Retinal degeneration progression changes lentiviral vector cell targeting in the retina.

In normal mice, the lentiviral vector (LV) is very efficient to target the RPE cells, but transduces retinal neurons well only during development. In the present study, the tropism of LV has been investigated in the degenerating retina of mice, knowing that the retina structure changes during degeneration. We postulated that the viral transduction would be increased by the alteration of the outer limiting membrane (OLM). Two different LV pseudotypes were tested using the VSVG and the Mokola envelopes, as well as two animal models of retinal degeneration: light-damaged Balb-C and Rhodopsin knockout (Rho-/-) mice. After light damage, the OLM is altered and no significant increase of the number of transduced photoreceptors can be obtained with a LV-VSVG-Rhop-GFP vector. In the Rho-/- mice, an alteration of the OLM was also observed, but the possibility of transducing photoreceptors was decreased, probably by ongoing gliosis. The use of a ubiquitous promoter allows better photoreceptor transduction, suggesting that photoreceptor-specific promoter activity changes during late stages of photoreceptor degeneration. However, the number of targeted photoreceptors remains low. In contrast, LV pseudotyped with the Mokola envelope allows a wide dispersion of the vector into the retina (corresponding to the injection bleb) with preferential targeting of Müller cells, a situation which does not occur in the wild-type retina. Mokola-pseudotyped lentiviral vectors may serve to engineer these glial cells to deliver secreted therapeutic factors to a diseased area of the retina.

Remaining rod activity mediates visual behavior in adult Rpe65-/- mice.

PURPOSE: C57/Bl6, Cpfl1(-/-) (cone photoreceptors function loss 1; pure rod function), Gnat1a(-/-) (rod α-transducin; pure cone function), and Rpe65(-/-);Rho(-/-) double-knockout mice were studied to distinguish the respective contributions of the different photoreceptor (PR) systems that enable light perception and mediate a visual reflex in adult Rpe65(-/-) mice, with a simple behavioral procedure. METHODS: Visual function was estimated using a rotating automated optomotor drum covered with vertical black-and-white stripes at spatial frequencies of 0.025 to 0.5 cycles per degree (cyc/deg) in both photopic and scotopic conditions. Mouse strains with different luminances were tested to evaluate the contribution and the light-intensity threshold of each PR system. RESULTS: Stripe rotation elicited head movements in the wild-type (WT) animals in photopic and scotopic conditions, depending on the spatial frequency, whereas the Cpfl1(-/-) mice show a reduced activity in the photopic condition and the Gnat1a(-/-) mice an almost absent response in the scotopic condition. A robust visual response was obtained with Rpe65(-/-) knockout mice at 0.075 and 0.1 cyc/deg in the photopic condition. The residual rod function in the Rpe65(-/-) animals was demonstrated by testing Rpe65(-/-);Rho(-/-) mice that present no response in photopic conditions. CONCLUSIONS: The optomotor test is a simple method of estimating the visual function and evaluating the respective contributions of rod and cone systems. This test was used to demonstrate that in Rpe65(-/-) mice, devoid of functional cones and of detectable 11-cis-retinal protein, the rods mimic cone function in part, by mediating vision in photopic conditions.