Scientific Reports (Oct 2023)

Human equivalent doses of l-DOPA rescues retinal morphology and visual function in a murine model of albinism

  • Aida Sanchez-Bretano,
  • Eloise Keeling,
  • Jennifer A. Scott,
  • Savannah A. Lynn,
  • Sudha Priya Soundara-Pandi,
  • Sarah L. Macdonald,
  • Tutte Newall,
  • Helen Griffiths,
  • Andrew J. Lotery,
  • J. Arjuna Ratnayaka,
  • Jay E. Self,
  • Helena Lee

DOI
https://doi.org/10.1038/s41598-023-44373-3
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 19

Abstract

Read online

Abstract l-DOPA is deficient in the developing albino eye, resulting in abnormalities of retinal development and visual impairment. Ongoing retinal development after birth has also been demonstrated in the developing albino eye offering a potential therapeutic window in humans. To study whether human equivalent doses of l-DOPA/Carbidopa administered during the crucial postnatal period of neuroplasticity can rescue visual function, OCA C57BL/6 J-c2J OCA1 mice were treated with a 28-day course of oral l-DOPA/Carbidopa at 3 different doses from 15 to 43 days postnatal age (PNA) and for 3 different lengths of treatment, to identify optimum dosage and treatment length. Visual electrophysiology, acuity, and retinal morphology were measured at 4, 5, 6, 12 and 16 weeks PNA and compared to untreated C57BL/6 J (WT) and OCA1 mice. Quantification of PEDF, βIII-tubulin and syntaxin-3 expression was also performed. Our data showed impaired retinal morphology, decreased retinal function and lower visual acuity in untreated OCA1 mice compared to WT mice. These changes were diminished or eliminated when treated with higher doses of l-DOPA/Carbidopa. Our results demonstrate that oral l-DOPA/Carbidopa supplementation at human equivalent doses during the postnatal critical period of retinal neuroplasticity can rescue visual retinal morphology and retinal function, via PEDF upregulation and modulation of retinal synaptogenesis, providing a further step towards developing an effective treatment for albinism patients.