An Immunohistochemistry Staining for the Detection of Rabies Virus Antigens

Published: February 29, 2024

Abstract

Source: Niezgoda, M. et al., Immunohistochemistry Test for the Lyssavirus Antigen Detection from Formalin-Fixed Tissues. J. Vis. Exp. (2021)

This video demonstrates immunohistochemistry staining for rabies virus antigen detection in infected mouse brain tissue. The process includes deparaffinization and alcohol treatment, followed by proteolytic treatment to enhance antigen accessibility. Immunohistochemistry staining reveals red precipitates, confirming the presence of rabies antigens in the tissue section.

Protocol

All procedures involving sample collection have been performed in accordance with the institute's IRB guidelines.

1. Formalin fixation of tissues

  1. Place 3-5 mm brain tissues collected after necropsy into 10% phosphate-buffered formalin solution (1:20 to 1:50 tissue/formalin ratio) for 24-72 h.
    CAUTION: Formalin is a toxic fixative.
  2. Record the approximate tissue weight (size), tissue type (brain areas), and volume of formalin. It is important for laboratories to document and maintain records on fixation times.
  3. For longer tissue storage after formalin fixation and prior to processing, place the tissue in 70% ethanol.

2. Tissue processing

  1. Following the specimen fixation, dissect the tissue to include the important brain areas e.g., cross sections of the brainstem, cerebellum (3 lobes), or the hippocampus (both hippocampi) each cut 3 to 5 mm thick and placed into processing cassettes.
  2. Process the tissue cassettes for paraffin wax infiltration, embedded into paraffin blocks and sectioned (3 to 6 µm) on a microtome.

3. Preparation of Materials / Staining dishes

  1. Set up the staining dish (Table of Materials) as shown in Figure 1. Fill each dish with 250 mL of the solution.
  2. Preparation of the 3-Amino-9-ethylcarbizole (AEC) substrate stock solution
    1. Dissolve one 20 mg tablet of 3-amino 9-ethylcarbazole (AEC) into 5 mL of N,N, dimethylformamide using a glass pipette.        
      CAUTION: AEC is a carcinogen.
  3. Preparation of the protease (e.g., Pronase) stock solution for the antigen retrieval
    1. Dissolve 7 mg of the protease in 200 mL of phosphate-buffered saline (PBS).
  4. Preparation of the rinse buffer PBS-T
    1. Add 10 mL of Tween 80 to 990 mL of PBS. Mix it well to form a homogenous solution.

4. Deparaffinization and tissue rehydration

  1. Make a 5 µm paraffin section using a microtome, float it on a water bath at 38 ˚C, and collect it onto glass slides. Label the slides with a reagent-resistant pen/marker.
  2. Place the slides onto a tray and melt in a 55-60 ˚C oven for 1 hour. Do not raise the temperature above 60 ˚C as it can destroy the viral antigen.
  3. Remove slides from the oven and immediately deparaffinize in 3 consecutive xylene rinses of 5 min each in dishes 1, 2, and 3.
  4. Rehydrate the sections on the slide by sequential immersions in decreasing dilution of ethanol to deionized water: (4 through 11 is a dip rinse) dish 4: xylene/100% ethanol (1:1); dish 5: 100% ethanol; dish 6: 100% ethanol; dish 7: 95% ethanol; dish 8: 95% ethanol; dish 9: 80% ethanol; dish 10: 70% ethanol; dish 11: deionized water (Figure 1. Dish set-up).
    CAUTION: Xylene is a hazardous chemical and work should be conducted in a fume hood.

5. Proteolytic antigen retrieval

  1. Treat slides with the protease (2.5 µg/mL of PBS) for 30 min for proteolytic antigen retrieval in dish 12.
  2. Then rinse in PBS-T for 10 min (dish 13).
  3. Treat with 3% hydrogen peroxide for 10 min (dish 14).
  4. Again, wash with PBS-T for 10 min (dish 15).

