Scientists from the RIKEN Research Institute and Kyoto University in Japan are reporting that when they stimulated a specific biochemical pathway they achieved retinal regeneration in a rat model:
It is a discovery that may ultimately lead to new therapies for retinal diseases including the degenerative disease called retinitis pigmentosa.
Previous research by the team led by Masayo Takahashi at the RIKEN Center for Developmental Biology, Kobe, demonstrated that retinal support cells called Muller glia could de-differentiate to assume a neuronal fate, but the level of regeneration via this mechanism was very low, occurring in just a few cells.
But the new study, published recently in the Journal of Neuroscience, indicates that retinal cell regeneration in an in vitro model of retinal damage can be increased by as much as twenty-fold in the presence of the protein Wnt3a.
The researchers initially performed experiments in cultured retinas isolated from rats. When they administered Wnt3a, they found a significant increase in proliferation of neuronal progenitors from the de-differentiated cells…
“Newly generated cells constituted almost a layer of cells in the outer nuclear layer in the retinal degeneration model mice,” says Takahashi. “We only observed several cells per field without Wnt treatment. Furthermore, the retinal neurons were regenerated all over the retina.”
The regenerated cells migrated to the outer nuclear layer of the retina, where, in the presence of retinoic acid (a form of vitamin A) or valproic acid, the team observed differentiation into rod photoreceptor cells.
The phenomenon appears to involve the canonical Wnt signaling pathway, in which Wnt activation protects the β-catenin protein from degradation, allowing it to accumulate in the nucleus where it regulates gene transcription. The process could also be stimulated with small molecule inhibitors of glycogen synthase kinase-3β, which normally blocks activation of the pathway.
Treatment of retinas isolated from a murine model of retinitis pigmentosa with Wnt3a similarly resulted in the regeneration of retinal cells, suggesting that the Wnt/β-catenin signaling pathway contributes to central nervous system regeneration.
Press release: Stimulating retinal repair …