Abstract

Background Glaucoma is a group of chronic eye diseases often associated with an elevated intraocular pressure (IOP). If not controlled, the condition leads to blindness. The eye tissue responsible for maintaining aqueous humor resistance and thus normal IOP is the trabecular meshwork (TM). Adenoviral vectors are capable of transducing the TM in several rodent species. Because of the relevance of the non-human primate model in the study of glaucoma, gene transfer to the eyes of cynomolgus monkeys was investigated. Methods Four cynomolgus monkeys were injected with AdenoGFP into the anterior chamber: two monkeys received 109 pfu and the other two 107 pfu. One monkey received four consecutive injections into the same eye (107 pfu in each injection) over a 7-month period. In vivo gene transfer (fluorescence) and IOP were evaluated by standard clinical ophthalmic instruments (slit lamp biomicroscopy, gonioscopy and tonometry). Histopathology and cellular distribution were assessed postmortem. Results The first injection of the lower viral dose resulted in marked TM-preferred gene transfer visible non-invasively by in vivo gonioscopy. The expression of the transgene lasted for 3–4 weeks with little or no signs of clinical inflammation. Gene transfer was achieved on three sequential occasions (3–4 weeks each) but failed and induced substantial, albeit reversible, corneal abnormalities on the fourth occasion. Conclusions Gene transfer to the TM and cornea can be monitored non-invasively in non-human primates, allowing correlation of gene transfer with physiological parameters. Because of ocular immune privilege, repeated anterior chamber administrations of adenoviral vectors expressing appropriate genes may have therapeutic potential for glaucoma. Copyright © 2001 John Wiley & Sons, Ltd.