A Rapid In Vivo Bioassay for Developmentally Active Enhancers

The protocol described below was performed in accordance with Loma Linda University's policy on research involving animals and followed the recommendations within the Federation of Animal Science Societies' (FASS) Guide for the Care and Use of Agricultural Animals in Research and Teaching, 3rd ed. and the National Research Council's Guide for the Care and Use of Laboratory Animals. It is important to check with the local institution regarding their requirements for vertebrate animal use approval when using chick embryos since they are not considered as a vertebrate animal within the FASS guide; however, recommendations for appropriate avian embryo euthanasia are described and adhered to in this lab. 1. Construction of the Reporter Vector Design primers to the potential regulatory sequence (PRS) to contain the restriction endonuclease sequence recognition site for XhoI (CTCGAG) and KpnI (GGTACC). 16 Amplify the region by performing polymerase chain reaction (PCR) using genomic DNA template as previously reported.17,18 Clone the PCR product into the ptk-EGFP expression vector.19 Use the empty ptk-EGFP expression vector as a negative control to indicate the basal level of expression within a given tissue. Use theβ-actin-driven RFP reporter plasmid as a positive control and an indicator of transfection efficiency. 2. Whole Embryo Electroporation Preparations Prepare filter paper supports. Punch 4 holes in a cloverleaf pattern onto a 2.2 x 2.2 cm filter paper using a standard hole punch. Sterilize by autoclaving. Prepare the albumin-agar culture dish. Dissolve 0.18 g of agar in 30 ml 0.9% sodium chloride on a hotplate, with stirring. Cool in a 42 °C water bath. Extract the thin albumin by first cracking the narrow end of an unincubated egg and removing the eggshell. Pour out the thick albumin and transfer the thin albumin into a sterile 50 ml conical tube using a large bore plastic transfer pipet. Use enough eggs to get 30 ml of thin albumin (~ 4 eggs). Add 150 µl of 10,000 U/ml penicillin-streptomycin and warm the albumin in a 42 °C water bath. Combine the albumin and agar and mix by swirling. Transfer 2 ml aliquots to a 35 mm Petri dish, gently swirling the dish to ensure even coverage. Allow the agar to set at room temperature for at least 10 min. Store at 4 °C. Prepare the cloned PRS vector cocktail: 1 µg/µl of PRS plasmid, 0.3 µg/µl of reporter plasmid, and 0.025% Fast Green FCF stain. Protocol for In Vitro Culturing of Hamburger-Hamilton Stage (HH) 4 Chick Embryos Incubate fertilized White Leghorn eggs at 39 °C for 18 – 19 hr, according to Hamburger-Hamilton chick staging11. Spray the surface of the egg with a light mist of 70% ethanol and air-dry. Crack the egg and empty its content into a 15 cm Petri dish. Carefully remove the thick albumin on the yolk using the blunt end of forceps. If the embryo is on the side of the yolk, roll the yolk around with the blunt end of forceps until the embryo is in the middle of the yolk. Place the filter paper on the yolk, with the embryo centered. Cut the vitelline membrane at the edges of the filter paper. Lift the filter paper from the yolk. Note: It is important that the vertical orientation of the primitive streak is maintained so that the embryo does not tear. Place the filter paper on the albumin-agar plate with the hypoblast (yolk side) up. Carefully remove excess yolk with the blunt end of forceps. Gently rinse the embryo with warmed Hank's Balanced Salt Solution (HBSS). Electroporation Protocol Position the electrodes and pulled glass capillary needle attached to a syringe under a dissecting microscope. Set the 3 mm round platinum cathode at the base of a ~ 2 mm deep chamber under the embryo suspension silicone platform. Mount the 2 mm round platinum anode in a micromanipulator and suspend above the silicone platform. The syringe contains mineral oil as the hydraulic fluid. Add 100 – 200 µl HBSS into the cathode cavity of the silicone platform. Place the filter paper supporting embryo on the platform with the hypoblast (yolk side) up. Inject 1 µl PRS vector cocktail between the blastoderm and the vitelline membrane using a pulled glass capillary needle. Follow with a small amount of mineral oil to seal the injection point. Position the anode about 2 mm above the embryo. Drop ~ 100 µl of HBSS directly over the electrode and embryo. Electroporate with 5 pulses of 5 V for 50 msec at intervals of 100 msec. CAUTION: The electroporator can produce high levels of voltage and current. Observe basic lab safety and common sense to prevent injury. This includes not touching the exposed electrodes with bare hands or materials that can conduct electricity while the electroporator is on. Refer to the equipment manual for other safety precautions and potential hazards. Return the embryo to the agar-albumin plate, with hypoblast up, and incubate in a humidified chamber. Clean the cathode after each electroporation by aspirating any remaining liquid and yolk. Clean the anode by wiping with a lab tissue. 