Like other areas of the nervous system, the retina is subject to many acquired and inherited neuronal degenerative diseases. Since the retina provides the input for all visual sensory information to the brain, the loss of cells results in viual impairment and potentially complete blindness. Many retinal degenerative diseases affect only a subset of the retinal cells, although, frequently in more advanced disease, loss and reorganization of the entire retina can occur. In mammals, there is very limited regeneration of the degenerated cells; however, in fish, new neurons of all types regenerate from Mller glia following retinal damage and they are functionally integrated into the existing circuitry. Nevertheless, Mller glia, the cellular source for regeneration, is present in all vertebrate retins. In the proposal we submitted three years ago, we hypothesized that regeneration from mammalian Mller glia was limited because they fail to express a key proneural transcription factor, Ascl1, after injury. We proposed to test this hypothesis by virally-mediated expression of Ascl1 in mouse Mller glia. In the two years of funding, we have tested the hypothesis, and found that viral expression of Ascl1 is sufficient to activate a neurogenic program in mouse Mller glia, both in dissociated cultures and in the intact retina. The reprogrammed Mller glia generates cells that resemble neurons in morphology, gene expression and their responses to neurotransmitters. In the next funding period, we propose to further optimize this reprogramming process, using other transcription factors and epigenetic modifiers, and then to test whether Ascl1-reprogrammed Muller glia can provide a source for regeneration in vivo in a newly developed line of transgenic mice.

Public Health Relevance

Like other areas of the nervous system, the retina is subject to many acquired and inherited neuronal degenerative diseases. Since regeneration of new retinal neurons does not occur in people, these diseases can leave them with permanent visual impairment. In this proposal we outline experiments to promote the regenerative potential of mammalian M?ller glia, which may lead to development of novel strategies for treatment of human retinal degeneration.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY021482-07
Application #
9248407
Study Section
Neurogenesis and Cell Fate Study Section (NCF)
Program Officer
Greenwell, Thomas
Project Start
2011-04-01
Project End
2018-03-31
Budget Start
2017-04-01
Budget End
2018-03-31
Support Year
7
Fiscal Year
2017
Total Cost
$347,625
Indirect Cost
$122,625
Name
University of Washington
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
605799469
City
Seattle
State
WA
Country
United States
Zip Code
98195
Wohl, Stefanie G; Jorstad, Nikolas L; Levine, Edward M et al. (2017) Müller glial microRNAs are required for the maintenance of glial homeostasis and retinal architecture. Nat Commun 8:1603
Jorstad, Nikolas L; Wilken, Matthew S; Grimes, William N et al. (2017) Stimulation of functional neuronal regeneration from Müller glia in adult mice. Nature 548:103-107
Reh, Thomas A (2016) Photoreceptor Transplantation in Late Stage Retinal Degeneration. Invest Ophthalmol Vis Sci 57:ORSFg1-7
Wohl, Stefanie G; Reh, Thomas A (2016) The microRNA expression profile of mouse Müller glia in vivo and in vitro. Sci Rep 6:35423
Wilken, Matthew S; Reh, Thomas A (2016) Retinal regeneration in birds and mice. Curr Opin Genet Dev 40:57-64
Wohl, Stefanie Gabriele; Reh, Thomas Andrew (2016) miR-124-9-9* potentiates Ascl1-induced reprogramming of cultured Müller glia. Glia 64:743-62
Ueki, Yumi; Wilken, Matthew S; Cox, Kristen E et al. (2015) A transient wave of BMP signaling in the retina is necessary for Müller glial differentiation. Development 142:533-43
Zhang, Jianmin; Taylor, Russell J; La Torre, Anna et al. (2015) Ezh2 maintains retinal progenitor proliferation, transcriptional integrity, and the timing of late differentiation. Dev Biol 403:128-38
Wilken, Matthew S; Brzezinski, Joseph A; La Torre, Anna et al. (2015) DNase I hypersensitivity analysis of the mouse brain and retina identifies region-specific regulatory elements. Epigenetics Chromatin 8:8
Ueki, Yumi; Wilken, Matthew S; Cox, Kristen E et al. (2015) Transgenic expression of the proneural transcription factor Ascl1 in Müller glia stimulates retinal regeneration in young mice. Proc Natl Acad Sci U S A 112:13717-22

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