Abstract
The development of five transplants of fetal retinal tissue to adult rat eyes was examined with the electron microscope. The transplants were of 9 to 10 weeks total age after conception in four cases and 20 weeks in one case. They were at stage E15 when transplanted. Transplants developed in both the epiretinal and subretinal spaces. The transplants were heterogeneously developed with some parts showing almost normal differentiation and others little. Subretinal transplants examined in this study were more developed than epiretinal grafts. Photoreceptor cells developed both inner and outer segments. Their synaptic terminals possessed output ribbon synapses with postsynaptic processes similar to those seen in normal retinas. In regions corresponding to the inner plexiform layer, the adult complement of synapses was seen, including advanced features such as serial synapses as well as reciprocal synapses at bipolar cell dyads. Incompletely differentiated synapses of both the amacrine and bipolar cell types were often observed, especially in the rat epiretinal transplants. Ganglion cell processes could not be identified with certainty. Although transplant cells were adjacent to host photoreceptor cells and pigment epithelium, obvious specializations or interactions were not observed. The experiments suggest that embryonic rat retinal cell transplants develop most or perhaps all of the structural components and neuronal circuitry necessary to transduce light and process some visual information.
Highlights
Cells of immature neural retina have been shown to survive and differentiate when transplanted to adult retina in a few mammalian species /6,9,1116,20-22,26-28,30-33/, and xenografts have been successful /5,7,17/
There are only a few reports on the ultrastructure of the transplants, and none that exclusively deals with the electron microscopy of rat to rat transplants, which initiated the work reported here
To establish the extent to which the transplants form the type of synapses and the architecture seen in normal development, we have examined the ultrastructure of transplants of fetal rat retina to adult rat retina
Summary
Cells of immature neural retina have been shown to survive and differentiate when transplanted to adult retina in a few mammalian species /6,9,1116,20-22,26-28,30-33/, and xenografts have been successful (mouse to rat, fetal human retinal cells to adult rat retina) /5,7,17/. Transplantation of mature retinal cells has been reported /30,31/. Transplantation of embryonic retinal cells offers an interesting model for studies on factors governing the differentiation of central nervous system neurons. Provided that the neurons in the transplants form a reasonably normal synaptic network with each other, there may be a clinical use for retinal cell transplants. To establish the extent to which the transplants form the type of synapses and the architecture seen in normal development, we have examined the ultrastructure of transplants of fetal rat retina to adult rat retina. The transplants were studied at 7 to 8 weeks after lg
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