6. Staining procedure

  1. Handle slides one at a time keeping the remaining slides submerged in the buffer (do not remove the whole slide holder – keep slides wet). Remove one slide and blot off excess buffer (using a paper towel) from around the tissue section being careful not to disturb the tissue section. Incubate slides in a humidity chamber, made by placing moistened paper towels, on the lab bench top at room temperature with normal goat serum (blocking) for 15 min.
  2. Incubate with the optimal pre-determined dilution primary anti-rabies antibody (1:250 dilution of mouse anti-rabies serum, unpublished) (positive control) and negative control antibodies at room temperature same as above (step 6.1.) for 60 min with no washes in between.
  3. After 60 min, wash with PBS-T for 10 min (dish 16).
  4. Incubate with the biotinylated antibody (species-specific) in a humidity chamber at room temperature for 15 min (handling same as step 6.1.).
  5. Wash with PBS-T for 10 min (dish 16).
  6. Incubate with Streptavidin- horseradish peroxidase (HRP) complex in a humidity chamber at room temperature for 15 min (handling same as 6.1.).
  7. Wash with PBS-T for 10 min (dish 16).
  8. Incubate with peroxidase substrate, amino-ethylcarbazole (AEC), in a humidity chamber at room temperature for 10 min. Make AEC just prior to use. To do so, add 1 mL of AEC stock solution to 14 mL of 0.1M acetate buffer, pH 5.2. Add 0.15 mL of 3% peroxide, H2O2. Filter the mixture just before use (0.45 µm filter).
    NOTE: The working solution of AEC is only stable for 2-3 hours. The AEC stock solution can be stored in the refrigerator for longer periods.
  9. Wash in deionized water for 10 min (dish 17)
  10. Counterstained with Gill's Hematoxylin diluted 1:2 with deionized water for 2 min (dish 18).
  11. Rinse off excess Hematoxylin with deionized water dip rinse (dishes 19 and 20).
  12. Rinse in Scott's Tap water for 30 s (bluing solution) dish 21.
  13. Wash in deionized water for 10 min (dish 22)
  14. Remove slides one at a time – mount with a water-soluble mounting medium.
  15. Read slides on a light microscope.

Representative Results

Figure 1
Figure 1: Flow chart indicating different steps for IHC testing. 

Divulgations

The authors have nothing to disclose.

Materials

3% hydrogen peroxide Pharamacy brands Off the shelf 3% H2O2
3-Amino-9-ethylcarbazole (AEC) Millipore Sigma A6926
Acetate Buffer pH 5.2 Poly Scientific R&D Corp. s140
Buffered Formalin 10% Phosphate Buffered Fisher Scientific SF100-4 Certified
Cover slips Corning Fisher Scientific 12-553-471 24 X 50 mm
Ethanol 190 Proof Pharmco-AAPER 111000190
Ethanol 200 Proof Pharmco-AAPER 111000200
Gill's hematoxylin formulation #2 Fisher Scientific CS401-1D
HistoMark Biotin-Streptavidin Peroxidase Kit seracare 71-00-18 Mouse Primary Antibody 
ImmunoHistoMount Millipore Sigma i1161 Mounting media
N,N, Dimethyl formamide GR Fisher Scientific D119
Phosphate Buffered Saline  HyClone RR14440.01 01M, pH 7.2 (pH 7.2-7.6)
Plan-APOCHROMAT 40X/0.95 Objective Multiple vendors
Plan-APOCHROMATIC 20X/0.75 Objective Multiple vendors
Pronase Millipore Sigma 53702 Protease, Streptomyces griseus
Scott's Tap Water  Poly Scientific R&D Corp. s1887
Tissue-Tek Slide stain set Fisher Scientific 50-294-72
TWEEN-80  Millipore Sigma P1754
Xylene Fisher Scientific X3S-4 Histological Grade
Zeiss Axioplan 2 imaging – microscope Multiple vendors

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An Immunohistochemistry Staining for the Detection of Rabies Virus Antigens. J. Vis. Exp. (Pending Publication), e21982, doi: (2024).

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