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Literature DB >> 34686336

Efficient stimulation of retinal regeneration from Müller glia in adult mice using combinations of proneural bHLH transcription factors.

Levi Todd¹, Marcus J Hooper¹, Alexandra K Haugan¹, Connor Finkbeiner¹, Nikolas Jorstad¹, Nicholas Radulovich¹, Claire K Wong¹, Phoebe C Donaldson¹, Wesley Jenkins¹, Qiang Chen², Fred Rieke², Thomas A Reh³.

Abstract

Regenerative neuroscience aims to stimulate endogenous repair in the nervous system to replace neurons lost from degenerative diseases. Recently, we reported that overexpressing the transcription factor Ascl1 in Müller glia (MG) is sufficient to stimulate MG to regenerate functional neurons in the adult mouse retina. However, this process is inefficient, and only a third of the Ascl1-expressing MG generate new neurons. Here, we test whether proneural transcription factors of the Atoh1/7 class can further promote the regenerative capacity of MG. We find that the combination of Ascl1:Atoh1 is remarkably efficient at stimulating neurogenesis, even in the absence of retinal injury. Using electrophysiology and single-cell RNA sequencing (scRNA-seq), we demonstrate that Ascl1:Atoh1 generates a diversity of retinal neuron types, with the majority expressing characteristics of retinal ganglion cells. Our results provide a proof of principle that combinations of developmental transcription factors can substantially improve glial reprogramming to neurons and expand the repertoire of regenerated cell fates.

Entities: Chemical

Keywords: Muller glia; bHLH transcription factors; glia; regeneration; reprogramming; retina

Mesh：

Substances：

Year: 2021 PMID： 34686336 PMCID： PMC8691131 DOI： 10.1016/j.celrep.2021.109857

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

47 in total

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5. Retinoic Acid-Signaling Regulates the Proliferative and Neurogenic Capacity of Müller Glia-Derived Progenitor Cells in the Avian Retina.

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Journal: Stem Cells Date: 2017-11-27 Impact factor: 6.277

6. Transcription factors SOX4 and SOX11 function redundantly to regulate the development of mouse retinal ganglion cells.

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7. Inducing Different Neuronal Subtypes from Astrocytes in the Injured Mouse Cerebral Cortex.

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Journal: Neuron Date: 2019-09-02 Impact factor: 17.173

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Authors: Daniel Goldman
Journal: Nat Rev Neurosci Date: 2014-06-04 Impact factor: 34.870

9. Transcriptional Mechanisms of Proneural Factors and REST in Regulating Neuronal Reprogramming of Astrocytes.

Authors: Giacomo Masserdotti; Sébastien Gillotin; Bernd Sutor; Daniela Drechsel; Martin Irmler; Helle F Jørgensen; Steffen Sass; Fabian J Theis; Johannes Beckers; Benedikt Berninger; François Guillemot; Magdalena Götz
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Authors: Katharina Lust; Rebecca Sinn; Alicia Pérez Saturnino; Lázaro Centanin; Joachim Wittbrodt
Journal: Development Date: 2016-04-11 Impact factor: 6.868

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Authors: Whitney A Thiel; Zachary I Blume; Diana M Mitchell
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Review 3. In vivo glia-to-neuron conversion: pitfalls and solutions.

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Review 4. Beyond Genetics: The Role of Metabolism in Photoreceptor Survival, Development and Repair.

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Journal: Front Cell Dev Biol Date: 2022-05-18

5. Derivation and Characterization of Murine and Amphibian Müller Glia Cell Lines.

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Review 6. Deciphering the Retinal Epigenome during Development, Disease and Reprogramming: Advancements, Challenges and Perspectives.

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