en bloc staining and epoxy embedding of fixed brain tissue

Clayton Smith, John Mendenhall, and Masa Kuwajima

K. Harris lab, Ctr for Learning and Memory, UT-Austin.

0.  Safety Precautions:

• You must complete required lab safety training before starting this procedure.
• If this is your first time doing this procedure, ask to be trained by an experienced lab member.  If you have not done this in a while, you should ask for a refresher.
• Before starting, even if you have done this procedure before,
  • read this protocol entirely
  • review relevant Safety Data Sheets and Harris Lab SOP (also see below)
  • ensure you have all reagents and supplies listed below
  • ensure all equipment is in good working order
  • have all waste containers ready (also see Clean-up)
  • plan your schedule well so that you wouldn’t have to rush
  • Review SDS and Harris Lab SOP for the following hazardous chemicals used in this procedure:
    • Ethanol: flammable; irritant (eye)
    • Lead nitrate: oxidizer; toxic (ingestion, inhalation); carcinogen; reproductive toxin; causes serious eye damage; environmental toxin
    • LX-112 epoxy resin kit
      • LX-112: irritation (eye, skin, respiratory, oral)
      • DDSA: irritant (eye, skin, respiratory)
      • NMA: irritant (eye, skin, respiratory)
      • DMP-30: permanent eye damage, irritant (skin, respiratory, oral)
    • Osmium tetroxide: acutely toxic; mutagenic
    • Potassium ferrocyanide: contact with acid releases very toxic gas
    • Potassium hydroxide: corrosive; causes severe skin burns and eye damage; irritant (respiratory)
    • Propylene oxide: flammable; acutely toxic (skin, respiratory, oral); serious eye damage; mutagen; carcinogen
    • Sodium cacodylate: carcinogen; irritant (skin, eye); skin permeator
    • Uranyl acetate: fatal (inhalation, ingestion); flammable
• The following Personal Protective Equipment is required for this procedure:
  • Lab coat
  • Nitrile gloves (double-layer required; regularly check for holes)
  • Eye goggles
  • Also recommended when using osmium tetroxide and uranyl acetate: plastic apron and shoulder-length gloves
  • Place a piece of absorbent sheet on the work surface before starting the procedure.  When done, discard into the “Solid Waste – UA” bag

1.  Reagents and supplies

• Worksheet for this procedure [under development]
• Vibraslices (70-100 µm thickness) of chemically fixed brain tissue, embedded into 7-9% agarose
• H₂O (purified water: double-distilled, ASTM type I, WFI grade, or equivalent; e.g., Fisher 9150-25 or VWR RC915025)
• 0.2M sodium cacodylate buffer (SCB; EMS 11652)
• 0.1M SCB (diluted from 0.2M SCB)
• K₄Fe(CN)₆ · 3H₂O (potassium ferrocyanide, or KFeCN; Sigma P3289-100G)
• 4% aqueous OsO₄ (osmium tetroxide; stored at 4°C; EMS 19190): See 2.4.2
  • Use a fresh ampule for each processing; discard excess
• 1% aqueous uranyl acetate (UA; EMS 22400): See 2.4.1
  • Dissolve 0.1 g UA in 10 ml purified water, using a sonicator bath.
• Lead nitrate (EMS or Sigma-Aldrich)
• Aspertic acid (Sigma-Aldrich A9256)
• Potassium hydroxide (EMS)
• Ethanol (EtOH; EMS 15056); use a fresh bottle for each processing.
• Propylene oxide (PO; EMS 20411)
• Epoxy resin (LX-112 embedding kit; Ladd Research 21210)
• LX-112 (glycerol polyglycidyl ether; Ladd Research 21310)
• DDSA (dodecenyl succinic anhydride; Ladd Research 21340)
• NMA (nadic methyl anhydride; Ladd Research 21350)
• DMP-30 (2,4,6-tri[dimethylaminomethyl] phenol; Ladd Research 21370)
• Absorbent paper with plastic backing
• Disposable pipets (some with their tips trimmed – e.g., for LX-112 components, for transferring tissue)
• Kimwipes
• 20-ml syringes and syringe filters (PES membrane; 0.2-µm pore size) × 4 each.
• 20-ml borosilicate glass scintillation vials with caps (e.g., EMS 72634) × 10, labeled as below:
  
