, 3 minutes each
• 80% ethanol: 3 minutes
• 50% ethanol: 3 minutes
• Distilled water, PBS, or Tris buffer: 2 changes, 3 minutes each.

Note: Once the tissue sections have been rehydrated, do not allow them to dry. Dry the slide around the tissue section with an absorbent wipe. Using a diamond pencil, china marking pencil or fingernail polish, draw a circle on the microscope slide around the section. This circle will help retain solution on the section during subsequent incubations with reagents.

2. Perform antigen retrieval if required. (For antigen retrieval methods see Section V. HIER (heat-induced epitope retrieval) using citrate buffer is a commonly used method.
3. Block endogenous peroxidase (if required) by immersing slides into 0.3-3% H₂O₂ and 100% methanol for 10-30 minutes at RT.
4. Wash sections in distilled water, 2 changes for 5 minutes each.

Immunostaining

Blocking

1. Incubate sections with 3-10% normal serum from the same species as the secondary antibody, for 30 minutes to block non-specific binding of immunoglobulin.
2. Remove blocking solution.

Primary Antibody Incubation

(All steps should be performed in a moist environment.)
3. Dilute the primary antibody in blocking solution. If no dilution is suggested, begin testing at 1:10, 1:100 and 1:1000.
4. Incubation overnight at 4°C.
5. Remove antibody solution. Wash 3 x 5 minutes in PBS, pH 7.4.
6. If the primary antibody is HRP-conjugated, proceed to Color Development.

Secondary Antibody Incubation

7. Dilute the biotin-conjugated secondary antibody in blocking solution according to the recommended dilution. Incubate 30-60 minutes at RT.
8. Removed secondary antibody solution. Wash slides 3 x 5 minutes in wash buffer.

Color Development

9. Add streptavidin-horseradish peroxidase reagent to each section and incubate for 30 min. at RT.
10. Remove ABC reagent. Wash sections 3x in wash buffer for 5 min. each.
11. Apply the DAB solution to cover the sections completely in a moist environment. Incubate for 5-15 minutes at RT. Alternatively, observe the slide under a microscope to determine optimal color intensity of the insoluble precipitate.
12. As soon as color develops, stop the reaction by gently flushing with dH₂O.
13. Counterstain tissue as desired with Hematoxylin & Eosin to define antigen proximity to normally expected structures.
14. Wash the slides with dH₂O.

Dehydration and coverslip application

15. Dehydrate the sample for storage using a series of methanol or ethanol graded concentrations: 50% (2x5min), 75% (2x5min), and finally 100% (2x5min).
16. Repeat in xylene, incubating sections two times for 10 seconds each.
17. Allow the slide to air dry.
18. Mount coverslips

Antigen Retrieval

The visualization of many antigens can be significantly improved by pretreatment with antigen retrieval methods that break the protein cross-links formed by formalin fixation and thereby uncover hidden antigenic sites. Antigen retrieval techniques typically involve either the application of heat for varying lengths of time or the use enzymatic digestion by using proteases such as proteinase K, trypsin, or pepsin.

The heating methods typically utilize either a microwave oven, pressure cooker, steamer or water bath. Samples are heated for 20 minutes at close to 100°C, followed by cooling for an equivalent length of time. The most frequently used retrieval solutions are a) citrate buffer, pH 6.0, b) Tris-EDTA, pH 9.0 and c) EDTA, pH 8.0.

Antigen Retrieval using Citrate Buffer

Citrate buffer: 10mM sodium citrate, 0.05% Tween-20, pH 6.0 or 10mM citric acid, 0.05% Tween-20, pH 6.0

1. Pre-heat steamer or water bath with staining dish containing Sodium Citrate Buffer or Citrate Buffer until temperature reaches 95-100°C.
2. Immerse slides in the staining dish. Place the lid loosely on the staining dish and incubate for 20-40 minutes (optimal incubation time should be determined by user).
3. Turn off steamer or water bath and remove the staining dish to room temperature and allow the slides to cool for 20 minutes.
4. Rinse sections in TBS-Tween-20 for 2x2 min.
5. Proceed to blocking step.

Troubleshooting