These results provide a better understanding of how the phenotype of human healthy and degenerative disc cells is influenced by in vitro expansion. This may be useful for future tissue engineering purposes.
Despite the early expression of NMDA receptors (NMDARs) in the retina, not much is known about their regulation and involvement in plasticity processes during retinal development and synapse formation. Here we report that NMDAR function in the inner retina is developmentally regulated and controlled by ambient light condition. A prominent down-regulation after eye opening of NMDAR function was observed in rat retinal ganglion cells (RGCs), which was prevented by dark rearing the animals for 1 month but was again induced by subsequent light exposure. As shown by molecular analysis of single RGCs, alterations in the subunit composition of NMDAR did not account for the light-dependent regulation of NMDAR function. Immunocytochemistry showed no differences in the NMDAR protein expression pattern between normal and dark-reared animals. In conclusion, our data clearly demonstrate that NMDAR function is modulated during periods of retinal plasticity independent of structural alterations in its subunit composition and thus different from mechanisms observed in higher visual centers.
In order to investigate whether N-methyl-D-aspartate (NMDA) receptors with distinct pharmacological properties are differentially distributed within the retinal layers, the spatial distribution and temporal regulation of all NMDA receptor subunits was analyzed in parallel on the protein level in the rat retina during development. Immunohistochemistry was performed on retinal sections at different developmental ages between embryonic (E) days 20/21 and the adult stage using specific antibodies against NMDA subunits (NR1, NR2A-D). All NMDA subunits were expressed in the rat retina postnatally but showed different spatial patterns. In particular, and in contrast to previous in situ hybridization studies, labeling of NR2 subunits was observed in horizontal cell bodies and in the outer plex-iform layer, indicating that functional NMDA receptors are expressed in this retinal cell type in the rat. Expression of NR2D was restricted to the inner retina and seemed to be involved in neurotransmission within the rod pathway. In the inner plexiform layer (IPL), distinct patterns of labeling were observed for different NMDA subunits. NR1 was found in two bands which can be related to the off-and on-signal pathways, whereas NR2A and NR2B were located in two bands within the off-sublaminae of the IPL. The antibody against NR2C was distributed throughout the whole IPL, and NR2D was expressed exclusively in the innermost part of the IPL where rod bipolar cell terminals terminate. Distinct bands of immunoreactivity in the IPL were observed only from P14 on. In conclusion, there are clear differences in the spatial distribution and temporal expression of NMDA receptor subtypes in the rodent retina. This indicates that specific retinal cells selectively express glutamate receptors composed of different subunit combinations and thus display different pharmacological and kinetic properties.
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