3. Targeted Regional Electroporation: Neural Tube of HH10 Chicken Embryo  Protocol for Windowing the Egg and Staining the Embryo Incubate fertilized White Leghorn eggs at 39 °C for 33 – 38 hr, according to Hamburger-Hamilton chick staging11. Spray a light mist of 70% ethanol onto the eggs and air-dry. Place the egg on its side on an egg holder. Using a dissecting probe, poke a small hole at the blunt end of the egg. Insert a syringe with an 18 gauge needle through this hole at a downward angle and withdraw 1 – 2 ml of albumin, taking care not to remove any yolk. Without breaking the underlying shell membrane, poke a shallow hole on the top side of the egg. Carefully remove small portions of the eggshell with the dissecting probe, until ~ 0.5 cm diameter of the underlying membrane is exposed. Break the shell membrane by pushing down on it with the dissecting probe. Cover the hole with a strip of tape and cut the hole bigger, to ~ 2 cm diameter, using small scissors. Under a dissecting microscope, identify the blood island surrounding the embryo and add 6 µl of neutral red solution to the middle of this blood island. Wait 2 – 3 min. Carefully remove the vitelline membrane overlying the embryo using a tungsten needle. Electroporation Protocol Align the two electrodes in parallel with a fixed inter-electrode distance of 4 mm and mount on a micromanipulator. Position the electrodes on the yolk membrane so that the embryo is centered between the electrodes. Inject ~ 0.1 µl PRS vector cocktail into the neural tube lumen of the embryo. Add 1 – 2 drops of 1x phosphate buffered saline (PBS) using a transfer pipet. Reposition the electrodes so that they touch the yolk membrane, if necessary. Apply 5 pulses of 20 V each lasting 50 msec at 950 msec intervals. Add 1 drop of 1x PBS and remove electrodes. Seal the egg with a piece of transparent tape and return to the egg incubator. Clean electrodes after each electroporation in bleach, RNase-free water, and 1x PBS to remove residual yolk. 4. Targeted Regional Electroporation: Lateral Plate Mesoderm of HH14 Chicken Embryos Electroporation Protocol Incubate fertilized White Leghorn eggs at 39 °C for 50 – 53 hr, according to Hamburger-Hamilton chick staging11. Open and stage the embryos as described above in in Steps 3.1.2 to 3.1.7. Using a tungsten needle, make a slit onto the yolk membrane outside the periphery of the blood vessel at the tail end of the embryo. Slide the cathode rod into the yolk through this slit. Position the cathode parallel to and along the length of the embryo. Do not place the cathode directly under the lateral plate mesoderm. Inject ~ 0.2 µl PRS vector cocktail into the intraembryonic coelom at the level of somite 18, followed by a small amount of mineral oil. The DNA will travel anteriorly and posteriorly along the coelom. Position the cathode directly under the lateral plate mesoderm, spanning somites 15 – 20. Position the anode above the lateral plate mesoderm with an inter-electrode distance of ~ 2.5 mm. Add 3 – 5 drops of 1x PBS so as to submerge the anode. Adjust the electrodes so that they are not touching the embryo. Apply 3 pulses of 8 V, 60 msec in duration at 50 msec intervals.Remove cathode from the yolk through the slit. Add 40 µl 2,500 U/ml of penicillin/ streptomycin. Seal the egg with transparent tape and return to the egg incubator. Clean electrodes after each electroporation in bleach, RNase-free water, and 1x PBS to remove residual yolk. 5. Fluorescence Analysis Whole Embryo Electroporation Using forceps, lift the filter paper from the plate and replace the embryo onto the same plate with the hypoblast down. Position the embryo away from residual yolk and cloudy portions of the agar-albumin plate. Alternatively, place the embryo in a new plate for imaging. Examine the embryos with a fluorescence microscope to visualize transfection efficiency and PRS activity 6 – 48 hr after transfection. To optimize fluorescence intensity, visualize the embryos under high magnification. Targeted Regional Electroporation (TREP) Carefully dissect the embryo from the egg by cutting the yolk membrane around the embryo with microscissors and transfer to a 35 mm dish containing 1x PBS. Under a dissecting microscope, remove the extraembryonic membrane with microscissors and forceps. Keep the microscissors flat and parallel to the embryo to prevent accidentally cutting the embryo. Do not pull or tear the membranes with forceps as the embryo might tear otherwise. Visualize the embryo in a new 35 mm dish with 1x PBS under bright field and fluorescence microscopy. Use high magnification (40X) to optimize fluorescence intensity. At high magnification, stitch the images together using an image-editing software to generate the complete image of the targeted tissue.