Mitochondrial Antioxidant SkQ1 Improves Hypothermic Preservation of the Cornea

Galina S. Baturina, Lubov E. Katkova, Irina G. Palchikova, Nataliya G. Kolosova, Evgeniy I. Solenov, Igor A. Iskakov

Research output: Contribution to journalArticlepeer-review


Diseases of the cornea are a frequent cause of blindness worldwide. Keratoplasty is an efficient method for treating severely damaged cornea. The functional competence of corneal endothelial cells is crucial for successful grafting, which requires improving the media for the hypothermic cornea preservation, as well as developing the methods for the evaluation of the corneal functional properties. The transport of water and ions by the corneal endothelium is important for the viability and optic properties of the cornea. We studied the impact of SkQ1 on the equilibrium sodium concentration in the endothelial cells after hypothermic preservation of pig cornea at 4C for 1, 5, and 10 days in standard Eusol-C solution. The intracellular sodium concentration in the endothelial cells was assayed using the fluorescent dye Sodium Green; the images were analyzed with the custom-designed CytoDynamics computer program. The concentrations of sodium in the pig corneal endothelium significantly increased after 10 days of hypothermic preservation, while addition of 1.0 nM SkQ1 to the preservation medium decreased the equilibrium concentration of intracellular sodium (at 37C). After 10 days of hypothermic preservation, the permeability of the plasma membrane for sodium decreased in the control cells, but not in the cells preserved in the presence of 1 nM SkQ1. Therefore, SkQ1 increased the ability of endothelial cells to restore the intracellular sodium concentration, which makes SkQ1 a promising agent for facilitating retention of the functional competence of endothelial cells during cold preservation.

Original languageEnglish
Pages (from-to)382-388
Number of pages7
JournalBiochemistry (Moscow)
Issue number3
Publication statusPublished - Mar 2021


  • corneal endothelium
  • hypothermic preservation
  • intracellular sodium
  • SkQ1




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