Organotypic Culture of Full-thickness Adult Porcine Retina

Summary

Here we describe a cost-effective technique for organotypic culture of adult porcine retina for seven days. Briefly, a sterile filter paper was used to lift the neural retina off from the RPE and place photoreceptor side up on an insert raised by a custom-made stand.

Abstract

There is a recognized demand for in vitro models that can replace or reduce animal experiments. Porcine retina has a similar neuronal structure to human retina and is therefore a valuable species for studying mechanisms of human retinal injury and degenerative disease. Here we describe a cost-effective technique for organotypic culture of adult porcine retina isolated from eyes obtained from an abattoir. After removing the anterior segment, a trephine blade was used to create multiple neural retina-Bruch's membrane-RPE-choroid-sclera explants from the posterior segment of adult porcine eyes. A piece of sterile filter paper was used to lift the neural retina off from each explant. The filter paper-retina complex was cultured (photoreceptor side up) atop an insert, which was held away from the bottom of the culture dish by a custom-made stand. The stand allows for good circulation of the culture medium to both sides of the retina. Overall, this procedure is simple, reproducible, and permits preservation of native retinal structure for at least seven days, making it a useful model for a variety of morphological, pharmacological, and biochemical studies on mammalian retina.

Protocol

1. Making a custom-made stand for cell culture inserts

The base of a 5 ml pipette tip (ISC BioExpress, #P-3250-19) has an inner diameter of 13 mm, which perfectly matches the bottom size (12.6 mm, outer diameter) of a 10 mm (inner diameter) NUNC cell culture insert (8 μm, Polycarbonate membrane, Thermal, #137443). To make the stand, the pipette was cut off near the base to produce a 6 mm long hollow cylinder. Then, pieces were removed from the side of the cylinder using a flame-heated blade to create 3 legs (4 mm in height) under a ring (2 mm in height), which raised the height of the inserts by approximately 5 mm.

2. Preparation of sterile filter paper for attachment and culture of porcine retina

Whatman 4M Filter paper (Cat No. 1004) was cut into a circular shape (6.3 mm in diameter) with a small, triangular handle that was used for moving the filter paper into a glass tube for sterilization or once the retina was attached (as shown in the video).

3. Preparation of retinal explants

Eyes from 5- to 9-month old, 150-230 lbs, American Yorkshire pigs were obtained from a local abattoir within three hours of enucleation (transported on ice). Upon arrival, eyes were cleaned of extraneous tissue, dipped in betadine solution (10% Povidone-iodine, The Purdue Frederique Company, Stamford, CT) and washed twice in Dulbecco’s Modified Eagle Medium (DMEM with 1g/L glucose, L-glutamine, and sodium pyruvate, Cellgro-mediatech Inc., Manasses, VA) supplemented with 2.5 μg/ml Amphotericin B (Gibco-Invitrogen, Carlsbad, CA). The anterior segment was removed, exposing the neural retina. Six-mm trephine blades (Storz Ophthalmic-Bausch and Lomb, Manchester, MO) were used to cut equatorial, full-thickness posterior segment explants. The retina was subsequently peeled off by gently applying a piece of dry sterile filter paper onto the ganglion cell layer, lifting off the neural retina, and placing the filter paper with attached retina onto the culture insert, photoreceptors facing up. The insert was then placed into culture medium, making sure to fully cover the retina, in a 12-well culture dish (Fisher). Multiple explants were obtained routinely and cultured from a single eye.

4. Tissue culture

The retinal tissue was cultured in Eagle’s Minimum Essential Medium (MEM, Invitrogen-Gibco-Life Technologies Inc., Rockville, MD), pH 7.4, supplemented with 0.2 mg/ml glutamine, 10 μg/ml porcine insulin, 1 mM pyruvate, 0.1 mM L-ascorbic acid, 100 U/ml penicillin, 100 μg/ml streptomycin, and 250 ng/ml amphotericin B (Antibiotic Antimycotic: Sigma, St. Louis, MO), and aerated with humidified 5% CO₂, balance air, at 37 °C. Medium was exchanged every two days.

