Reprogramming Müller glia via in vivo cell fusion regenerates murine photoreceptors
Daniela Sanges, … , Marta Nicolás, Maria Pia Cosma
Daniela Sanges, … , Marta Nicolás, Maria Pia Cosma
Published July 18, 2016
Citation Information: J Clin Invest. 2016;126(8):3104-3116. https://doi.org/10.1172/JCI85193.
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Research Article

Reprogramming Müller glia via in vivo cell fusion regenerates murine photoreceptors

Abstract

Vision impairments and blindness caused by retinitis pigmentosa result from severe neurodegeneration that leads to a loss of photoreceptors, the specialized light-sensitive neurons that enable vision. Although the mammalian nervous system is unable to replace neurons lost due to degeneration, therapeutic approaches to reprogram resident glial cells to replace retinal neurons have been proposed. Here, we demonstrate that retinal Müller glia can be reprogrammed in vivo into retinal precursors that then differentiate into photoreceptors. We transplanted hematopoietic stem and progenitor cells (HSPCs) into retinas affected by photoreceptor degeneration and observed spontaneous cell fusion events between Müller glia and the transplanted cells. Activation of Wnt signaling in the transplanted HSPCs enhanced survival and proliferation of Müller-HSPC hybrids as well as their reprogramming into intermediate photoreceptor precursors. This suggests that Wnt signaling drives the reprogrammed cells toward a photoreceptor progenitor fate. Finally, Müller-HSPC hybrids differentiated into photoreceptors. Transplantation of HSPCs with activated Wnt functionally rescued the retinal degeneration phenotype in rd10 mice, a model for inherited retinitis pigmentosa. Together, these results suggest that photoreceptors can be generated by reprogramming Müller glia and that this approach may have potential as a strategy for reversing retinal degeneration.

Authors

Daniela Sanges, Giacoma Simonte, Umberto Di Vicino, Neus Romo, Isabel Pinilla, Marta Nicolás, Maria Pia Cosma

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Figure 3

Activation of Wnt signaling promotes reprogramming of hybrids.

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Activation of Wnt signaling promotes reprogramming of hybrids. (A) Gene ...
(A) Gene expression analysis of pluripotent (blue bars), neural progenitor (red bars), photoreceptor progenitor (black bars), mature photoreceptor (green bars), and differentiated cell (orange bars) markers in DiD+YFP+ hybrids. The hybrids were FACS sorted 24 hours, 72 hours, and 1 week after transplantation of untreated or BIO-treated HSPCsR26Y in MNU-damaged Gfap-Cre retinas. Data represent the mean of log10 fold changes ± SEM of gene expression detected in hybrids obtained upon fusion with BIO-treated DiD-HSPCs with respect to hybrids obtained upon fusion with untreated DiD-HSPCs. n = 3. (B) Schematic representation of the experimental plan to detect dedifferentiation of retinal cells upon fusion. Reactivation of the nestin promoter in retinal cells fused with transplanted HSPCsR26Y leads to Cre expression and the consequent formation of YFP+ hybrids. (C) Representative immunostaining of YFP+ hybrids (green) and TUNEL+ apoptotic photoreceptors (red) on retinal sections obtained from MNU-damaged nestin-Cre retinas 24 hours after transplantation of untreated or BIO-treated HSPCsR26Y. Nuclei were counterstained with DAPI (blue). Scale bar: 20 μm.