Noninvasive gene delivery to foveal cones for vision restoration
Hanen Khabou, … , José-Alain Sahel, Deniz Dalkara
Hanen Khabou, … , José-Alain Sahel, Deniz Dalkara
Published January 25, 2018
Citation Information: JCI Insight. 2018;3(2):e96029. https://doi.org/10.1172/jci.insight.96029.
View: Text | PDF
Resource and Technical Advance Ophthalmology Therapeutics

Noninvasive gene delivery to foveal cones for vision restoration

Abstract

Intraocular injection of adeno-associated viral (AAV) vectors has been an evident route for delivering gene drugs into the retina. However, gaps in our understanding of AAV transduction patterns within the anatomically unique environments of the subretinal and intravitreal space of the primate eye impeded the establishment of noninvasive and efficient gene delivery to foveal cones in the clinic. Here, we establish new vector-promoter combinations to overcome the limitations associated with AAV-mediated cone transduction in the fovea with supporting studies in mouse models, human induced pluripotent stem cell–derived organoids, postmortem human retinal explants, and living macaques. We show that an AAV9 variant provides efficient foveal cone transduction when injected into the subretinal space several millimeters away from the fovea, without detaching this delicate region. An engineered AAV2 variant provides gene delivery to foveal cones with a well-tolerated dose administered intravitreally. Both delivery modalities rely on a cone-specific promoter and result in high-level transgene expression compatible with optogenetic vision restoration. The model systems described here provide insight into the behavior of AAV vectors across species to obtain safety and efficacy needed for gene therapy in neurodegenerative disorders.

Authors

Hanen Khabou, Marcela Garita-Hernandez, Antoine Chaffiol, Sacha Reichman, Céline Jaillard, Elena Brazhnikova, Stéphane Bertin, Valérie Forster, Mélissa Desrosiers, Céline Winckler, Olivier Goureau, Serge Picaud, Jens Duebel, José-Alain Sahel, Deniz Dalkara

×

Figure 3

Foveal cone transduction with PR1.7 promoter versus cytomegalovirus (CMV) promoter 2–3 months after intravitreal delivery of AAV2-7m8 in nonhuman primates.

Options: View larger image (or click on image) Download as PowerPoint
Foveal cone transduction with PR1.7 promoter versus cytomegalovirus (CMV...
Representative eye fundus images after intravitreal injection of AAV2-7m8-CMV-GFP (n = 2 eyes) (A and B) or AAV2-7m8-PR1.7-GFP (n = 2 eyes) (C and D) at 1 × 1011 viral particles per eye. B and D are inset of images shown in A and C. Scale bars: 200 μm. Confocal images of the maculas mounted with the ganglion cell layer facing upward using CMV (E) and PR1.7 (F) promoters. Scale bars: 500 μm. (G and H) Zoomed images of the fovea with CMV (G) and with PR1.7 (H). Scale bars: 100 μm in G and H. (I–K) Retinal cryosections at the level of the fovea. (I) DAPI staining at the level of the fovea. Asterisk represents foveal pit. GFP expression under the control of CMV (J) or PR1.7 (K) promoters. Scale bar: 50 μm in I, J, and K. (L–N) Confocal image projection of the whole foveal flatmount showing nuclei (L) and GFP expression in cones (M). Scale bar: 100μm. (N) Zoom into 3-D–reconstructed fovea seen in M with close-up to the cell bodies (facing upward). Scale bar: 10μm. AAV, adeno-associated virus; PR1.7, a promoter of 1.7 kilobases in length, based on the human red opsin gene enhancer and promoter sequences.