Tissue can be used, treated with a variety of reagents or probes, or left untreated for subsequent biochemical or morphological analyses. The section below describes procedures to create consistent full-thickness retinal cross-sections.

5. Sectioning

1. Using a Cryostat
   1. Fix retinal tissue in 4% parafomaldehyde overnight at 4°C;
   2. Rinse tissue briefly with phosphate buffered saline (PBS);
   3. Carefully remove the tissue from the filter paper while it is in PBS in a 35 mm dish using a dissection microscope;
   4. Transfer tissue to 30% sucrose and keep overnight at 4°C;
   5. Suction away the excess solution around the tissue, add sufficient Tissue-Tek medium (O.C.T. Compound 4583) to cover tissue, and let it soak at room temperature for 2 hours to permeate the tissue;
   6. Build a square frame (10 mm x 10mm, 5 mm height) with dental wax and place it around the tissue; add more Tissue-Tek medium to fill the frame (make sure the tissue sample is flat) and place in a freezer (-20°C) for at least 1 hour;
   7. Transfer the frozen sample block to a sample platform (make sure the sample block is vertical to the platform);
   8. Mount the sample platform in a pre-cooled cryostat (-20°C, Leica, CM1900) and make sure the block is vertical to the blade;
   9. Remove the wax and the frame block before sectioning the tissue at desired thickness;
   10. Place the sections on gelatin-treated slides.
2. Using a Vibratome
   1. Fix and rinse the tissue as described above for the Cryostat;
   2. Place the tissue into pre-heated, melted 4% agar in a small container and keep at 4°C until the agar congeals completely;
   3. Use a sharp blade to trim the agar into a small block with the tissue sample inside;
   4. Glue the sample block on a vibratome sample holder with Krazy glue (make sure the piece of tissue sample is vertical to the platform of the sample holder, i.e., perpendicular to the blade) and mount the holder on a vibratome sectioning system (Leica, Series 1000) with the sample block completely submerged in icy water;
   5. Cut the sample block into 50 μm sections and place them on gelatin-treated slides with a soft brush.

6. Immunohistochemistry

Use any standard protocol. Immunolabeled thick sections can be viewed with a confocal microscope.

7. Representative Results:

Morphology was preserved during the seven-day period of culture. Images of retina before and after culturing are available in the video.

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Discussion

Vision researchers have established a variety of retinal culture systems, including organotypic systems, to study a variety of issues, such as retinal stem cell transplantation¹, retinal regeneration², and exogenous gene expression^3-5. However, adult mammalian retina is difficult to maintain in vitro, mainly due to the high-energy demands of the photoreceptors⁶. Koizumi et al. described a rabbit retinal organotypic culture system in which the oxygen supply for...

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Materials

Name	Company	Catalog Number	Comments
MEM	Invitrogen	10370-021
5 mL pipette tip	ISC BioExpress	P-3250-19
NUNC cell culture insert	Thermal Scientific, Inc.	137443	8μm, Polycarbonate
Whatman 4M Filter paper	Whatman, GE Healthcare	1004
DMEM	Cellgro	10-013-CV
Agar	Fluka	05040
Fungizone Amphotericin B	Invitrogen	15290018
Trephine blades	Bausch and Lomb	T3096	6.00mm
O.C.T. Compound	Electron Microscopy Sciences	62550-01	4583
Cryostat	Leica Microsystems	CM1900
Vibratome	Leica Microsystems	Series 1000
Confocal microscopy;	Carl Zeiss, Inc.	LSM510
Anti-Synaptic Vesicle Protein 2 (SV2) mouse monoclonal antibody	DSHB	N/A
Anti-Glial Fibrillary Acidic Protein (GFAP) polyclonal rabbit antibody	Dako	DAKO
Propidium Iodide (PI)	Sigma-Aldrich	P4170