November 1998
Volume 39, Issue 12
Free
Articles  |   November 1998
Retrovirus-mediated gene transfer to photocoagulation-induced choroidal neovascular membranes.
Author Affiliations
  • T Murata
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • M Hangai
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • T Ishibashi
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • C Spee
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • E M Gordon
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • W F Anderson
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • D R Hinton
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
  • S J Ryan
    Department of Ophthalmology, Doheny Eye Institute, University of Southern California School of Medicine, Los Angeles 90033, USA.
Investigative Ophthalmology & Visual Science November 1998, Vol.39, 2474-2478. doi:
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    • Get Citation

      T Murata, M Hangai, T Ishibashi, C Spee, E M Gordon, W F Anderson, D R Hinton, S J Ryan; Retrovirus-mediated gene transfer to photocoagulation-induced choroidal neovascular membranes.. Invest. Ophthalmol. Vis. Sci. 1998;39(12):2474-2478.

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Abstract

PURPOSE: To determine the feasibility of experimental gene transfer to laser-induced choroidal neovascular membrane (CNVM) in rats, with a retroviral vector containing the reporter construct beta-galactosidase (beta-gal). METHODS: Laser photocoagulation was used to induce CNVM in rats. To ascertain the duration of beta-gal expression in the CNVM, 23 rats received 10 burns (75 microm, 100 mW, 0.1 seconds) in their right eyes, and beta-gal expression was examined from day 3 to 4 months. In addition, 14 pigmented rats were treated with 3 photocoagulation burns in their right eyes. beta-gal vector was injected into the vitreous or subretinal space 2 days later. On day 14, fluorescein angiography was performed to detect choroidal neovascularization. Then, beta-gal expression in each photocoagulation-induced CNVM was examined by observing the exposed fundus of the eyes stained with the beta-gal substrate X-Gal. RESULTS: beta-gal expression was identified in the CNVM induced by photocoagulation from day 5 (16.2% +/- 6.8% of the lesions) to 4 months (3.7% +/- 2.4%). Histopathologic examination revealed beta-gal-transduced macrophages and spindle-shaped cells, which amounted to 1.12% +/- 0.58% (at 2 weeks) of the total cells in the CNVM. beta-gal expression was restricted to the CNVM, and there was no beta-gal transduction in surrounding normal retinochoroidal tissue. There was no correlation between choroidal neovascularization formation and beta-gal expression. CONCLUSIONS: The feasibility of gene transduction targeted to the photocoagulation-induced CNVM was demonstrated using retroviral vectors. By transducing functional genes, this model could be useful for investigating the possibility of gene therapy to inhibit formation of the CNVM in age-related macular degeneration.

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