Toxicity of preserved and unpreserved antiglaucoma topical drugs in an in vitro model of conjunctival cells

Abstract

Purpose: To compare the toxicity of a short-time application of timolol with benzalkonium chloride (timolol-BAC+) and unpreserved timolol (timolol-BAC-) in a human conjunctival cell line.

Methods: Chang's conjunctival cell line (ATCC CCL 20.2) was treated for 15min. with 0.1%, 0.25% or 0.4% timolol-BAC(+) or BAC(-) and then examined immediately or 24h later. Cell viability, chromatin condensation and free radicals production were studied by microplate cold light cytometry. Moreover, relative cell number was evaluated by crystal violet colorimetric test. The comparison was done with an oxidative stress model of cells treated with 0.001-0.000001% hydrogen peroxide (H(2)O(2)). In addition, cell size and the expression of an apoptotic marker Apo2.7 were evaluated by flow cytometry.

Results: Timolol-BAC(+) induced a rapid decrease in cell viability ranging from 40% immediately after treatment to 85% 24h later. A small initial decrease in cell viability was also observed with all tested concentrations of timolol-BAC(-) but, 24h later, cell viability either tended to remain constant or cells completely recovered. Cell viability fell down after 24h exposure to 0.001% H(2)O( 2) whereas it was not modified at lower concentrations. 24h after treatment with 0.25% timolol-BAC(+), the relative cell number was reduced by 55% whereas it did not vary after 0.25% timolol-BAC(-) treatment. Only timolol-BAC(+) induced chromatin condensation and cell size reduction. Moreover, cells treated with timolol-BAC(+) overexpressed the apoptotic marker Apo2.7. Both timolol-BAC(+) and BAC(-) induced reactive oxygen species (ROS) production which was significantly more important when 0.25% or 0.4% timolol-BAC(+) were applied. Only 0.001% and 0.0001% H(2)O(2) generated a significant free radicals production.

Conclusion: In our model of conjunctival cells in vitro timolol-BAC(+) induced irreversible cytotoxic damage with some characteristics of apoptosis. The active compound of timolol-BAC(-) could be responsible for reactive oxygen species production and for cell viability variations. The role of oxidative stress in timolol-BAC(+)-induced toxicity seems not to be predominant. in vitro toxic effects of antiglaucoma drugs could, in part, explain some ocular surface disorders in long-term treated patients.