Taken together immunolocalization on human cornea, in vitro efflux in human, rabbit corneal and MRP5 over expressing cells, ex vivo and in vivo studies in intact rabbit cornea suggest that MRP5 on cornea can significantly lower the permeability of antiviral and glaucoma drugs. These findings may be valuable in developing formulation strategies to optimize ocular bioavailability of topically administered ocular agents.
Cornea is considered as a major barrier for ocular drug delivery. Low ocular bioavailability of drugs has been attributed primarily to low permeability across corneal epithelium thus leading to subtherapeutic concentrations of drug in the eye and treatment failure. The role of drug efflux proteins, particularly the Pglycoprotein in ocular drug bioavailability has been reported. The objective of this research was to determine whether human corneal epithelium expresses multi drug resistance associated proteins contributing to drug efflux by employing both cultured corneal cells and freshly excised rabbit cornea. SV40 HCEC and rPCEC were selected for in-vitro testing. SV40-HCEC and freshly excised rabbit corneas were utilized for transport studies.
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