Molecular Therapy: Nucleic Acids (Sep 2020)

MicroRNA-19a-PTEN Axis Is Involved in the Developmental Decline of Axon Regenerative Capacity in Retinal Ganglion Cells

  • Heather K. Mak,
  • Jasmine S.Y. Yung,
  • Robert N. Weinreb,
  • Shuk Han Ng,
  • Xu Cao,
  • Tracy Y.C. Ho,
  • Tsz Kin Ng,
  • Wai Kit Chu,
  • Wing Ho Yung,
  • Kwong Wai Choy,
  • Chi Chiu Wang,
  • Tin Lap Lee,
  • Christopher Kai-shun Leung

Journal volume & issue
Vol. 21
pp. 251 – 263

Abstract

Read online

Irreversible blindness from glaucoma and optic neuropathies is attributed to retinal ganglion cells (RGCs) losing the ability to regenerate axons. While several transcription factors and proteins have demonstrated enhancement of axon regeneration after optic nerve injury, mechanisms contributing to the age-related decline in axon regenerative capacity remain elusive. In this study, we show that microRNAs are differentially expressed during RGC development and identify microRNA-19a (miR-19a) as a heterochronic marker; developmental decline of miR-19a relieves suppression of phosphatase and tensin homolog (PTEN), a key regulator of axon regeneration, and serves as a temporal indicator of decreasing axon regenerative capacity. Intravitreal injection of miR-19a promotes axon regeneration after optic nerve crush in adult mice, and it increases axon extension in RGCs isolated from aged human donors. This study uncovers a previously unrecognized involvement of the miR-19a-PTEN axis in RGC axon regeneration, and it demonstrates therapeutic potential of microRNA-mediated restoration of axon regenerative capacity in optic neuropathies.

Keywords