Molecular Therapy: Methods & Clinical Development (Jun 2023)

Human amnionic progenitor cell secretome mitigates the consequence of traumatic optic neuropathy in a mouse model

  • Robyn McCartan,
  • Arissa Gratkowski,
  • Mackenzie Browning,
  • Coral Hahn-Townsend,
  • Scott Ferguson,
  • Alexander Morin,
  • Corbin Bachmeier,
  • Andrew Pearson,
  • Larry Brown,
  • Michael Mullan,
  • Fiona Crawford,
  • Radouil Tzekov,
  • Benoit Mouzon

Journal volume & issue
Vol. 29
pp. 303 – 318

Abstract

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Traumatic optic neuropathy (TON) is a condition in which acute injury to the optic nerve from direct or indirect trauma results in vision loss. The most common cause of TON is indirect injury to the optic nerve caused by concussive forces that are transmitted to the optic nerve. TON occurs in up to 5% of closed-head trauma patients and there is currently no known effective treatment. One potential treatment option for TON is ST266, a cell-free biological solution containing the secretome of amnion-derived multipotent progenitor (AMP) cells. We investigated the efficacy of intranasal ST266 in a mouse model of TON induced by blunt head trauma. Injured mice treated with a 10-day regimen of ST266 showed an improvement in spatial memory and learning, a significant preservation of retinal ganglion cells, and a decrease in neuropathological markers in the optic nerve, optic tract, and dorsal lateral geniculate nucleus. ST266 treatment effectively downregulated the NLRP3 inflammasome-mediated neuroinflammation pathway after blunt trauma. Overall, treatment with ST266 was shown to improve functional and pathological outcomes in a mouse model of TON, warranting future exploration of ST266 as a cell-free therapeutic candidate for testing in all optic neuropathies.

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