Development of the embryonic porcine neuroretina in vitro

Purpose: The objective of this study was to investigate the survival and morphology of embryonic porcine full-thickness neuroretina in culture.

Methods: Porcine fetuses were taken out by cesarian section, and the eyes were enucleated. Neuroretinas were explanted on culture plate inserts and were kept for 0-42 days in vitro under standard culture conditions. Green nucleic acid (Sytox) was used for measuring the extent of cell death, and 4,6-diaminidine-2-phenylindoldihydrochloride was used as a marker for the cellular layers. The explants were examined as whole-mount preparations and vertical sections. Sectioned tissue was stained with hematoxylin-eosin and labeled for immunohistochemistry with photoreceptor-specific antibodies raised against transducin and recoverin.

Results: In explants kept for 0-5 days in vitro, the developing retina consisted of multiple rows of neuroblastic cells and a more defined, but multilayered ganglion cell layer (GCL). Older explants revealed a more differentiated appearance with ultimately all normal retinal layers present, even after 42 days in vitro. Transducin- and recoverin-labeled photoreceptors were seen in these specimens, but no outer segments were found. The whole-mount preparation revealed extensively Sytox-labeled cells in the GCL at 2 days in vitro, but very few cells were labeled in older explants.

Conclusion: This study shows that cultured fetal porcine full-thickness neuroretina can survive and develop according to its intrinsic timetable for at least 6 weeks in vitro. The in vitro system for culturing of the full-thickness retina may be useful in experiments involving retinal transplantation.