As previously shown, immunization with ocular antigens, like heat shock protein 27 (HSP 27), leads to retinal ganglion cell loss in an autoimmune glaucoma model. Aim of this study was to assess how immunization with S100 alone and in combination with HSP 27 affects retinal ganglion and macroglia cells. Rats were immunized with S100 or S100 plus HSP 27 (COMB). Neuronal cell density was evaluated on Nissl-stained flatmounts. Immunized groups showed a significant neuronal cell loss (S100, p = 0.005; COMB, p = 0.0005). A significant loss of retinal ganglion cells was also observed in both immunized groups on Brn-3a stained retinal cross-sections (S100, p = 0.003; COMB, p = 0.001). An increase in GFAP(+) area was noted in both groups (S100, p = 0.01; COMB, p = 0.001). In contrary, vimentin staining was not altered (S100/COMB, p > 0.05). In summary, immunization with solely S100 leads to retinal ganglion cell damage and reactive gliosis. While the combination of S100 plus HSP 27 also caused retinal ganglion cell loss and a glia response, the combination of the two antigens did not cause additional damage or more severe cell loss. We assume that both antigens might interact, possibly having inhibitory effects on each other and thus preventing additional damage to the retina.
Previous studies have revealed a loss of retinal ganglion cells (RGCs) and optic nerve fibers after immunization with the S100B protein. Addition of heat shock protein 27 (HSP27) also leads to a decrease of RGCs. Our present aim has been to analyze various retinal cell types after immunization with S100B or S100B + HSP27 (S100 + HSP). After 28 days, retinas were processed for immunohistology and Western blot. RGCs, immunostained for NeuN, were significantly decreased in the S100 and the S100 + HSP groups. Significantly fewer ChAT cells were noted in both groups, whereas parvalbumin cells were only affected in the S100 + HSP group. Western blot results also revealed fewer ChAT signals in both immunized groups. No changes were noted with regard to PKCα rod bipolar cells, whereas a significant loss of recoverin cone bipolar cells was observed in both groups via immunohistology and Western blot. The presynaptic marker Bassoon and the postsynaptic marker PSD95 were significantly reduced in the S100 + HSP group. Opsin and rhodopsin photoreceptors revealed no changes in either group. Thus, the inner retinal layers are affected by immunization. However, the combination of S100 and HSP27 has a stronger additive effect on the retinal synapses and AII amacrine cells.
Immunizations led to loss of RGCs and cholinergic amacrine cells and a strong increase in microglial cells. Our data suggest that RGC loss is the consequence of immunization with GDNF. Astrocyte activity and its neuroprotective effects seem to be inhibited by GDNF immunization. We presume more complex interactions between GDNF and HSP27 because no additive effects could be observed.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.