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Pharmacologic fibroblast reprogramming into photoreceptors restores vision

Author

Listed:
  • Biraj Mahato

    (University of North Texas Health Science Center)

  • Koray Dogan Kaya

    (National Institutes of Health)

  • Yan Fan

    (University of North Texas Health Science Center)

  • Nathalie Sumien

    (University of North Texas Health Science Center)

  • Ritu A. Shetty

    (University of North Texas Health Science Center)

  • Wei Zhang

    (University of North Texas Health Science Center)

  • Delaney Davis

    (University of North Texas Health Science Center)

  • Thomas Mock

    (University of North Texas Health Science Center)

  • Subrata Batabyal

    (Nanoscope Technologies LLC)

  • Aiguo Ni

    (University of North Texas Health Science Center)

  • Samarendra Mohanty

    (Nanoscope Technologies LLC)

  • Zongchao Han

    (University of North Carolina at Chapel Hill)

  • Rafal Farjo

    (EyeCRO LLC)

  • Michael J. Forster

    (University of North Texas Health Science Center)

  • Anand Swaroop

    (National Institutes of Health)

  • Sai H. Chavala

    (University of North Texas Health Science Center
    CIRC Therapeutics, Inc.)

Abstract

Photoreceptor loss is the final common endpoint in most retinopathies that lead to irreversible blindness, and there are no effective treatments to restore vision1,2. Chemical reprogramming of fibroblasts offers an opportunity to reverse vision loss; however, the generation of sensory neuronal subtypes such as photoreceptors remains a challenge. Here we report that the administration of a set of five small molecules can chemically induce the transformation of fibroblasts into rod photoreceptor-like cells. The transplantation of these chemically induced photoreceptor-like cells (CiPCs) into the subretinal space of rod degeneration mice (homozygous for rd1, also known as Pde6b) leads to partial restoration of the pupil reflex and visual function. We show that mitonuclear communication is a key determining factor for the reprogramming of fibroblasts into CiPCs. Specifically, treatment with these five compounds leads to the translocation of AXIN2 to the mitochondria, which results in the production of reactive oxygen species, the activation of NF-κB and the upregulation of Ascl1. We anticipate that CiPCs could have therapeutic potential for restoring vision.

Suggested Citation

  • Biraj Mahato & Koray Dogan Kaya & Yan Fan & Nathalie Sumien & Ritu A. Shetty & Wei Zhang & Delaney Davis & Thomas Mock & Subrata Batabyal & Aiguo Ni & Samarendra Mohanty & Zongchao Han & Rafal Farjo &, 2020. "Pharmacologic fibroblast reprogramming into photoreceptors restores vision," Nature, Nature, vol. 581(7806), pages 83-88, May.
    • Handle: RePEc:nat:nature:v:581:y:2020:i:7806:d:10.1038_s41586-020-2201-4
    DOI: 10.1038/s41586-020-2201-4
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