  • OsO₄
  • 1
  • 2
  • KFeCN
  • 50% EtOH
  • EtOH/UA: 1 each for 50%, 70%, 90%, 100%
  • 100% EtOH
• A Pasteur pipet and bulb, a 20-ml borosilicate glass scintillation vial without cap (labeled “OsO₄”)
• Ice packs: one for keeping OsO₄ solutions cold and another for cooling tissue during processing.
• Shell vials (EMS 72631-10 [3.4 ml]), 1 per tissue.
• Embedding mold (e.g., Chien mold, EMS 70140)
• Applicator sticks
• Razor blade
• Block labels
  • Suggested label format:
  • • Font: Tw Cen MT Condensed, 9 pt., with 8 pt. spacing between lines
    • Width = 0.5 in. max; Height = 2 lines max
    • Label information should at least contain: Animal ID (e.g., MK01) and Tissue ID (e.g., R42CA1, for right hemisphere, vibrasection 42, area CA1)
• Aluminum foil for preparing LX-112, as well as for wrapping open OsO₄ ampoule and used Pasteur pipet
• Tri-pour beakers:
  • 6 × 250-ml beakers for mixing LX-112 components (see 2.3)
  • 1 × 250-ml for collecting open OsO₄ ampoule and used Pasteur pipet
  • 1 × 250-ml for washing the processing basket in 0.1 M Na cacodylate buffer, and then for collecting liquid waste during the procedure (labeled “Waste cacodylate, osmium, UA-ethanol”).
  • 1 × 100-ml beaker for infiltration reagents (labeled “ethanol, propylene oxide, and LX-112”)
• Solid waste bags for UA and non-UA chemical-contaminated waste.Liquid waste bottles:
  • Formaldehyde, glutaraldehyde, and cacodylate
  • OsO₄, KFeCN, and cacodylate
  • Uranyl acetate, ethanol
  • Flammables
  • Resin and propylene oxide

2.  Reagent/Equipment Preparation (the day before, or on the day of processing)

2.1.  Tissue processing basket

• Remove and air-dry 12- or 6-well processing basket from acetone, then wash in a disposable beaker filled with SCB (0.1M, pH 7.4).

2.2.  Microwave

1. Fill load cooler with fresh deionized water and attach tubing to cold spot device.  Make sure pump is on.
2. Set microwave power level to 1 (175W).
3. Run microwave for 2 minutes to warm up magnetron.

2.3.  Epoxy resin (can be done the day before)

1. Place stir bars (kept in acetone) in three tri-pour beakers and label "A", "B", and "A+B".
2. Check the weight per epoxide (WPE) of LX-112 indicated on the bottle and record the value in worksheet.
3. Refer to Table 1 to determine the correct amounts of DDSA and NMA. Record the amounts in worksheet.
4. Measure resin components with the scale in fume hood, using disposable pipettes with their tips cut off. 
   
   1. Beaker A: mix DDSA and LX-112 (see Table 2)
   2. Beaker B: mix NMA and LX-112 (see Table 2)
   3. The recipe here should make enough resin for embedding up to 24 pieces of tissue.  
5. Into beaker A+B, add the contents of beakers A and B (see Table 3 for the amounts).  Cover with foil and mix for another 15 min.
6. Add DMP-30 (see Table 3 for the amount) and mix thoroughly for another 15 min. If mixing resin the day before, wait until the day of use to add DMP-30.

2.4.  Reagents for osmium fixation, dehydration, and UA en bloc staining

2.4.1.  Handling sodium cacodylate buffer

**under construction**

2.4.2.  Making stock solution of uranyl acetate, 2% in ethanol

1. Wear appropriate PPE (see above).  Place a piece of absorbent pad on work surface in fume hood.
2. Retrieve the following:
   1. Sonicator (stored in a cabinet under the lower fume hood), filled with some water
   2. A clean 100-ml graduated cylinder
   3. 100% ethanol (in flammables cabinet)
   4. Solid uranyl acetate (in the desiccator cabinet)
   5. Glass bottle containing 2% uranyl acetate solution in ethanol (stored in a secondary container in the fridge)
   6. Kimwipes
   7. A small piece of Parafilm (~1 in. × 4 in.)
   8. “Solid Waste – UA” bag
3. Place a large plastic weighing boat on a scale in fume hood and tare.
4. Open bottle of uranyl acetate powder in the fume hood.
5. Gently tap out approx. 1 g of uranyl acetate onto the weighing boat, then carefully pour into the glass bottle. Keep the weighing boat and note the exact amount of uranyl acetate.
6. Based on the amount of uranyl acetate, measure out the volume of ethanol necessary to make the final concentration of 2% (weight-by-volume; e.g., 52 ml ethanol for 1.04 g of UA).
7. Pour a small volume of ethanol from the graduated cylinder into the weighing boat to collect any remaining uranyl acetate.  Pour this into the bottle.
8. Pour the remaining ethanol into the bottle.
9. Cap the bottle (but do not tighten), wipe the bottle exterior with wet Kimwipes, and sonicate for at least 15 min.
10. Tighten the cap, remove the bottle from sonicator, and wipe the bottle exterior with Kimwipes.
11. Wrap around the cap with a piece of Parafilm and place the bottle in a secondary container before storing in the fridge.
12. Dispose of the weighing boat and other supplies contaminated with uranyl acetate (e.g., used Kimwipes and outer layer of gloves) in “Solid Waste – UA” bag.
13. Clean and return supplies and equipment to their storage locations.

