Litcius/Paper detail

Human MiniPromoters for ocular-rAAV expression in ON bipolar, cone, corneal, endothelial, Müller glial, and PAX6 cells

Andrea J. Korecki, Jorge L. Cueva Vargas, Oriol Fornés, Jessica Agostinone, Rachelle A. Farkas, Jack W. Hickmott, Siu Ling Lam, Anthony Mathelier, Michelle Zhou, Wyeth W. Wasserman, Adriana Di Polo, Elizabeth M. Simpson

2021Gene Therapy33 citationsDOIOpen Access PDF

Abstract

Small and cell-type restricted promoters are important tools for basic and preclinical research, and clinical delivery of gene therapies. In clinical gene therapy, ophthalmic trials have been leading the field, with over 50% of ocular clinical trials using promoters that restrict expression based on cell type. Here, 19 human DNA MiniPromoters were bioinformatically designed for rAAV, tested by neonatal intravenous delivery in mouse, and successful MiniPromoters went on to be tested by intravitreal, subretinal, intrastromal, and/or intravenous delivery in adult mouse. We present promoter development as an overview for each cell type, but only show results in detail for the recommended MiniPromoters: Ple265 and Ple341 (PCP2) ON bipolar, Ple349 (PDE6H) cone, Ple253 (PITX3) corneal stroma, Ple32 (CLDN5) endothelial cells of the blood-retina barrier, Ple316 (NR2E1) Müller glia, and Ple331 (PAX6) PAX6 positive. Overall, we present a resource of new, redesigned, and improved MiniPromoters for ocular gene therapy that range in size from 784 to 2484 bp, and from weaker, equal, or stronger in strength relative to the ubiquitous control promoter smCBA. All MiniPromoters will be useful for therapies involving small regulatory RNA and DNA, and proteins ranging from 517 to 1084 amino acids, representing 62.9-90.2% of human proteins.

Topics & Concepts

PAX6Genetic enhancementBiologyGene deliveryMuller gliaRetinaPromoterStromaGeneMolecular biologyGene expressionCancer researchImmunologyStem cellCell biologyGeneticsNeuroscienceImmunohistochemistryTranscription factorProgenitor cellCRISPR and Genetic EngineeringRetinal Development and DisordersRNA Interference and Gene Delivery