Frontiers in Cell and Developmental Biology (Jul 2021)

Direct Neuronal Reprogramming: Bridging the Gap Between Basic Science and Clinical Application

  • Lakshmy Vasan,
  • Lakshmy Vasan,
  • Eunjee Park,
  • Eunjee Park,
  • Luke Ajay David,
  • Luke Ajay David,
  • Taylor Fleming,
  • Carol Schuurmans,
  • Carol Schuurmans,
  • Carol Schuurmans

DOI
https://doi.org/10.3389/fcell.2021.681087
Journal volume & issue
Vol. 9

Abstract

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Direct neuronal reprogramming is an innovative new technology that involves the conversion of somatic cells to induced neurons (iNs) without passing through a pluripotent state. The capacity to make new neurons in the brain, which previously was not achievable, has created great excitement in the field as it has opened the door for the potential treatment of incurable neurodegenerative diseases and brain injuries such as stroke. These neurological disorders are associated with frank neuronal loss, and as new neurons are not made in most of the adult brain, treatment options are limited. Developmental biologists have paved the way for the field of direct neuronal reprogramming by identifying both intrinsic cues, primarily transcription factors (TFs) and miRNAs, and extrinsic cues, including growth factors and other signaling molecules, that induce neurogenesis and specify neuronal subtype identities in the embryonic brain. The striking observation that postmitotic, terminally differentiated somatic cells can be converted to iNs by mis-expression of TFs or miRNAs involved in neural lineage development, and/or by exposure to growth factors or small molecule cocktails that recapitulate the signaling environment of the developing brain, has opened the door to the rapid expansion of new neuronal reprogramming methodologies. Furthermore, the more recent applications of neuronal lineage conversion strategies that target resident glial cells in situ has expanded the clinical potential of direct neuronal reprogramming techniques. Herein, we present an overview of the history, accomplishments, and therapeutic potential of direct neuronal reprogramming as revealed over the last two decades.

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