2.4.3.  Dispensing osmium tetroxide solution from glass ampule

1. Wear appropriate PPE (see above).  Place a piece of absorbent pad on work surface in fume hood.
2. Retrieve the following:
   1. A Pasteur pipet and bulb
   2. A 20-ml borosilicate glass scintillation vial without cap (labeled “OsO₄” and placed in the vial rack)
   3. A 250-ml tri-pour beaker
   4. A piece of Aluminum foil
   5. A glass serological pipet
   6. A 10-ml ampule of 4% aqueous solution of osmium tetroxide (stored encased in a plastic sleeve in a metal can in the fridge)
   7. A pair of forceps (located in fume hood)
   8. "Solid Waste – No UA" bag
   9. "Waste OsO₄-KFeCN" bottle
3. Open the metal can to retrieve a 10-ml ampule of osmium tetroxide solution. Keep the ampule encased in the plastic sleeve.
4. Close and return the metal can to the fridge.
5. In fume hood, while still in the plastic sleeve with the red cap on, break open the ampule.
6. Remove the red cap and discard into "Solid Waste – No UA" bag.
7. Remove the broken ampule top with forceps and place on the foil. Keep the ampule bottom (with osmium tetroxide solution) in the plastic sleeve.
8. Use Pasteur pipet to dispense osmium tetroxide solution into a 20-ml borosilicate glass scintillation vial.
9. Once empty, keep the pipet tip in the ampule bottom, remove the pipet bulb, place the ampule top into plastic sleeve, and loosely wrap them in the foil.  Place the foil-wrapped waste into a 250-ml tri-pour beaker and discard into "Solid Waste – No UA" bag.
10. Dispense osmium tetroxide solution out of the scintillation vial for tissue processing using a glass serological pipet.
11. Discard any remaining osmium tetroxide solution into "Waste OsO₄-KFeCN" bottle.
12. Discard the scintillation vial into "Solid Waste – No UA" bag.

2.4.4.  Reagents for processing up to 12 pieces of tissue

• In 50-ml conical tubes, add:
  • ddH₂O: 50 ml
  • Na cacodylate buffer (SCB; 0.2M): 15 ml
  • Na cacodylate buffer (0.1M): 50 ml (~150 ml total will be needed)
  • In the labeled vials (Mix well by shaking):

              * See above (2.4.3) for how to dispense 4% OsO₄.

**Reduced osmium:

1. Add 3 ml of KFeCN solution to vial 2.
2. Place vials 1 and 2 on ice.
3. When ready, pour vials 1 and 2 back and forth to mix well before adding to tissue.

***1% OsO₄: Keep vial on ice until use.

2.4.5.  Reagents for processing 13 to 24 pieces of tissue

• In 50-ml conical tubes, add:
  • ddH₂O: 40 ml (additional 40 ml will be needed during processing)
  • Na cacodylate buffer (SCB; 0.2M): 20 ml
  • Na cacodylate buffer (0.1M): 50 ml (~300 ml total  will be needed)
  • In the labeled vials, prepare the following (Mix well by shaking):

              * See above (2.4.3) for how to dispense 4% OsO₄.

**Reduced osmium:

1. Add 5 ml of KFeCN solution to vial 2.
2. Place vials 1 and 2 on ice.
3. When ready, pour vials 1 and 2 back and forth to mix well before adding to tissue.

***1% OsO₄: Keep vial on ice until use.

2.5.  Reagents for infiltration

2.5.1.  Handling propylene oxide

**under construction**

2.5.2.  Reagents for infiltration

• Prepare ~2 ml per tissue of the following:
  • 1:1 = EtOH : propylene oxide (PO)
  • 1:2 = EtOH : PO
  • 100% PO
  • 1:1 = PO : Resin
  • 1:2 = PO : Resin