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Direct delivery of Cas9 or base editor protein and guide RNA complex enables genome editing in the retina

Juliette Pulman, Catherine Botto, Hugo Malki, Duohao Ren, Paul Oudin, Anne De Cian, Marie As, Charlotte Izabelle, Bruno Saubaméa, Valérie Forster, Stéphane Fouquet, Camille Robert, Céline Portal, A. Amraoui, Sylvain Fisson, Jean‐Paul Concordet, Deniz Dalkara

2024Molecular Therapy — Nucleic Acids11 citationsDOIOpen Access PDF

Abstract

. However, the delivery into photoreceptors, the primary focus in retinal dystrophies, has not been achieved. Here, we investigate the feasibility of direct RNP delivery into photoreceptors and retinal pigment epithelium cells. We demonstrate that Cas9 or adenine-base editors complexed with guide RNA, can enter retinal cells without the addition of any carrier compounds. Once in the retinal cells, editing rates vary based on the efficacy of the guide RNA and the specific location edited within the genes. Cas9 RNP delivery at high concentrations, however, leads to outer retinal toxicity. This underscores the importance of improving delivery efficiency for potential therapeutic applications in the future.

Topics & Concepts

Cas9CRISPRGenome editingComputational biologyGuide RNAComputer scienceRNABase (topology)RetinaGenomeBiologyGeneticsGeneNeuroscienceMathematical analysisMathematicsCRISPR and Genetic EngineeringRNA regulation and diseaseRetinal Development and Disorders
Direct delivery of Cas9 or base editor protein and guide RNA complex enables genome editing in the retina | Litcius