Conclusion
Our findings showed that PEG-PG-based topical formulation slightly alleviated hyperosmolar stress-induced decrease in MUC5AC and MUC16 gene expression that is encountered in DED.
Methods
Human corneoscleral rims were obtained from a healthy donor (n = 8) post-corneal keratoplasty and cultured in DMEM/F12 media. Hyperosmolar stress mimicking dry eye disease was induced by exposing the corneoscleral rim tissues to +200 mOsml NaCl-containing media. The corneoscleral rims were treated with polyethylene glycol-propylene glycol (PEG-PG)-based topical formulation. Gene expression analysis was performed for NFAT5, MUC5AC, and MUC16. Secreted mucins were measured by enzyme-linked immunosorbent assay (ELISA) (Elabscience, Houston, TX, USA) for MUC5AC and MUC16.
Purpose
Ocular surface discomfort and dry eye disease are caused by a dysfunctional tear film. The efficacy of lubricating eye drops on the human eye is known, but the compositions may show differential effects on rescuing the tear film. Mucins form a critical layer of the tear film, a reduction of which may be causative for ocular surface conditions. Therefore, it is essential to develop relevant human-derived models to test mucin production.
Results
The corneoscleral rims responded to hyperosmolar stress by upregulating NFAT5, a marker for increased osmolarity, as observed in the case of dry eye disease. The expression of MUC5AC and MUC16 was reduced upon an increase in hyperosmotic stress. The corneoscleral rim tissues showed induction of MUC5AC and MUC16 expression upon treatment with PEG-PG topical formulation but did not show significant changes in the presence of hyperosmolar treatments.