Screening of a retinal-targeting Adeno-Associated Virus (AAV) via DNA shuffling

Abstract

Due to its unique physiological structure and functions, the eye has received considerable attention in the field of adeno-associated virus (AAV) gene therapy. Inherited retinal degenerative diseases, which arise from pathogenic mutations in mRNA transcripts expressed in the eye's photoreceptor cells or retinal pigment epithelium (RPE), are the most common cause of vision loss. However, current retinal gene therapy mostly involves subretinal injection of therapeutic genes, which treats a limited area, entails retinal detachment, and requires sophisticated techniques. Intravitreal (IVT) injection provides an alternative method with less invasion and more convenience for retinal gene therapy. In the present study, we performed a directed evolution via DNA shuffling in RHO-GFP mice and identified a novel recombinant AAV vector (AAV-M04) suitable for IVT injection in the gene delivery of retinal tissue. Compared with AAV2, AAV9, and AAV2.7m8, AAV-M04 vector exhibited higher transduction efficiency in retinal ganglion cell line-5 (RGC-5) cells as well as in human embryonic stem cell derived retinal organoids. Importantly, when delivered via IVT injection in mice, the AAV-M04 vector also showed better delivery efficiency of transgene as indicated by the red fluorescence protein mScarlet. The red fluorescence was distributed in a wider retinal area of AAV-M04 injected mice, suggesting the potent retinal targeting of AAV-M04 vector. In addition, AAV-M04 qualities including the packaging efficiency, the thermal stability, and the capsid integrity were superior to controls, which were important in drug manufacture. In summary, we screened a novel AAV-M04 vector with great retinal-targeting via IVT injection, which provides the potential of AAV-M04 for effective gene therapy of retinal diseases.